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1 %% This BibTeX bibliography file was created using BibDesk.
2 %% http://bibdesk.sourceforge.net/
3
4
5 %% Created for Dan Gezelter at 2008-04-30 12:15:56 -0400
6
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8 %% Saved with string encoding Western (ASCII)
9
10
11 @string{acp = {Adv. Chem. Phys.}}
12
13 @string{bj = {Biophys. J.}}
14
15 @string{ccp5 = {CCP5 Information Quarterly}}
16
17 @string{cp = {Chem. Phys.}}
18
19 @string{cpl = {Chem. Phys. Lett.}}
20
21 @string{jacs = {J. Am. Chem. Soc.}}
22
23 @string{jcc = {J. Comp. Chem.}}
24
25 @string{jcop = {J. Comp. Phys.}}
26
27 @string{jcp = {J. Chem. Phys.}}
28
29 @string{jmb = {J. Mol. Bio.}}
30
31 @string{jml = {J. Mol. Liq.}}
32
33 @string{jpc = {J. Phys. Chem.}}
34
35 @string{jpca = {J. Phys. Chem. A}}
36
37 @string{jpcb = {J. Phys. Chem. B}}
38
39 @string{mp = {Mol. Phys.}}
40
41 @string{pams = {Proc. Am. Math Soc.}}
42
43 @string{pccp = {Phys. Chem. Chem. Phys.}}
44
45 @string{pnas = {Proc. Natl. Acad. Sci. USA}}
46
47 @string{pr = {Phys. Rev.}}
48
49 @string{pra = {Phys. Rev. A}}
50
51 @string{prb = {Phys. Rev. B}}
52
53 @string{pre = {Phys. Rev. E}}
54
55 @string{prl = {Phys. Rev. Lett.}}
56
57 @string{rmp = {Rev. Mod. Phys.}}
58
59
60 @article{Jeffrey:2006dk,
61 Author = {Jeffrey,D. J. and Onishi,Y.},
62 Date-Added = {2008-04-30 12:15:31 -0400},
63 Date-Modified = {2008-04-30 12:15:31 -0400},
64 Journal = {Journal of Fluid Mechanics Digital Archive},
65 M3 = {10.1017/S0022112084000355},
66 Number = {-1},
67 Pages = {261--290},
68 Title = {Calculation of the resistance and mobility functions for two unequal rigid spheres in low-Reynolds-number flow},
69 Ty = {JOUR},
70 Volume = {139},
71 Year = {2006}}
72
73 @article{Goldman:1966ph,
74 Abstract = { Bipolar coordinates are employed to determine the terminal settling motion of two, identical, homogeneous, unconstrained spheres in an unbounded fluid at small Reynolds numbers. Exact numerical values are obtained for the linear and angular velocities of the spheres as a function of their relative separation and of the orientation of their line-of-centers relative to the direction of gravity. Comparison with published experimental data indicates good agreement, especially when wall effects are taken into account.},
75 Author = {Goldman, A. J. and Cox, R. G. and Brenner, H.},
76 Date-Added = {2008-04-30 12:12:54 -0400},
77 Date-Modified = {2008-04-30 12:12:54 -0400},
78 Journal = {Chemical Engineering Science},
79 Number = {12},
80 Pages = {1151--1170},
81 Title = {The slow motion of two identical arbitrarily oriented spheres through a viscous fluid},
82 Ty = {JOUR},
83 Url = {http://www.sciencedirect.com/science/article/B6TFK-44360XJ-D0/1/c14cf5c48fab65f0aaa096e60d15fa87},
84 Volume = {21},
85 Year = {1966},
86 Bdsk-Url-1 = {http://www.sciencedirect.com/science/article/B6TFK-44360XJ-D0/1/c14cf5c48fab65f0aaa096e60d15fa87}}
87
88 @article{Brenner:1972th,
89 Abstract = { A general theory is presented for determining the quasistatic Stokes resistance of a particle or an aggregate of particles of arbitrary shape which move with arbitrary translational and rotational velocities in an infinite viscous fluid subjected to a general linear shear flow in the absence of the particles. It is shown that the hydrodynamic resistance of the particles may be characterized by two intrinsic matrices-the grand resistance matrix and the shear resistance matrix, the elements of each matrix being dependent only upon the instantaneous geometrical configuration of the multiparticle system. Explicit expressions for these matrix elements are given for a single ellipsoidal particle and for two spheres. Analytical, closed-form expressions are given for the case where the spheres are widely spaced compared with their radii. When the separation between the spheres is arbitrary, the matrix elements are only determinate numerically for specified ratios of sphere radii and center-to-center separation distances. These numerical values are derived from available bipolar-coordinate system solutions for two spheres. Besides providing a compact and systematic representation of the intrinsic Stokes resistance of multiparticle systems subjected to shear, which does not depend upon the precise velocities of the particles or on the nature of the shear flow, it is demonstrated (by way of example) that the matrix representation permits an immediate determination of the translational and rotational velocities of the individual particles in a neutrally buoyant multiparticle system.},
90 Author = {Brenner, Howard and O'Neill, Michael E.},
91 Date-Added = {2008-04-30 12:12:49 -0400},
92 Date-Modified = {2008-04-30 12:12:49 -0400},
93 Journal = {Chemical Engineering Science},
94 Number = {7},
95 Pages = {1421--1439},
96 Title = {On the Stokes resistance of multiparticle systems in a linear shear field},
97 Ty = {JOUR},
98 Url = {http://www.sciencedirect.com/science/article/B6TFK-444GW12-16J/1/ba6bda9d1e50c88fea6cd92aac2f6bd7},
99 Volume = {27},
100 Year = {1972},
101 Bdsk-Url-1 = {http://www.sciencedirect.com/science/article/B6TFK-444GW12-16J/1/ba6bda9d1e50c88fea6cd92aac2f6bd7}}
102
103 @article{GarciadelaTorreJjp0647941,
104 Affiliation = {Departamento de Qu{\'\i}mica F{\'\i}sica, Facultad de Qu{\'\i}mica, Universidad de Murcia, 30071 Murcia, Spain},
105 Author = {{Garc\'{i}a de la Torre}, Jose and del Rio Echenique, G. and Ortega, A.},
106 Date-Added = {2008-04-30 10:14:50 -0400},
107 Date-Modified = {2008-04-30 10:14:50 -0400},
108 Issn = {1520-6106},
109 Journal = jpcb,
110 Number = {5},
111 Pages = {955-961},
112 Title = {Improved Calculation of Rotational Diffusion and Intrinsic Viscosity of Bead Models for Macromolecules and Nanoparticles},
113 Url = {http://pubs3.acs.org/acs/journals/doilookup?in_doi=10.1021/jp0647941},
114 Volume = {111},
115 Year = {2007},
116 Bdsk-Url-1 = {http://pubs3.acs.org/acs/journals/doilookup?in_doi=10.1021/jp0647941}}
117
118 @article{Garcia-de-la-Torre:2001wd,
119 Abstract = { The calculation of hydrodynamic and other solution properties of rigid macromolecules, using bead-shell model methodologies, requires the specification of the macromolecular shape in a format that can be interfaced with existing programs for hydrodynamic computations. Here, a procedure is presented for such a structural specification that is applicable to arbitrarily shaped particles. A computer program (), in which the user inserts the code needed to determine the structure, produces an structural file that is interpreted by another program () which is in charge of the computation of properties. As simple and yet illustrative examples we consider two cases: (1) dimeric structures composed of ellipsoidal subunits; and (2) toroidal structures, presenting simple equations that predict the properties of toroids with varying radial ratios.},
120 Author = {{Garc\'{i}a de la Torre}, Jose },
121 Date-Added = {2008-04-29 15:11:32 -0400},
122 Date-Modified = {2008-04-29 15:11:32 -0400},
123 Journal = {Biophysical Chemistry},
124 Keywords = {Rigid macromolecules; Hydrodynamic properties; Bead-shell model; Three-dimensional structure},
125 Number = {3},
126 Pages = {265--274},
127 Title = {Building hydrodynamic bead-shell models for rigid bioparticles of arbitrary shape},
128 Ty = {JOUR},
129 Url = {http://www.sciencedirect.com/science/article/B6TFB-44XJKW6-8/1/376af59f3b89aecd8486b1c6186b0953},
130 Volume = {94},
131 Year = {2001},
132 Bdsk-Url-1 = {http://www.sciencedirect.com/science/article/B6TFB-44XJKW6-8/1/376af59f3b89aecd8486b1c6186b0953}}
133
134 @article{Peters:1999uq,
135 Abstract = {The Fokker-Planck (FP) equation describing the dynamics of a single Brownian particle near a fixed external surface is derived using the multiple-time-scales perturbation method, previously used by Cukier and Deutch and Nienhuis in the absence of any external surfaces, and Piasecki ei LII. for two Brownian spheres in a hard fluid. The FP equation includes an explicit expression for the (time-independent) particle friction tensor in terms of the force autocorrelation Function and equilibrium average force on the particle by the surrounding fluid and in the presence of a fixed external surface. such as an adsorbate. The scaling and perturbation analysis given here also shows that the Force autocorrelation function must decay rapidly on the zeroth-order time scale tau(0), which physically requires N-Kn much less than 1, where N-Kn is the Knudsen number (ratio of the length scale for fluid intermolecular interactions to the Brownian particle length scale). This restricts the theory given here to liquid systems where N-Kn much less than 1. For a specified particle configuration with respect to the external surface, equilibrium canonical molecular dynamics (MD) calculations are conducted, as shown here, in order to obtain numerical values of the friction tensor from the force autocorrelation expression. Molecular dynamics computations of the friction tensor for a single spherical particle in the absence of a fixed external surface are shown to recover Stokes' law for various types of fluid molecule-particle interaction potentials. Analytical studies of the static force correlation function also demonstrate the remarkable principle of force-time parity whereby the particle friction coefficient is nearly independent of the fluid molecule-particle interaction potential. Molecular dynamics computations of the friction tensor for a single spherical particle near a fixed external spherical surface (adsorbate) demonstrate a breakdown in continuum hydrodynamic results at close particle surface separation distances on the order of several molecular diameters.},
136 Author = {Peters, MH},
137 Date-Added = {2008-03-13 16:54:59 -0400},
138 Date-Modified = {2008-03-13 16:56:54 -0400},
139 Journal = {Journal of Statistical Physics},
140 Keywords = {Brownian particle; Fokker Planck equation; adsorption; molecular friction; force autocorrelation function; molecular dynamics},
141 Pages = {557-586},
142 Timescited = {0},
143 Title = {Fokker-Planck equation, molecular friction, and molecular dynamics for Brownian particle transport near external solid surfaces},
144 Volume = {94},
145 Year = {1999}}
146
147 @article{Peters:1999qy,
148 Abstract = {The Fokker-Planck equation and molecular-based grand friction tensor are derived for the problem of rotational and translational motions of a structured Brownian particle, including the presence of a structured wall. Using the method of multiple time scales, it is shown that the time independent, grand friction tensor for the Brownian particle includes, in a general way, terms that account fur the fluid molecular mediated interactions with the wall. The resulting Fokker-Planck equation has important applications in processes involving site-specific adsorption of macromolecules, such as affinity chromotography, biological separations, and numerous cellular processes involving attachment of macromolecules. (C) 1999 American Institute of Physics. [S0021-9606(98)51748-5].},
149 Author = {Peters, MH},
150 Date-Added = {2008-03-13 16:54:59 -0400},
151 Date-Modified = {2008-03-13 16:56:44 -0400},
152 Journal = jcp,
153 Pages = {528-538},
154 Timescited = {0},
155 Title = {Fokker-Planck equation and the grand molecular friction tensor for coupled rotational and translational motions of structured Brownian particles near structured surfaces},
156 Volume = {110},
157 Year = {1999}}
158
159 @article{Peters:2000fk,
160 Abstract = {Beginning with the molecular-based Fokker-Planck equation obtained previously [M. H. Peters, J. Chem. Phys. 110, 528 (1999); J. Stat. Phys. 94, 557 (1999)], the Smoluchowski diffusion equation is derived here to describe the spatial and orientational dynamics of molecularly structured macromolecules near molecularly structured surfaces. The formal scaling and perturbation methods employed allow the establishment of definite limits on the use of the Smoluchowski equation when surfaces are present. It is shown that the Smoluchowski equation reduces to that given previously [D. W. Condiff and J. S. Dahler, J. Chem. Phys. 44, 3988 (1966)] in the absence of external surfaces. A specific example application is given involving a spherical macromolecule with electrostatic charge segments near a planar surface with an arbitrary charge distribution. Finally, we show that the short-time solution to the Smoluchowski equation obtained here yields a Brownian dynamics method consistent with that given previously [E. Dickinson, S. A. Allison, and J. A. McCammon, J. Chem. Soc. Faraday Trans. 2 81, 591 (1985)] for orientable, interacting Brownian particles. This study has applications to problems involving site-specific adsorption of orientable, structured Brownian particles, such as association or adsorption of biological macromolecules to cellular surfaces and enzyme-substrate docking kinetics, to name a few. (C) 2000 American Institute of Physics. [S0021-9606(00)50112-3].},
161 Author = {Peters, MH},
162 Date-Added = {2008-03-13 16:54:59 -0400},
163 Date-Modified = {2008-03-13 16:56:20 -0400},
164 Journal = jcp,
165 Pages = {5488-5498},
166 Timescited = {0},
167 Title = {The Smoluchowski diffusion equation for structured macromolecules near structured surfaces},
168 Volume = {112},
169 Year = {2000}}
170
171 @article{Nienhuis:1970lr,
172 Abstract = { A quantummechanical system consisting of N light bath particles and one heavy Brownian linear rotator is considered. By employing the multiple time scale technique and the Wigner representation of quantummechanics, a Fokker-Planck equation for the motion of the Brownian particle is derived. Some properties of this equation are briefly discussed.},
173 Author = {Nienhuis, G. },
174 Date-Added = {2008-03-13 16:53:44 -0400},
175 Date-Modified = {2008-03-13 16:53:44 -0400},
176 Journal = {Physica},
177 Number = {1},
178 Pages = {26--48},
179 Title = {On the microscopic theory of Brownian motion with a rotational degree of freedom},
180 Ty = {JOUR},
181 Url = {http://www.sciencedirect.com/science/article/B6X42-46D224N-BW/2/0e1b39b5a20e979c5fa5e1f560de6413},
182 Volume = {49},
183 Year = {1970},
184 Bdsk-Url-1 = {http://www.sciencedirect.com/science/article/B6X42-46D224N-BW/2/0e1b39b5a20e979c5fa5e1f560de6413}}
185
186 @article{SunX._jp0762020,
187 Affiliation = {Department of Chemistry and Biochemistry, University of Notre Dame, Notre Dame, Indiana 46556},
188 Author = {Sun, X. and Gezelter, J.D.},
189 Date-Added = {2008-02-15 13:48:18 -0500},
190 Date-Modified = {2008-02-15 13:48:18 -0500},
191 Issn = {1520-6106},
192 Journal = jpcb,
193 Number = {7},
194 Pages = {1968-1975},
195 Title = {Dipolar Ordering in the Ripple Phases of Molecular-Scale Models of Lipid Membranes},
196 Url = {http://pubs3.acs.org/acs/journals/doilookup?in_doi=10.1021/jp0762020},
197 Volume = {112},
198 Year = {2008},
199 Bdsk-Url-1 = {http://pubs3.acs.org/acs/journals/doilookup?in_doi=10.1021/jp0762020}}
200
201 @book{Schlick2002,
202 Address = {Secaucus, NJ, USA},
203 Author = {Tamar Schlick},
204 Date-Added = {2008-02-12 16:52:19 -0500},
205 Date-Modified = {2008-02-12 16:53:15 -0500},
206 Isbn = {038795404X},
207 Publisher = {Springer-Verlag New York, Inc.},
208 Title = {Molecular Modeling and Simulation: An Interdisciplinary Guide},
209 Year = {2002}}
210
211 @article{Chun:2000fj,
212 Abstract = {A modeling approach that can significantly speed up the dynamics simulation of large molecular systems is presented herein. A multigranular modeling approach, whereby different parts of the molecule are modeled at different levels of detail, is enabled by substructuring. Substructuring the molecular system is accomplished by collecting groups of atoms into rigid or flexible bodies. Body flexibility is modeled by a truncated set of body-based modes. This approach allows for the elimination of the high-frequency harmonic motion while capturing the low-frequency anharmonic motion of interest. This results in the use of larger integration step sizes, substantially reducing the computational time required for a given dynamic simulation. The method also includes the use of a multiple time scale (MTS) integration scheme. Speed increases of 5- to 30-fold over atomistic simulations have been realized in various applications of the method. (C) 2000 John Wiley \& Sons, Inc.},
213 Author = {Chun, HM and Padilla, CE and Chin, DN and Watanabe, M and Karlov, VI and Alper, HE and Soosaar, K and Blair, KB and Becker, OM and Caves, LSD and Nagle, R and Haney, DN and Farmer, BL},
214 Date-Added = {2008-01-22 10:38:33 -0500},
215 Date-Modified = {2008-01-22 10:38:49 -0500},
216 Journal = jcc,
217 Keywords = {molecular dynamics; normal modes; anharmonicity; macromolecules; numerical integrators},
218 Pages = {159--184},
219 Timescited = 0,
220 Title = {{MBO(N)D:} A multibody method for long-time molecular dynamics simulations},
221 Volume = 21,
222 Year = 2000}
223
224 @article{Fogolari:1996lr,
225 Abstract = {In an effort to reduce the number of degrees of freedom necessary to describe a polypeptide chain we analyze the statistical behavior of polypeptide chains when represented as C alpha chains, C alpha chains with C beta atoms attached, and C alpha chains with rotational ellipsoids as models of side chains. A statistical analysis on a restricted data set of 75 unrelated protein structures is performed. The comparison of the database distributions with those obtained by model calculation on very short polypeptide stretches allows the dissection of local versus nonlocal features of the distributions. The database distribution of the bend angles of polypeptide chains of pseudo bonded C alpha atoms spans a restricted range of values and shows a bimodal structure. On the other hand, the torsion angles of the C alpha chain may assume almost all possible values. The distribution is bimodal, but with a much broader probability distribution than for bend angles. The C alpha - C beta vectors may be taken as representative of the orientation of the lateral chain, as the direction of the bond is close to the direction of the vector joining C alpha to the ad hoc defined center of the "steric mass" of the side chain. Interestingly, both the bend angle defined by C alpha i-C alpha i+1-C beta i+1 and the torsional angle offset of the pseudo-dihedral C alpha i-C alpha i+1-C alpha i+2-C beta i+2 with respect to C alpha i-C alpha i+1-C alpha i+2-C alpha i+3 span a limited range of values. The latter results show that it is possible to give a more realistic representation of polypeptide chains without introducing additional degrees of freedom, i.e., by just adding to the C alpha chain a C beta with given side-chain properties. However, a more realistic description of side chains may be attained by modeling side chains as rotational ellipsoids that have roughly the same orientation and steric hindrance. To this end, we define the steric mass of an atom as proportional to its van der Waals volume and we calculate the side-chain inertia ellipsoid assuming that the steric mass of each atom is uniformly distributed within its van der Waals volume. Finally, we define the rotational ellipsoid representing the side chain as the uniform density ellipsoid possessing the same rotationally averaged inertia tensor of the side chain. The statistics of ellipsoid parameters support the possibility of representing a side chain via an ellipsoid, independently of the local conformation. To make this description useful for molecular modeling we describe ellipsoid-ellipsoid interactions via a Lennard-Jones potential that preserves the repulsive core of the interacting ellipsoids and takes into account their mutual orientation. Tests are performed for two different forms of the interaction potential on a set of high-resolution protein structures. Results are encouraging, in view of the drastic simplifications that were introduced.},
226 Address = {Dipartimento di Scienze e Tecnologie Biomediche, Universita di Udine, Italy.},
227 Au = {Fogolari, F and Esposito, G and Viglino, P and Cattarinussi, S},
228 Author = {Fogolari, F and Esposito, G and Viglino, P and Cattarinussi, S},
229 Da = {19960924},
230 Date-Added = {2008-01-22 10:19:04 -0500},
231 Date-Modified = {2008-01-22 10:19:09 -0500},
232 Dcom = {19960924},
233 Edat = {1996/03/01},
234 Issn = {0006-3495 (Print)},
235 Jid = {0370626},
236 Journal = {Biophys J},
237 Jt = {Biophysical journal},
238 Language = {eng},
239 Lr = {20071115},
240 Mh = {Amino Acids/chemistry; Biophysics; Carbon/chemistry; Databases, Factual; Evaluation Studies as Topic; *Models, Molecular; Molecular Structure; Peptides/*chemistry; *Protein Conformation; Software; Thermodynamics},
241 Mhda = {1996/03/01 00:01},
242 Number = {3},
243 Own = {NLM},
244 Pages = {1183--1197},
245 Pl = {UNITED STATES},
246 Pmid = {8785277},
247 Pst = {ppublish},
248 Pt = {Journal Article},
249 Pubm = {Print},
250 Rn = {0 (Amino Acids); 0 (Peptides); 7440-44-0 (Carbon)},
251 Sb = {IM},
252 So = {Biophys J. 1996 Mar;70(3):1183-97. },
253 Stat = {MEDLINE},
254 Title = {Modeling of polypeptide chains as C alpha chains, C alpha chains with C beta, and C alpha chains with ellipsoidal lateral chains.},
255 Volume = {70},
256 Year = {1996}}
257
258 @inbook{Ramachandran1996,
259 Address = {Providence, Rhode Island},
260 Author = {Gomathi Ramachandran and Tamar Schlick},
261 Chapter = {Beyond optimization: Simulating the dynamics of supercoiled DNA by a macroscopic model},
262 Date-Added = {2008-01-22 10:03:42 -0500},
263 Date-Modified = {2008-01-22 10:06:57 -0500},
264 Editor = {P. M. Pardalos and D. Shalloway and G. Xue},
265 Pages = {215-231},
266 Publisher = {American Mathematical Society},
267 Series = {DIMACS Series in Discrete Mathematics and Theoretical Computer Science},
268 Title = {Global Minimization of Nonconvex Energy Functions: Molecular Conformation and Protein Folding},
269 Volume = {23},
270 Year = {1996}}
271
272 @article{FIXMAN:1986lr,
273 Author = {Fixman, M},
274 Date-Added = {2008-01-22 09:59:29 -0500},
275 Date-Modified = {2008-01-22 09:59:35 -0500},
276 Journal = {Macromolecules},
277 Pages = {1204-1207},
278 Timescited = {0},
279 Title = {CONSTRUCTION OF LANGEVIN FORCES IN THE SIMULATION OF HYDRODYNAMIC INTERACTION},
280 Volume = {19},
281 Year = {1986}}
282
283 @article{Berendsen87,
284 Author = {H.~J.~C. Berendsen and J.~R. Grigera and T.~P. Straatsma},
285 Date-Added = {2008-01-22 09:53:15 -0500},
286 Date-Modified = {2008-01-22 09:53:15 -0500},
287 Journal = jpc,
288 Pages = {6269-6271},
289 Title = {The Missing Term in Effective Pair Potentials},
290 Volume = 91,
291 Year = 1987}
292
293 @incollection{Berendsen81,
294 Address = {Dordrecht},
295 Author = {H.~J.~C. Berendsen and J.~P.~M. Postma and W.~F. {van~Gunsteren} and J. Hermans},
296 Booktitle = {Intermolecular Forces},
297 Date-Added = {2008-01-22 09:52:49 -0500},
298 Date-Modified = {2008-01-22 09:52:49 -0500},
299 Editor = {B. Pullman},
300 Pages = {331-342},
301 Publisher = {Reidel},
302 Title = {Simple Point Charge Water},
303 Year = 1981}
304
305 @article{Stillinger74,
306 Author = {F.~H. Stillinger and A. Rahman},
307 Date-Added = {2008-01-22 09:51:43 -0500},
308 Date-Modified = {2008-01-22 09:51:43 -0500},
309 Journal = jcp,
310 Number = 4,
311 Pages = {1545-1557},
312 Title = {Improved simulation of liquid water by molecular dynamics},
313 Volume = 60,
314 Year = 1974}
315
316 @article{Torre:1983lr,
317 Author = {{Garc\'{i}a de la Torre}, Jose and Rodes, Vicente},
318 Date-Added = {2008-01-11 16:16:43 -0500},
319 Date-Modified = {2008-01-11 16:16:43 -0500},
320 Journal = jcp,
321 Journal1 = {The Journal of Chemical Physics},
322 Journal2 = {J. Chem. Phys.},
323 Keywords = {polymers; molecular models; hydrodynamics; rotation; interactions; macromolecules},
324 Number = 5,
325 Pages = {2454--2460},
326 Publisher = {AIP},
327 Title = {Effects from bead size and hydrodynamic interactions on the translational and rotational coefficients of macromolecular bead models},
328 Ty = {JOUR},
329 Url = {http://link.aip.org/link/?JCP/79/2454/1},
330 Volume = 79,
331 Year = 1983,
332 Bdsk-Url-1 = {http://link.aip.org/link/?JCP/79/2454/1}}
333
334 @article{PhysRev.119.53,
335 Author = {Favro, L. Dale},
336 Date-Added = {2008-01-09 16:57:02 -0500},
337 Date-Modified = {2008-01-09 16:57:02 -0500},
338 Doi = {10.1103/PhysRev.119.53},
339 Journal = {Phys. Rev.},
340 Month = {Jul},
341 Number = 1,
342 Numpages = 9,
343 Pages = {53--62},
344 Publisher = {American Physical Society},
345 Title = {Theory of the Rotational Brownian Motion of a Free Rigid Body},
346 Volume = 119,
347 Year = 1960,
348 Bdsk-Url-1 = {http://dx.doi.org/10.1103/PhysRev.119.53}}
349
350 @article{hess:209,
351 Author = {Berk Hess},
352 Date-Added = {2008-01-08 16:41:06 -0500},
353 Date-Modified = {2008-01-08 16:41:06 -0500},
354 Doi = {10.1063/1.1421362},
355 Journal = jcp,
356 Keywords = {viscosity; molecular dynamics method; liquid theory; shear flow},
357 Number = 1,
358 Pages = {209-217},
359 Publisher = {AIP},
360 Title = {Determining the shear viscosity of model liquids from molecular dynamics simulations},
361 Url = {http://link.aip.org/link/?JCP/116/209/1},
362 Volume = 116,
363 Year = 2002,
364 Bdsk-Url-1 = {http://link.aip.org/link/?JCP/116/209/1},
365 Bdsk-Url-2 = {http://dx.doi.org/10.1063/1.1421362}}
366
367 @article{Garcia-de-la-Torre:1997qy,
368 Abstract = {Single-valued hydrodynamic coefficients of a rigid particle can be calculated from existing theories and computer programs for either bead models or ellipsoids. Starting from these coefficients, we review the procedures for the calculation of complex solution properties depending on rotational diffusion, such as the decays of electric birefringence and fluorescence anisotropy. We also describe the calculation of the scattering from factor of bead models. The hydrodynamic coefficients and solution properties can be combined to give universal, shape-dependent functions, which were initially intended for ellipsoidal particles, and are extended here for the most general case. We have implemented all three developments in a new computer program. SOLPRO, for calculation of SOLution PROperties, which can be linked to existing software for bead models or ellipsoids.},
369 Address = {Departamento de Quimica Fisica Universidad de Murcia, Spain. jgt{\char64}fcu,um.es},
370 Au = {{Garc\'{i}a de la Torre}, Jose and Carrasco, B and Harding, SE},
371 Author = {{Garc\'{i}a de la Torre}, Jose and Carrasco, B and Harding, S E},
372 Da = 19970709,
373 Date-Added = {2008-01-08 15:45:31 -0500},
374 Date-Modified = {2008-01-08 15:46:57 -0500},
375 Dcom = 19970709,
376 Edat = {1997/01/01},
377 Issn = {0175-7571 (Print)},
378 Jid = 8409413,
379 Journal = {Eur Biophys J},
380 Jt = {European biophysics journal : EBJ},
381 Keywords = {Birefringence; Fluorescence Polarization; Humans; Immunoglobulin G/chemistry; Models, Structural; *Protein Conformation; Proteins/*chemistry; Scattering, Radiation; *Software; Ultracentrifugation/methods},
382 Language = {eng},
383 Lr = 20061115,
384 Mhda = {1997/01/01 00:01},
385 Number = {5-6},
386 Own = {NLM},
387 Pages = {361--372},
388 Pl = {GERMANY},
389 Pmid = 9213556,
390 Pst = {ppublish},
391 Pt = {Journal Article; Research Support, Non-U.S. Gov't},
392 Pubm = {Print},
393 Rn = {0 (Immunoglobulin G); 0 (Proteins)},
394 Sb = {IM},
395 So = {Eur Biophys J. 1997;25(5-6):361-72.},
396 Stat = {MEDLINE},
397 Title = {SOLPRO: theory and computer program for the prediction of SOLution PROperties of rigid macromolecules and bioparticles.},
398 Volume = 25,
399 Year = 1997}
400
401 @article{Ravichandran:1999fk,
402 Abstract = {Detailed molecular dynamics simulations of the rotational and the translational motions of Gay-Berne ellipsoids in a sea of Lennard-Jones spheres have been carried out. It is found that while the translational motion of an ellipsoid is isotropic at low density, it becomes increasingly anisotropic with density until the ratio of the parallel to the perpendicular diffusion coefficients becomes nearly equal to the value of the aspect ratio at high density. The latter is in agreement with the prediction of Navier-Stokes hydrodynamics with slip boundary condition. The product of the translational diffusion coefficient and the rotational correlation time also attains a hydrodynamic-like density independent behavior only at high density. The reorientational correlation function becomes nonexponential at high density and low temperature where it also develops a slow decay. The perpendicular component of the velocity time correlation function exhibits a clear double minimum, only at high density, which becomes more pronounced as the aspect ratio is increased. (C) 1999 American Institute of Physics. [S0021-9606(99)51440-2].},
403 Author = {Ravichandran, S and Bagchi, B},
404 Date-Added = {2008-01-08 15:24:48 -0500},
405 Date-Modified = {2008-01-08 15:25:41 -0500},
406 Journal = jcp,
407 Pages = {7505-7511},
408 Title = {Anisotropic diffusion of nonspherical molecules in dense liquids: A molecular dynamics simulation of isolated ellipsoids in the sea of spheres},
409 Volume = 111,
410 Year = 1999}
411
412 @article{TANG:1993lr,
413 Abstract = {Translational friction coefficients of hard prolate ellipsoids (having aspect ratios of 1-10) have been calculated by solving the linearized Navier-Stokes equations of hydrodynamics, using the method of Faxen's theorem. When the stick boundary condition was used, the present results reproduce the famous work of Lamb. The new information derived from this study arises from the analysis of the friction under the influence of the slip hydrodynamic boundary condition. It was found that the slip friction perpendicular to the long axis of the prolate ellipsoid increases monotonically with aspect ratio, whereas the parallel component of the friction decreases monotonically to an apparent limiting value. The ratio f(perpendicular to)/f(parallel to) of friction coefficients perpendicular and parallel to the long axis of the particle, calculated using slip hydrodynamics, scales roughly as the aspect ratio of the ellipsoid, in accord with the findings from an Enskog (uncorrelated binary collision) kinetic theory of hard ellipsoids and from the estimate derived from molecular dynamics. In contrast, f(perpendicular to)/f(parallel to) derived by means of stick hydrodynamics shows a weak dependence on the aspect ratio and disagrees with kinetic theory and molecular dynamics findings.},
414 Author = {TANG, SA and EVANS, GT},
415 Date-Added = {2008-01-08 15:23:42 -0500},
416 Date-Modified = {2008-01-08 15:24:09 -0500},
417 Journal = mp,
418 Pages = {1443-1457},
419 Title = {A CRITIQUE OF SLIP AND STICK HYDRODYNAMICS FOR ELLIPSOIDAL BODIES},
420 Volume = 80,
421 Year = 1993}
422
423 @article{Schmidt:2003kx,
424 Abstract = {Using molecular dynamics computer simulation, we have calculated the velocity autocorrelation function and diffusion constant for a spherical solute in a dense fluid of spherical solvent particles. The size and mass of the solute particle are related in such a way that we can naturally approach the Brownian limit (when the solute becomes much larger and more massive than the solvent particles). We find that as long as the solute radius is interpreted as an effective hydrodynamic radius, the Stokes-Einstein law with slip boundary conditions is satisfied as the Brownian limit is approached (specifically, when the solute is roughly 100 times more massive than the solvent particles). In contrast, the Stokes-Einstein law is not satisfied for a tagged particle of the neat solvent. We also find that in the Brownian limit the amplitude of the long-time tail of the solute's velocity autocorrelation function is in good agreement with theoretical hydrodynamic predictions. When the solvent density is substantially lower than the triple density, the Stokes-Einstein law is no longer satisfied, and the amplitude of the long-time tail is not in good agreement with theoretical predictions, signaling the breakdown of hydrodynamics. (C) 2003 American Institute of Physics.},
425 Author = {Schmidt, JR and Skinner, JL},
426 Date-Added = {2008-01-08 15:12:53 -0500},
427 Date-Modified = {2008-01-08 15:13:21 -0500},
428 Doi = {DOI 10.1063/1.1610442},
429 Journal = jcp,
430 Pages = {8062-8068},
431 Title = {Hydrodynamic boundary conditions, the Stokes-Einstein law, and long-time tails in the Brownian limit},
432 Volume = 119,
433 Year = 2003,
434 Bdsk-Url-1 = {http://dx.doi.org/10.1063/1.1610442}}
435
436 @article{Schmidt:2004fj,
437 Abstract = {Using molecular dynamics computer simulation, we have calculated the velocity autocorrelation function and diffusion constant for a variety of solutes in a dense fluid of spherical solvent particles. We explore the effects of surface roughness of the solute on the resulting hydrodynamic boundary condition as we naturally approach the Brownian limit (when the solute becomes much larger and more massive than the solvent particles). We find that when the solute and solvent interact through a purely repulsive isotropic potential, in the Brownian limit the Stokes-Einstein law is satisfied with slip boundary conditions. However, when surface roughness is introduced through an anisotropic solute-solvent interaction potential, we find that the Stokes-Einstein law is satisfied with stick boundary conditions. In addition, when the attractive strength of a short-range isotropic solute-solvent potential is increased, the solute becomes dressed with solvent particles, making it effectively rough, and so stick boundary conditions are again recovered.},
438 Author = {Schmidt, JR and Skinner, JL},
439 Date-Added = {2008-01-08 15:12:53 -0500},
440 Date-Modified = {2008-01-08 15:13:20 -0500},
441 Doi = {DOI 10.1021/jp037185r},
442 Journal = jpcb,
443 Pages = {6767-6771},
444 Title = {Brownian motion of a rough sphere and the Stokes-Einstein Law},
445 Volume = 108,
446 Year = 2004,
447 Bdsk-Url-1 = {http://dx.doi.org/10.1021/jp037185r}}
448
449 @article{Klein01,
450 Author = {J.~C. Shelley andf M.~Y. Shelley and R.~C. Reeder and S. Bandyopadhyay and M.~L. Klein},
451 Date-Added = {2008-01-08 14:58:56 -0500},
452 Date-Modified = {2008-01-08 14:58:56 -0500},
453 Journal = {J. Phys. Chem. B},
454 Pages = {4464-4470},
455 Title = {A Coarse Grain Model for Phospholipid Simulations},
456 Volume = 105,
457 Year = 2001}
458
459 @article{Berardi98,
460 Author = {R. Berardi and C. Fava and C. Zannoni},
461 Date-Added = {2008-01-08 14:58:56 -0500},
462 Date-Modified = {2008-01-08 14:58:56 -0500},
463 Journal = cpl,
464 Pages = {8-14},
465 Title = {A Gay-Berne potential for dissimilar biaxial particles},
466 Volume = 297,
467 Year = 1998}
468
469 @article{Hura00,
470 Author = {G. Hura and J.~M. Sorenson and R.~M. Glaeser and T. Head-Gordon},
471 Date-Added = {2008-01-08 14:58:56 -0500},
472 Date-Modified = {2008-01-08 14:58:56 -0500},
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476 Volume = 113,
477 Year = 2000}
478
479 @article{Peker93,
480 Author = {A. Peker and W.~L. Johnson},
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484 Pages = {2342-2344},
485 Title = {A highly processable metallic-glass - $\mbox{Zr}_{41.2}\mbox{Ti}_{13.8}\mbox{Cu}_{12.5}\mbox{Ni}_{10.0}\mbox{Be}_{22.5}$},
486 Volume = 63,
487 Year = 1993}
488
489 @article{Raphael2000,
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491 Date-Added = {2008-01-08 14:58:56 -0500},
492 Date-Modified = {2008-01-08 14:58:56 -0500},
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496 Volume = 78,
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501 Date-Added = {2008-01-08 14:58:56 -0500},
502 Date-Modified = {2008-01-08 14:58:56 -0500},
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506 Volume = 78,
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508
509 @article{Tieleman98,
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517 Year = 1998}
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521 Date-Added = {2008-01-08 14:58:56 -0500},
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532 Date-Added = {2008-01-08 14:58:56 -0500},
533 Date-Modified = {2008-01-08 14:58:56 -0500},
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547 Volume = 15,
548 Year = 1986}
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550 @article{Cornell95,
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552 Date-Added = {2008-01-08 14:58:56 -0500},
553 Date-Modified = {2008-01-08 14:58:56 -0500},
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558 Year = 1995}
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567 Volume = 50,
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570 @article{Bratko85,
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572 Date-Added = {2008-01-08 14:58:56 -0500},
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578 Volume = 83,
579 Year = 1985}
580
581 @article{Essmann95,
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584 Date-Modified = {2008-01-08 14:58:56 -0500},
585 Journal = {J. Chem. Phys.},
586 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Essmann_SmoothPME_95.pdf},
587 Number = 19,
588 Pages = {8577-8593},
589 Title = {A smooth particle mesh Ewald method},
590 Volume = 103,
591 Year = 1995}
592
593 @article{Ricci94,
594 Author = {S.~M. Ricci and J. Talbot and G. Tarjus and P. Viot},
595 Date-Added = {2008-01-08 14:58:56 -0500},
596 Date-Modified = {2008-01-08 14:58:56 -0500},
597 Journal = jcp,
598 Pages = 9164,
599 Title = {A STRUCTURAL COMPARISON OF RANDOM SEQUENTIAL ADSORPTION AND EQUILIBRIUM CONFIGURATIONS OF SPHEROCYLINDERS},
600 Volume = 101,
601 Year = 1994}
602
603 @article{Tan03,
604 Author = {M.-L. Tan and J.~T. Fischer and A. Chandra and B.~R. Brooks and T. Ichiye},
605 Date-Added = {2008-01-08 14:58:56 -0500},
606 Date-Modified = {2008-01-08 14:58:56 -0500},
607 Journal = cpl,
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609 Title = {A temperature of maximum density in soft sticky dipole water},
610 Volume = 376,
611 Year = 2003}
612
613 @article{Stillinger95,
614 Author = {F.~H. Stillinger},
615 Date-Added = {2008-01-08 14:58:56 -0500},
616 Date-Modified = {2008-01-08 14:58:56 -0500},
617 Journal = {Science},
618 Pages = {1935-1939},
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620 Volume = 267,
621 Year = 1995}
622
623 @article{Shlesinger99,
624 Author = {M.~F. Shlesinger and J. Klafter and G. Zumofen},
625 Date-Added = {2008-01-08 14:58:56 -0500},
626 Date-Modified = {2008-01-08 14:58:56 -0500},
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630 Volume = 67,
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632
633 @article{Karasawa89,
634 Author = {N. Karasawa and W.~A. {Goddard III}},
635 Date-Added = {2008-01-08 14:58:56 -0500},
636 Date-Modified = {2008-01-08 14:58:57 -0500},
637 Journal = {J. Phys. Chem.},
638 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Karasawa_LatticSumConvergence_89.pdf},
639 Pages = {7320-7327},
640 Title = {Acceleration of Convergence for Lattice Sums},
641 Volume = 93,
642 Year = 1989}
643
644 @article{Petersen95,
645 Author = {H.~G. Petersen},
646 Date-Added = {2008-01-08 14:58:56 -0500},
647 Date-Modified = {2008-01-08 14:58:57 -0500},
648 Journal = {J. Chem. Phys.},
649 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Petersen_AccuracyofPME_95.pdf},
650 Month = {September},
651 Number = 9,
652 Pages = {3668-3679},
653 Title = {Accuracy and efficiency of the particle mesh Ewald method},
654 Volume = 103,
655 Year = 1995}
656
657 @article{Duncan06,
658 Author = {Peter D. Duncan and Philip J. Camp},
659 Date-Added = {2008-01-08 14:58:56 -0500},
660 Date-Modified = {2008-01-08 14:58:57 -0500},
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667 @article{Shor94,
668 Author = {P.W. Shor},
669 Date-Added = {2008-01-08 14:58:56 -0500},
670 Date-Modified = {2008-01-08 14:58:57 -0500},
671 Journal = {Proceedings of the 35th Annual Symposium on Foundations of Computer Science},
672 Pages = {124-134},
673 Title = {Algorithms for quantum computation: discrete logarithms and factoring},
674 Year = 1994}
675
676 @article{Tsonchev04II,
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678 Date-Added = {2008-01-08 14:58:56 -0500},
679 Date-Modified = {2008-01-08 14:58:57 -0500},
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687 Author = {R.~A. Johnson},
688 Date-Added = {2008-01-08 14:58:56 -0500},
689 Date-Modified = {2008-01-08 14:58:57 -0500},
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699 Date-Added = {2008-01-08 14:58:56 -0500},
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708 @article{Chang90,
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710 Date-Added = {2008-01-08 14:58:56 -0500},
711 Date-Modified = {2008-01-08 14:58:57 -0500},
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723 Date-Modified = {2008-01-08 14:58:57 -0500},
724 Editor = {G.~R. Luckhurst and C.~A. Veracini},
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726 Publisher = {Kluwer Academic Publishers},
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728 Year = 1994}
729
730 @article{Sparrman2003,
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732 Date-Added = {2008-01-08 14:58:56 -0500},
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734 Journal = pccp,
735 Pages = {2114-2121},
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740 @article{Cascales98,
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743 Date-Modified = {2008-01-08 14:58:57 -0500},
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750 @inbook{Fowles99,
751 Author = {G.~R. Fowles and G.~L. Cassiday},
752 Chapter = 10,
753 Date-Added = {2008-01-08 14:58:56 -0500},
754 Date-Modified = {2008-01-08 14:58:57 -0500},
755 Edition = {6th},
756 Publisher = {Saunders College Publishing},
757 Title = {Analytical Mechanics},
758 Year = 1999}
759
760 @article{Mason01,
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762 Date-Added = {2008-01-08 14:58:56 -0500},
763 Date-Modified = {2008-01-08 14:58:57 -0500},
764 Journal = pre,
765 Number = 030902,
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771 @article{Forester97,
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773 Date-Added = {2008-01-08 14:58:56 -0500},
774 Date-Modified = {2008-01-08 14:58:57 -0500},
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780
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791 @inproceedings{Gotze89,
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794 Booktitle = {Liquids, Freezing and Glass Transitions},
795 Date-Added = {2008-01-08 14:58:56 -0500},
796 Date-Modified = {2008-01-08 14:58:57 -0500},
797 Editor = {J.~P. Hansen and D. Levesque and J. Zinn-Justin},
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799 Publisher = {North-Holland},
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801 Volume = {I},
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805 Author = {L.~J. Lewis},
806 Date-Added = {2008-01-08 14:58:56 -0500},
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812 Year = 1991}
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817 Date-Modified = {2008-01-08 14:58:57 -0500},
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838 Journal = {J. Phys. Chem.},
839 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Roberts_BoundryConditionsIonWater_95.pdf},
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875 @article{Gezelter97,
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888 Date-Modified = {2008-01-08 14:58:57 -0500},
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917 Abstract = {X-ray data are presented for the benchmark dipalmitoylphosphatidylcholine lipid bilayer in the most biologically relevant state in which the bilayers are fully hydrated and in the fluid (liquid-crystalline) phase. Form factors F(qz) are obtained from a combination of two sample preparations, oriented stacks of bilayers for qz extending to 0.85 A-1 and unilamellar vesicles for smaller qz. Modeling obtains the electron density profile and values for the area per molecule, for the locations of the component groups, and for the different types of thicknesses of the bilayer, such as the hydrocarbon thickness and the steric thickness.
918 },
919 Author = {Kucerka, Norbert and Tristram-Nagle, Stephanie and Nagle, John F.},
920 Date-Added = {2008-01-08 14:58:56 -0500},
921 Date-Modified = {2008-01-08 14:58:57 -0500},
922 Doi = {10.1529/biophysj.106.086017},
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925 Number = 11,
926 Pages = {L83-85},
927 Title = {{Closer Look at Structure of Fully Hydrated Fluid Phase DPPC Bilayers}},
928 Url = {http://www.biophysj.org/cgi/content/abstract/90/11/L83},
929 Volume = 90,
930 Year = 2006,
931 Bdsk-Url-1 = {http://www.biophysj.org/cgi/content/abstract/90/11/L83},
932 Bdsk-Url-2 = {http://dx.doi.org/10.1529/biophysj.106.086017}}
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1409 Title = {Electrostatics in periodic slab geometries. I},
1410 Volume = 117,
1411 Year = 2002,
1412 Bdsk-Url-1 = {http://dx.doi.org/10.1063/1.149195}}
1413
1414 @article{deJoannis02,
1415 Author = {J. {de Joannis} and A. Arnold and C. Holm},
1416 Date-Added = {2008-01-08 14:58:56 -0500},
1417 Date-Modified = {2008-01-08 14:58:58 -0500},
1418 Doi = {10.1063/1.149195},
1419 Journal = {J. Chem. Phys.},
1420 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Joannis_SlabElectrostatics_02.pdf},
1421 Number = 6,
1422 Pages = {2503-2512},
1423 Title = {Electrostatics in periodic slab geometries. II},
1424 Volume = 117,
1425 Year = 2002,
1426 Bdsk-Url-1 = {http://dx.doi.org/10.1063/1.149195}}
1427
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1446 Year = 1996}
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1461 Date-Added = {2008-01-08 14:58:56 -0500},
1462 Date-Modified = {2008-01-08 14:58:58 -0500},
1463 Journal = prb,
1464 Number = 12,
1465 Pages = 7983,
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1468 Year = 1986}
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1470 @article{Zahn02,
1471 Author = {D. Zahn and B. Schilling and S.~M. Kast},
1472 Date-Added = {2008-01-08 14:58:56 -0500},
1473 Date-Modified = {2008-01-08 14:58:58 -0500},
1474 Journal = {J. Phys. Chem. B},
1475 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/WolfApplications/Zahn_enhancedWolfH2O_02.pdf},
1476 Number = 41,
1477 Pages = {10725-10732},
1478 Title = {Enhancement of the Wolf Damped Coulomb Potential: Static, Dynamic, and Dielectric Properties of Liquid Water from Molecular Simulation},
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1480 Year = 2002}
1481
1482 @article{Metropolis53,
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1485 Date-Modified = {2008-01-08 14:58:58 -0500},
1486 Journal = {J. Chem. Phys.},
1487 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Metropolis_MCCalculations_53.pdf},
1488 Pages = {1087-1092},
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1490 Volume = 21,
1491 Year = 1953}
1492
1493 @article{Parry76,
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1513 @article{Todorova2004,
1514 Author = {L. Todorova and T. Angelov and Y. Marinov and A.~G. Petrov},
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1516 Date-Modified = {2008-01-08 14:58:59 -0500},
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1521 Year = 2004}
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1523 @article{Hunenberger99a,
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1526 Date-Modified = {2008-01-08 14:58:59 -0500},
1527 Journal = {J. Chem. Phys.},
1528 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Hunenberger_IonSolutionEwaldArtifacts_99.pdf},
1529 Number = 4,
1530 Pages = {1856-1872},
1531 Title = {Ewald artifacts in computer simulations of ionic solvation and ion -- ion interaction: A continuum electrostatics study},
1532 Volume = 110,
1533 Year = 1999}
1534
1535 @article{Rhee89,
1536 Author = {Y.-J. Rhee and J.~W. Halley and J. Hautman and A. Rahman},
1537 Date-Added = {2008-01-08 14:58:56 -0500},
1538 Date-Modified = {2008-01-08 14:58:59 -0500},
1539 Journal = {Phys. Rev. B},
1540 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Rhee_finiteDimensionEwald_88.pdf},
1541 Number = 1,
1542 Pages = {36-42},
1543 Title = {Ewald methods in molecular dynamics for systems of finite extent in one of three dimensions},
1544 Volume = 40,
1545 Year = 1989}
1546
1547 @article{Yeh99,
1548 Author = {I.-C. Yeh and M.~L. Berkowitz},
1549 Date-Added = {2008-01-08 14:58:56 -0500},
1550 Date-Modified = {2008-01-08 14:58:59 -0500},
1551 Journal = {J. Chem. Phys.},
1552 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Yeh_SlabCorrectionEwald_99.pdf},
1553 Number = 7,
1554 Pages = {3155-3162},
1555 Title = {Ewald summation for systems with slab geometry},
1556 Volume = 111,
1557 Year = 1999}
1558
1559 @article{Brodka04,
1560 Author = {A. Br\'{o}dka},
1561 Date-Added = {2008-01-08 14:58:56 -0500},
1562 Date-Modified = {2008-01-08 14:58:59 -0500},
1563 Doi = {10.1016/j.cplett.2004.10.086},
1564 Journal = {Chem. Phys. Lett.},
1565 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Brodka_PointDipoleSlabEwald_04.pdf},
1566 Pages = {62-67},
1567 Title = {Ewald summation method with electrostatic layer correction for interactions of point dipoles in slab geometry},
1568 Volume = 400,
1569 Year = 2004,
1570 Bdsk-Url-1 = {http://dx.doi.org/10.1016/j.cplett.2004.10.086}}
1571
1572 @article{Chuang98,
1573 Author = {I. Chuang and N. Gershenfeld and M. Kubinec},
1574 Date-Added = {2008-01-08 14:58:56 -0500},
1575 Date-Modified = {2008-01-08 14:58:59 -0500},
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1577 Pages = {3408-3411},
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1580 Year = 1998}
1581
1582 @article{Banerjee02,
1583 Author = {Srilekha Banerjee},
1584 Date-Added = {2008-01-08 14:58:56 -0500},
1585 Date-Modified = {2008-01-08 14:58:59 -0500},
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1590 Year = 2002}
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1592 @article{Bannerjee02,
1593 Author = {S. Bannerjee},
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1595 Date-Modified = {2008-01-08 14:58:59 -0500},
1596 Journal = {Physica A},
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1600 Year = 2002}
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1634 @article{Benninger:2005qy,
1635 Abstract = {The plasma membrane of cells is an ordered environment, giving rise to anisotropic orientation and restricted motion of molecules and proteins residing in the membrane. At the same time as being an organized matrix of defined structure, the cell membrane is heterogeneous and dynamic. Here we present a method where we use fluorescence imaging of linear dichroism to measure the orientation of molecules relative to the cell membrane. By detecting linear dichroism as well as fluorescence anisotropy, the orientation parameters are separated from dynamic properties such as rotational diffusion and homo energy transfer (energy migration). The sensitivity of the technique is enhanced by using two-photon excitation for higher photo-selection compared to single photon excitation. We show here that we can accurately image lipid organization in whole cell membranes and in delicate structures such as membrane nanotubes connecting two cells. The speed of our wide-field imaging system makes it possible to image changes in orientation and anisotropy occurring on a subsecond timescale. This is demonstrated by time-lapse studies showing that cholesterol depletion rapidly disrupts the orientation of a fluorophore located within the hydrophobic region of the cell membrane but not of a surface bound probe. This is consistent with cholesterol having an important role in stabilizing and ordering the lipid tails within the plasma membrane. },
1636 Annote = {10.1529/biophysj.104.050096},
1637 Author = {Benninger, Richard K. P. and Onfelt, Bjorn and Neil, Mark A. A. and Davis, Daniel M. and French, Paul M. W.},
1638 Date-Added = {2008-01-08 14:58:56 -0500},
1639 Date-Modified = {2008-01-08 14:58:59 -0500},
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1643 Pages = {609--622},
1644 Title = {Fluorescence Imaging of Two-Photon Linear Dichroism: Cholesterol Depletion Disrupts Molecular Orientation in Cell Membranes},
1645 Ty = {JOUR},
1646 Url = {http://www.biophysj.org/cgi/content/abstract/88/1/609},
1647 Volume = 88,
1648 Year = 2005,
1649 Bdsk-Url-1 = {http://www.biophysj.org/cgi/content/abstract/88/1/609}}
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1651 @inbook{Blumen86,
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1656 Date-Modified = {2008-01-08 14:58:59 -0500},
1657 Editor = {Luciano Peitronero and E. Tosatti},
1658 Pages = 399,
1659 Publisher = {North-Holland},
1660 Series = {International Symposium on Fractals in Physics},
1661 Title = {Fractals in Physics},
1662 Year = 1986}
1663
1664 @article{Marland1979,
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1672 Volume = 43,
1673 Year = 1979}
1674
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1677 Date-Added = {2008-01-08 14:58:56 -0500},
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1683 Year = 1972}
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1834 Year = 1987}
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1838 Date-Added = {2008-01-08 14:58:56 -0500},
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1844 Year = 1994}
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1846 @article{Luty95,
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1850 Journal = {J. Chem. Phys.},
1851 Local-Url = {file://localhost/Users/cfennell/Documents/pdf_files/TheoryTechniques/Ewald/Luty_LatticeSumElectrostatics_95.pdf},
1852 Number = 8,
1853 Pages = {3014-3021},
1854 Title = {Lattice-sum methods for calculating electrostatic interactions in molecular simulations},
1855 Volume = 103,
1856 Year = 1995}
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1860 Date-Added = {2008-01-08 14:58:56 -0500},
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1865 Volume = 100,
1866 Year = 1994}
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1868 @article{Sutton90,
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1879 Author = {D. Bassolino and H.~E. Alper and T.~R. Stouch},
1880 Date-Added = {2008-01-08 14:58:56 -0500},
1881 Date-Modified = {2008-01-08 14:58:59 -0500},
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1883 Pages = {4118-4129},
1884 Title = {MECHANISM OF SOLUTE DIFFUSION THROUGH LIPID BILAYER-MEMBRANES BY MOLECULAR-DYNAMICS SIMULATION},
1885 Volume = 117,
1886 Year = 1995}
1887
1888 @article{Lindahl00,
1889 Author = {E. Lindahl and O. Edholm},
1890 Date-Added = {2008-01-08 14:58:56 -0500},
1891 Date-Modified = {2008-01-08 14:58:59 -0500},
1892 Journal = bj,
1893 Month = {July},
1894 Pages = {426-433},
1895 Title = {Mesoscopic undulations and thickness fluctuations in lipid bilayers from molecular dynamics simulations},
1896 Volume = 79,
1897 Year = 2000}
1898
1899 @article{Gezelter99,
1900 Author = {J.~D. Gezelter and E. Rabani and B.~J. Berne},
1901 Date-Added = {2008-01-08 14:58:56 -0500},
1902 Date-Modified = {2008-01-08 14:58:59 -0500},
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1904 Pages = 3444,
1905 Title = {Methods for calculating the hopping rate for orientational and spatial diffusion in a molecular liquid: $\mbox{CS}_{2}$},
1906 Volume = 110,
1907 Year = 1999}
1908
1909 @article{Sun97b,
1910 Author = {X. Sun and W.~H. Miller},
1911 Date-Added = {2008-01-08 14:58:56 -0500},
1912 Date-Modified = {2008-01-08 14:58:59 -0500},
1913 Journal = jcp,
1914 Pages = 916,
1915 Title = {Mixed semiclassical-classical approaches to the dynamics of complex molecular systems},
1916 Year = 1997}
1917
1918 @article{Goldstein88,
1919 Author = {Raymond E. Goldstein and Stanislas Leibler},
1920 Date-Added = {2008-01-08 14:58:56 -0500},
1921 Date-Modified = {2008-01-08 14:58:59 -0500},
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1923 Number = 19,
1924 Pages = {2213-2216},
1925 Title = {Model for Lamellar Phases of Interacting Lipid Membranes},
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2857 @book{Safran94,
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2898 @article{NorbertKucerka04012005,
2899 Abstract = {Quantitative structures of the fully hydrated fluid phases of dimyristoylphosphatidylcholine (DMPC) and dilauroylphosphatidylcholine (DLPC) were obtained at 30{degrees}C. Data for the relative form factors F(qz) for DMPC were obtained using a combination of four methods. 1), Volumetric data provided F(0). 2), Diffuse x-ray scattering from oriented stacks of bilayers provided relative form factors |F(qz)| for high qz, 0.22 < qz < 0.8 A-1. 3), X-ray scattering from extruded unilamellar vesicles with diameter 600 A provided |F(qz)| for low qz, 0.1 < qz < 0.3 A-1. 4), Previous measurements using a liquid crystallographic x-ray method provided |F(2{pi}h/D)| for h = 1 and 2 for a range of nearly fully hydrated D-spacings. The data from method 4 overlap and validate the new unilamellar vesicles data for DMPC, so method 4 is not required for DLPC or future studies. We used hybrid electron density models to obtain structural results from these form factors. Comparison of the model electron density profiles with that of gel phase DMPC provides areas per lipid A, 60.6 {+/-} 0.5 A2 for DMPC and 63.2 {+/-} 0.5 A2 for DLPC. Constraints on the model provided by volume measurements and component volumes obtained from simulations put the electron density profiles {rho}(z) and the corresponding form factors F(qz) on absolute scales. Various thicknesses, such as the hydrophobic thickness and the steric thickness, are obtained and compared to literature values.
2900 },
2901 Author = {Kucerka, Norbert and Liu, Yufeng and Chu, Nanjun and Petrache, Horia I. and Tristram-Nagle, Stephanie and Nagle, John F.},
2902 Date-Added = {2008-01-08 14:58:56 -0500},
2903 Date-Modified = {2008-01-08 14:59:02 -0500},
2904 Doi = {10.1529/biophysj.104.056606},
2905 Eprint = {http://www.biophysj.org/cgi/reprint/88/4/2626.pdf},
2906 Journal = {Biophys. J.},
2907 Number = 4,
2908 Pages = {2626-2637},
2909 Title = {{Structure of Fully Hydrated Fluid Phase DMPC and DLPC Lipid Bilayers Using X-Ray Scattering from Oriented Multilamellar Arrays and from Unilamellar Vesicles}},
2910 Url = {http://www.biophysj.org/cgi/content/abstract/88/4/2626},
2911 Volume = 88,
2912 Year = 2005,
2913 Bdsk-Url-1 = {http://www.biophysj.org/cgi/content/abstract/88/4/2626},
2914 Bdsk-Url-2 = {http://dx.doi.org/10.1529/biophysj.104.056606}}
2915
2916 @article{Lenz07,
2917 Author = {Olaf Lenz and Friederike Schmid},
2918 Date-Added = {2008-01-08 14:58:56 -0500},
2919 Date-Modified = {2008-01-08 14:59:02 -0500},
2920 Journal = prl,
2921 Number = 5,
2922 Pages = 058104,
2923 Title = {Structure of Symmetric and Asymmetric "Ripple" Phases in Lipid Bilayers},
2924 Volume = 98,
2925 Year = 2007}
2926
2927 @article{Sun96,
2928 Author = {W. J. Sun and S. Tristram-Nagle and R. M. Suter and J. F. Nagle},
2929 Date-Added = {2008-01-08 14:58:56 -0500},
2930 Date-Modified = {2008-01-08 14:59:02 -0500},
2931 Journal = pnas,
2932 Pages = {7008-7012},
2933 Title = {Structure of the Ripple Phase in Lecithin Bilayers},
2934 Volume = 93,
2935 Year = 1996}
2936
2937 @article{Sengupta03,
2938 Author = {Kheya Sengupta and V. A. Raghunathan and John Katsaras},
2939 Date-Added = {2008-01-08 14:58:56 -0500},
2940 Date-Modified = {2008-01-08 14:59:02 -0500},
2941 Journal = pre,
2942 Number = 031710,
2943 Pages = {1-12},
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2945 Volume = 68,
2946 Year = 2003}
2947
2948 @article{Liu92,
2949 Author = {R.~S. Liu and D.~W. Qi and S. Wang},
2950 Date-Added = {2008-01-08 14:58:56 -0500},
2951 Date-Modified = {2008-01-08 14:59:02 -0500},
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2955 Volume = 45,
2956 Year = 1992}
2957
2958 @article{Ediger96,
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2960 Date-Added = {2008-01-08 14:58:56 -0500},
2961 Date-Modified = {2008-01-08 14:59:02 -0500},
2962 Journal = jpc,
2963 Pages = 13200,
2964 Title = {Supercooled Liquids and Glasses},
2965 Volume = 100,
2966 Year = 1996}
2967
2968 @article{Janiak79,
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2970 Date-Added = {2008-01-08 14:58:56 -0500},
2971 Date-Modified = {2008-01-08 14:59:02 -0500},
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2975 Volume = 254,
2976 Year = 1979}
2977
2978 @article{Kaasgaard03,
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2980 Date-Added = {2008-01-08 14:58:56 -0500},
2981 Date-Modified = {2008-01-08 14:59:02 -0500},
2982 Journal = bj,
2983 Number = 1,
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2987 Year = 2003}
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2989 @article{Holz00,
2990 Author = {M. Holz and S.~R. Heil and A. Sacco},
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2992 Date-Modified = {2008-01-08 14:59:02 -0500},
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2994 Pages = {4740-4742},
2995 Title = {Temperature-dependent self-diffusion coefficients of water and six selected molecular liquids for calibration in accurate $^1${\sc h} {\sc nmr pfg} measurements},
2996 Volume = 2,
2997 Year = 2000}
2998
2999 @article{Kob95a,
3000 Author = {W. Kob and H.~C. Andersen},
3001 Date-Added = {2008-01-08 14:58:56 -0500},
3002 Date-Modified = {2008-01-08 14:59:02 -0500},
3003 Journal = pre,
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3006 Volume = 51,
3007 Year = 1995}
3008
3009 @article{Kob95b,
3010 Author = {W. Kob and H.~C. Andersen},
3011 Date-Added = {2008-01-08 14:58:56 -0500},
3012 Date-Modified = {2008-01-08 14:59:02 -0500},
3013 Journal = pre,
3014 Pages = {4134-4153},
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3016 Volume = 52,
3017 Year = 1995}
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3027 Volume = 38,
3028 Year = 1979}
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3038 Year = 1992}
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3049 Year = 1984}
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3121 Year = 1983}
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3217 Year = 1986}
3218
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3222 Date-Modified = {2008-01-08 14:59:02 -0500},
3223 Journal = pnas,
3224 Pages = {6559-6561},
3225 Title = {Theory of the intermediate rippled phase of phospholipid bilayers},
3226 Volume = 81,
3227 Year = 1984}
3228
3229 @book{Tobias90,
3230 Address = {Tucson},
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3232 Date-Added = {2008-01-08 14:58:56 -0500},
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3234 Publisher = {Research Corp.},
3235 Title = {They're not Dumb. They're Different: Stalking the Second Tier},
3236 Year = 1990}
3237
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3245 Title = {Three-Dimensional Structure of Induced Electrorheological Solid},
3246 Volume = 67,
3247 Year = 1991}
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3254 Number = 3,
3255 Pages = {1461-1462},
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3257 Volume = 102,
3258 Year = 1995}
3259
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3264 Journal = jpcB,
3265 Pages = {2569-2577},
3266 Title = {Transferable Potentials for Phase Equilibria. 1. United-Atom Description of n-Alkanes},
3267 Volume = 102,
3268 Year = 1998}
3269
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3271 Author = {C. Misbah and J. Duplat and B. Houchmandzadeh},
3272 Date-Added = {2008-01-08 14:58:56 -0500},
3273 Date-Modified = {2008-01-08 14:59:02 -0500},
3274 Journal = prl,
3275 Number = 20,
3276 Pages = {4598-4601},
3277 Title = {Transition to Ripple Phases in Hydrated Amphiphiles},
3278 Volume = 80,
3279 Year = 1998}
3280
3281 @article{Alemany98,
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3283 Date-Added = {2008-01-08 14:58:56 -0500},
3284 Date-Modified = {2008-01-08 14:59:02 -0500},
3285 Journal = jcp,
3286 Pages = {5175-5176},
3287 Title = {Transport coefficients of liquid transition metals: A computer simulation study using the embedded atom model},
3288 Volume = 109,
3289 Year = 1998}
3290
3291 @article{Born12,
3292 Author = {M. Born and Th. Von~Karman},
3293 Date-Added = {2008-01-08 14:58:56 -0500},
3294 Date-Modified = {2008-01-08 14:59:02 -0500},
3295 Journal = {Physik Z.},
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3297 Title = {Uber Schwingungen in Raumgittern},
3298 Volume = 13,
3299 Year = 1912}
3300
3301 @incollection{Angell85,
3302 Address = {Springfield, VA},
3303 Author = {C.~A. Angell},
3304 Booktitle = {Relaxations in Complex Systems},
3305 Date-Added = {2008-01-08 14:58:56 -0500},
3306 Date-Modified = {2008-01-08 14:59:03 -0500},
3307 Editor = {K.~Ngai and G.~B. Wright},
3308 Pages = 1,
3309 Publisher = {National Technical Information Service, U.S. Department of Commerce},
3310 Title = {unknown},
3311 Year = 1985}
3312
3313 @article{Ribeiro98,
3314 Author = {M.~C.~C. Ribeiro and P.~A. Madden},
3315 Date-Added = {2008-01-08 14:58:56 -0500},
3316 Date-Modified = {2008-01-08 14:59:03 -0500},
3317 Journal = jcp,
3318 Pages = {3256-3263},
3319 Title = {Unstable Modes in Ionic Melts},
3320 Volume = 108,
3321 Year = 1998}
3322
3323 @article{Mutz1991,
3324 Author = {Mutz, M. and Bensimon, D. and Brienne, M. J.},
3325 Date-Added = {2008-01-08 14:58:56 -0500},
3326 Date-Modified = {2008-01-08 14:59:03 -0500},
3327 Doi = {10.1103/PhysRevLett.67.923},
3328 Journal = {Phys. Rev. Lett.},
3329 Month = {Aug},
3330 Number = 7,
3331 Numpages = 3,
3332 Pages = {923--926},
3333 Publisher = {American Physical Society},
3334 Title = {Wrinkling transition in partially polymerized vesicles},
3335 Volume = 67,
3336 Year = 1991,
3337 Bdsk-Url-1 = {http://dx.doi.org/10.1103/PhysRevLett.67.923}}
3338
3339 @article{Wendt78,
3340 Author = {H. Wendt and F.~F. Abraham},
3341 Date-Added = {2008-01-08 14:58:56 -0500},
3342 Date-Modified = {2008-01-08 14:59:03 -0500},
3343 Journal = prl,
3344 Pages = 1244,
3345 Volume = 41,
3346 Year = 1978}
3347
3348 @unpublished{Truhlar00,
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3350 Date-Added = {2008-01-08 14:58:56 -0500},
3351 Date-Modified = {2008-01-08 14:59:03 -0500},
3352 Note = {private correspondence},
3353 Year = 2000}
3354
3355 @article{Dwyer1977,
3356 Author = {D.~J. Dwyer and G.~W. Simmons and R.~P. Wei},
3357 Date-Added = {2008-01-08 14:58:56 -0500},
3358 Date-Modified = {2008-01-08 14:59:03 -0500},
3359 Journal = {Surf. Sci.},
3360 Pages = 617,
3361 Volume = 64,
3362 Year = 1977}
3363
3364 @article{Macritche78,
3365 Author = {F. MacRitche},
3366 Date-Added = {2008-01-08 14:58:56 -0500},
3367 Date-Modified = {2008-01-08 14:59:03 -0500},
3368 Journal = {Adv. Protein Chem.},
3369 Pages = 283,
3370 Volume = 32,
3371 Year = 1978}
3372
3373 @article{Feder80,
3374 Author = {J. Feder},
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3376 Date-Modified = {2008-01-08 14:59:03 -0500},
3377 Journal = {J. Theor. Biol.},
3378 Pages = 237,
3379 Volume = 87,
3380 Year = 1980}
3381
3382 @article{Ramsden93,
3383 Author = {J.~J. Ramsden},
3384 Date-Added = {2008-01-08 14:58:56 -0500},
3385 Date-Modified = {2008-01-08 14:59:03 -0500},
3386 Journal = prl,
3387 Pages = 295,
3388 Volume = 71,
3389 Year = 1993}
3390
3391 @article{Egelhoff89,
3392 Author = {W.~F. Egelhoff and I. Jacob},
3393 Date-Added = {2008-01-08 14:58:56 -0500},
3394 Date-Modified = {2008-01-08 14:59:03 -0500},
3395 Journal = prl,
3396 Pages = 921,
3397 Volume = 62,
3398 Year = 1989}
3399
3400 @article{Dobson1987,
3401 Author = {B.~W. Dobson},
3402 Date-Added = {2008-01-08 14:58:56 -0500},
3403 Date-Modified = {2008-01-08 14:59:03 -0500},
3404 Journal = prb,
3405 Pages = 1068,
3406 Volume = 36,
3407 Year = 1987}
3408
3409 @article{Davis:1969uq,
3410 Abstract = { Exact solutions of the Stokes equations are derived for the case of two unequal spheres slowly rotating or translating perpendicular to their line of centers in a quiescent, unbounded viscous fluid, following Wakiya[16]. Numerical results are presented for the force and torque coefficients for size ratios from 1[middle dot]0 to 10[middle dot]0, and separations down to 0[middle dot]001 times the radius of the smaller.},
3411 Author = {Davis, M. H.},
3412 Date-Added = {2008-01-08 14:57:14 -0500},
3413 Date-Modified = {2008-01-08 14:57:14 -0500},
3414 Journal = {Chemical Engineering Science},
3415 Number = 12,
3416 Pages = {1769--1776},
3417 Title = {The slow translation and rotation of two unequal spheres in a viscous fluid},
3418 Ty = {JOUR},
3419 Url = {http://www.sciencedirect.com/science/article/B6TFK-445H8BM-84/2/b34951283900cdde792ec1309ec51565},
3420 Volume = 24,
3421 Year = 1969,
3422 Bdsk-Url-1 = {http://www.sciencedirect.com/science/article/B6TFK-445H8BM-84/2/b34951283900cdde792ec1309ec51565}}
3423
3424 @article{Stimson:1926qy,
3425 Author = {Stimson, M and Jeffery, GB},
3426 Date-Added = {2008-01-08 14:51:23 -0500},
3427 Date-Modified = {2008-01-08 14:51:35 -0500},
3428 Journal = {Proceedings of the Royal Society of London Series A-Containing Papers of a Mathematical and Physical Character},
3429 Pages = {110-116},
3430 Title = {The motion of two spheres in a viscous fluid},
3431 Volume = 111,
3432 Year = 1926}
3433
3434 @article{Orlandi:2006fk,
3435 Abstract = {Liquid crystal phases formed by bent-shaped (or {\tt{}"{}}banana{\tt{}"{}}) molecules are currently of great interest. Here we investigate by Monte Carlo computer simulations the phases formed by rigid banana molecules modeled combining three Gay-Berne sites and containing either one central or two lateral and transversal dipoles. We show that changing the dipole position and orientation has a profound effect on the mesophase stability and molecular organization. In particular, we find a uniaxial nematic phase only for off-center dipolar models and tilted phases only for the one with terminal dipoles.},
3436 Address = {Dipartimento di Chimica Fisica e Inorganica, and INSTM, Universita di Bologna, Viale Risorgimento 4, 40136 Bologna, Italy.},
3437 Au = {Orlandi, S and Berardi, R and Steltzer, J and Zannoni, C},
3438 Author = {Orlandi, Silvia and Berardi, Roberto and Steltzer, Joachim and Zannoni, Claudio},
3439 Da = 20060407,
3440 Date-Added = {2008-01-08 14:47:56 -0500},
3441 Date-Modified = {2008-01-08 14:48:06 -0500},
3442 Dcom = 20070727,
3443 Doi = {10.1063/1.2176622},
3444 Edat = {2006/04/08 09:00},
3445 Issn = {0021-9606 (Print)},
3446 Jid = 0375360,
3447 Journal = {J Chem Phys},
3448 Jt = {The Journal of chemical physics},
3449 Language = {eng},
3450 Mhda = {2006/04/08 09:01},
3451 Number = 12,
3452 Own = {NLM},
3453 Pages = 124907,
3454 Pl = {United States},
3455 Pmid = 16599725,
3456 Pst = {ppublish},
3457 Pt = {Journal Article},
3458 Pubm = {Print},
3459 So = {J Chem Phys. 2006 Mar 28;124(12):124907.},
3460 Stat = {PubMed-not-MEDLINE},
3461 Title = {A Monte Carlo study of the mesophases formed by polar bent-shaped molecules.},
3462 Volume = 124,
3463 Year = 2006,
3464 Bdsk-Url-1 = {http://dx.doi.org/10.1063/1.2176622}}
3465
3466 @article{sun:031602,
3467 Author = {Xiuquan Sun and J. Daniel Gezelter},
3468 Date-Added = {2008-01-08 14:42:33 -0500},
3469 Date-Modified = {2008-01-08 14:42:33 -0500},
3470 Doi = {10.1103/PhysRevE.75.031602},
3471 Eid = 031602,
3472 Journal = {Physical Review E (Statistical, Nonlinear, and Soft Matter Physics)},
3473 Keywords = {lattice theory; membranes},
3474 Number = 3,
3475 Numpages = 7,
3476 Pages = 031602,
3477 Publisher = {APS},
3478 Title = {Spontaneous corrugation of dipolar membranes},
3479 Url = {http://link.aps.org/abstract/PRE/v75/e031602},
3480 Volume = 75,
3481 Year = 2007,
3482 Bdsk-Url-1 = {http://link.aps.org/abstract/PRE/v75/e031602},
3483 Bdsk-Url-2 = {http://dx.doi.org/10.1103/PhysRevE.75.031602}}
3484
3485 @article{Ortega:2007lr,
3486 Abstract = {The equivalent radius for any solution property is the radius of a spherical particle having the same value of solution property as that of the macromolecule under consideration. Equivalent radii for different properties present a dependence on size and shape that are more similar than the values of the properties themselves. Furthermore, the ratios of equivalent radii of two properties depend on the conformation (shape or flexibility), but not on the absolute sizes. We define equivalent radii and their ratios, and describe their evaluation for some common models of rigid and flexible macromolecules. Using radii and ratios, we have devised procedures to fit macromolecular models to experimental properties, allowing the determination of the model parameters. Using these quantities, we can construct target functions for an equilibrated, unbiased optimization. The procedures, which have been implemented in public-domain computer programs, are illustrated for rigid, globular proteins, and the rodlike tobacco mosaic virus, and for semiflexible, wormlike heparin molecules.},
3487 Address = {Departamento de Quimica Fisica, Facultad de Quimica, Universidad de Murcia, 30071 Murcia, Spain.},
3488 Au = {Ortega, A and {Garc\'{i}a de la Torre}, Jose},
3489 Author = {Ortega, A and {Garc\'{i}a de la Torre}, Jose},
3490 Da = 20070813,
3491 Date-Added = {2008-01-08 14:38:03 -0500},
3492 Date-Modified = {2008-01-08 14:38:49 -0500},
3493 Dcom = 20071017,
3494 Dep = 20070724,
3495 Doi = {10.1021/bm700473f},
3496 Edat = {2007/07/25 09:00},
3497 Issn = {1525-7797 (Print)},
3498 Jid = 100892849,
3499 Journal = {Biomacromolecules},
3500 Jt = {Biomacromolecules},
3501 Keywords = {Computer Simulation; Heparin/chemistry; Macromolecular Substances/*chemistry; *Models, Chemical; *Models, Molecular; Molecular Conformation; Particle Size; Protein Conformation; Proteins/chemistry; Software; Solutions},
3502 Language = {eng},
3503 Mhda = {2007/10/18 09:00},
3504 Number = 8,
3505 Own = {NLM},
3506 Pages = {2464--2475},
3507 Phst = {2007/07/24 {$[$}aheadofprint{$]$}},
3508 Pl = {United States},
3509 Pmid = 17645309,
3510 Pst = {ppublish},
3511 Pt = {Journal Article; Research Support, Non-U.S. Gov't},
3512 Pubm = {Print-Electronic},
3513 Rn = {0 (Macromolecular Substances); 0 (Proteins); 0 (Solutions); 9005-49-6 (Heparin)},
3514 Sb = {IM},
3515 So = {Biomacromolecules. 2007 Aug;8(8):2464-75. Epub 2007 Jul 24.},
3516 Stat = {MEDLINE},
3517 Title = {Equivalent radii and ratios of radii from solution properties as indicators of macromolecular conformation, shape, and flexibility.},
3518 Volume = 8,
3519 Year = 2007,
3520 Bdsk-Url-1 = {http://dx.doi.org/10.1021/bm700473f}}
3521
3522 @article{Torre2003,
3523 Abstract = {While the prediction of hydrodynamic properties of rigid particles
3524 is nowadays feasible using simple and efficient computer programs,
3525 the calculation of such properties and, in general, the dynamic
3526 behavior of flexible macromolecules has not reached a similar situation.
3527 Although the theories are available, usually the computational work
3528 is done using solutions specific for each problem. We intend to
3529 develop computer programs that would greatly facilitate the task
3530 of predicting solution behavior of flexible macromolecules. In this
3531 paper, we first present an overview of the two approaches that are
3532 most practical: the Monte Carlo rigid-body treatment, and the Brownian
3533 dynamics simulation technique. The Monte Carlo procedure is based
3534 on the calculation of properties for instantaneous conformations
3535 of the macromolecule that are regarded as if they were instantaneously
3536 rigid. We describe how a Monte Carlo program can be interfaced to
3537 the programs in the HYDRO suite for rigid particles, and provide
3538 an example of such calculation, for a hypothetical particle: a protein
3539 with two domains connected by a flexible linker. We also describe
3540 briefly the essentials of Brownian dynamics, and propose a general
3541 mechanical model that includes several kinds of intramolecular interactions,
3542 such as bending, internal rotation, excluded volume effects, etc.
3543 We provide an example of the application of this methodology to
3544 the dynamics of a semiflexible, wormlike DNA.},
3545 Annote = {724XK Times Cited:6 Cited References Count:64},
3546 Author = {{Garc\'{i}a de la Torre}, Jose and H. E. Sanchez and A. Ortega and J. G. Hernandez and M. X. Fernandes and F. G. Diaz and M. C. L. Martinez},
3547 Issn = {0175-7571},
3548 Journal = {European Biophysics Journal with Biophysics Letters},
3549 Month = {Aug},
3550 Number = 5,
3551 Pages = {477-486},
3552 Title = {Calculation of the solution properties of flexible macromolecules: methods and applications},
3553 Uri = {<Go to ISI>://000185513400011},
3554 Volume = 32,
3555 Year = 2003}
3556
3557 @article{Alakent2005,
3558 Abstract = {Time series analysis tools are employed on the principal modes obtained
3559 from the C-alpha trajectories from two independent molecular-dynamics
3560 simulations of alpha-amylase inhibitor (tendamistat). Fluctuations
3561 inside an energy minimum (intraminimum motions), transitions between
3562 minima (interminimum motions), and relaxations in different hierarchical
3563 energy levels are investigated and compared with those encountered
3564 in vacuum by using different sampling window sizes and intervals.
3565 The low-frequency low-indexed mode relationship, established in
3566 vacuum, is also encountered in water, which shows the reliability
3567 of the important dynamics information offered by principal components
3568 analysis in water. It has been shown that examining a short data
3569 collection period (100 ps) may result in a high population of overdamped
3570 modes, while some of the low-frequency oscillations (< 10 cm(-1))
3571 can be captured in water by using a longer data collection period
3572 (1200 ps). Simultaneous analysis of short and long sampling window
3573 sizes gives the following picture of the effect of water on protein
3574 dynamics. Water makes the protein lose its memory: future conformations
3575 are less dependent on previous conformations due to the lowering
3576 of energy barriers in hierarchical levels of the energy landscape.
3577 In short-time dynamics (< 10 ps), damping factors extracted from
3578 time series model parameters are lowered. For tendamistat, the friction
3579 coefficient in the Langevin equation is found to be around 40-60
3580 cm(-1) for the low-indexed modes, compatible with literature. The
3581 fact that water has increased the friction and that on the other
3582 hand has lubrication effect at first sight contradicts. However,
3583 this comes about because water enhances the transitions between
3584 minima and forces the protein to reduce its already inherent inability
3585 to maintain oscillations observed in vacuum. Some of the frequencies
3586 lower than 10 cm(-1) are found to be overdamped, while those higher
3587 than 20 cm(-1) are slightly increased. As for the long-time dynamics
3588 in water, it is found that random-walk motion is maintained for
3589 approximately 200 ps (about five times of that in vacuum) in the
3590 low-indexed modes, showing the lowering of energy barriers between
3591 the higher-level minima.},
3592 Annote = {973OH Times Cited:1 Cited References Count:33},
3593 Author = {B. Alakent and M. C. Camurdan and P. Doruker},
3594 Issn = {0021-9606},
3595 Journal = jcp,
3596 Month = {Oct 8},
3597 Number = 14,
3598 Pages = {-},
3599 Title = {Hierarchical structure of the energy landscape of proteins revisited by time series analysis. II. Investigation of explicit solvent effects},
3600 Uri = {<Go to ISI>://000232532000064},
3601 Volume = 123,
3602 Year = 2005}
3603
3604 @book{Alexander1987,
3605 Address = {New York},
3606 Author = {C. Alexander},
3607 Publisher = {Oxford University Press},
3608 Title = {A Pattern Language: Towns, Buildings, Construction},
3609 Year = 1987}
3610
3611 @book{Allen1987,
3612 Address = {New York},
3613 Author = {M.~P. Allen and D.~J. Tildesley},
3614 Publisher = {Oxford University Press},
3615 Title = {Computer Simulations of Liquids},
3616 Year = 1987}
3617
3618 @article{Allison1991,
3619 Abstract = {A Brownian dynamics algorithm is developed to simulate dynamics experiments
3620 of rigid macromolecules. It is applied to polarized dynamic light
3621 scattering from rodlike sturctures and from a model of a DNA fragment
3622 (762 base pairs). A number of rod cases are examined in which the
3623 translational anisotropy is increased form zero to a large value.
3624 Simulated first cumulants as well as amplitudes and lifetimes of
3625 the dynamic form factor are compared with predictions of analytic
3626 theories and found to be in very good agreement with them. For DNA
3627 fragments 762 base pairs in length or longer, translational anisotropy
3628 does not contribute significantly to dynamic light scattering. In
3629 a comparison of rigid and flexible simulations on semistiff models
3630 of this fragment, it is shown directly that flexing contributes
3631 to the faster decay processes probed by light scattering and that
3632 the flexible model studies are in good agreement with experiment.},
3633 Annote = {Eu814 Times Cited:8 Cited References Count:32},
3634 Author = {S. A. Allison},
3635 Issn = {0024-9297},
3636 Journal = {Macromolecules},
3637 Month = {Jan 21},
3638 Number = 2,
3639 Pages = {530-536},
3640 Title = {A Brownian Dynamics Algorithm for Arbitrary Rigid Bodies - Application to Polarized Dynamic Light-Scattering},
3641 Uri = {<Go to ISI>://A1991EU81400029},
3642 Volume = 24,
3643 Year = 1991}
3644
3645 @article{Andersen1983,
3646 Annote = {Rq238 Times Cited:559 Cited References Count:14},
3647 Author = {H. C. Andersen},
3648 Issn = {0021-9991},
3649 Journal = jcop,
3650 Number = 1,
3651 Pages = {24-34},
3652 Title = {Rattle - a Velocity Version of the Shake Algorithm for Molecular-Dynamics Calculations},
3653 Uri = {<Go to ISI>://A1983RQ23800002},
3654 Volume = 52,
3655 Year = 1983}
3656
3657 @article{Auerbach2005,
3658 Abstract = {Acetylcholine receptor channels (AChRs) are proteins that switch between
3659 stable #closed# and #open# conformations. In patch clamp recordings,
3660 diliganded AChR gating appears to be a simple, two-state reaction.
3661 However, mutagenesis studies indicate that during gating dozens
3662 of residues across the protein move asynchronously and are organized
3663 into rigid body gating domains (#blocks#). Moreover, there is an
3664 upper limit to the apparent channel opening rate constant. These
3665 observations suggest that the gating reaction has a broad, corrugated
3666 transition state region, with the maximum opening rate reflecting,
3667 in part, the mean first-passage time across this ensemble. Simulations
3668 reveal that a flat, isotropic energy profile for the transition
3669 state can account for many of the essential features of AChR gating.
3670 With this mechanism, concerted, local structural transitions that
3671 occur on the broad transition state ensemble give rise to fractional
3672 measures of reaction progress (Phi values) determined by rate-equilibrium
3673 free energy relationship analysis. The results suggest that the
3674 coarse-grained AChR gating conformational change propagates through
3675 the protein with dynamics that are governed by the Brownian motion
3676 of individual gating blocks.},
3677 Annote = {895QF Times Cited:9 Cited References Count:33},
3678 Author = {A. Auerbach},
3679 Issn = {0027-8424},
3680 Journal = pnas,
3681 Month = {Feb 1},
3682 Number = 5,
3683 Pages = {1408-1412},
3684 Title = {Gating of acetylcholine receptor channels: Brownian motion across a broad transition state},
3685 Uri = {<Go to ISI>://000226877300030},
3686 Volume = 102,
3687 Year = 2005}
3688
3689 @article{Baber1995,
3690 Abstract = {The effect of the general anesthetics halothane, enflurane, and isoflurane
3691 on hydrocarbon chain packing in palmitoyl(d(31))oleoylphosphatidylcholine
3692 membranes in the liquid crystalline phase was investigated using
3693 H-2 NMR. Upon the addition of the anesthetics, the first five methylene
3694 units near the interface generally show a very small increase in
3695 segmental order, while segments deeper within the bilayer show a
3696 small decrease in segmental order. From the H-2 NMR results, the
3697 chain length for the perdeuterated palmitoyl chain in the absence
3698 of anesthetic was found to be 12.35 Angstrom. Upon the addition
3699 of halothane enflurane, or isoflurane, the acyl chain undergoes
3700 slight contractions of 0.11, 0.20, or 0.16 Angstrom, respectively,
3701 at 50 mol % anesthetic. A simple model was used to estimate the
3702 relative amounts of anesthetic located near the interface and deeper
3703 in the bilayer hydrocarbon region, and only a slight preference
3704 for an interfacial location was observed. Intermolecular H-1-H-1
3705 nuclear Overhauser effects (NOEs) were measured between phospholipid
3706 and halothane protons. These NOEs are consistent with the intramembrane
3707 location of the anesthetics suggested by the H-2 NMR data. In addition,
3708 the NOE data indicate that anesthetics prefer the interfacial and
3709 hydrocarbon regions of the membrane and are not found in high concentrations
3710 in the phospholipid headgroup.},
3711 Annote = {Qz716 Times Cited:38 Cited References Count:37},
3712 Author = {J. Baber and J. F. Ellena and D. S. Cafiso},
3713 Issn = {0006-2960},
3714 Journal = {Biochemistry},
3715 Month = {May 16},
3716 Number = 19,
3717 Pages = {6533-6539},
3718 Title = {Distribution of General-Anesthetics in Phospholipid-Bilayers Determined Using H-2 Nmr and H-1-H-1 Noe Spectroscopy},
3719 Uri = {<Go to ISI>://A1995QZ71600035},
3720 Volume = 34,
3721 Year = 1995}
3722
3723 @article{Banerjee2004,
3724 Abstract = {Based on a coherent state representation of noise operator and an
3725 ensemble averaging procedure using Wigner canonical thermal distribution
3726 for harmonic oscillators, a generalized quantum Langevin equation
3727 has been recently developed [Phys. Rev. E 65, 021109 (2002); 66,
3728 051106 (2002)] to derive the equations of motion for probability
3729 distribution functions in c-number phase-space. We extend the treatment
3730 to explore several systematic approximation schemes for the solutions
3731 of the Langevin equation for nonlinear potentials for a wide range
3732 of noise correlation, strength and temperature down to the vacuum
3733 limit. The method is exemplified by an analytic application to harmonic
3734 oscillator for arbitrary memory kernel and with the help of a numerical
3735 calculation of barrier crossing, in a cubic potential to demonstrate
3736 the quantum Kramers' turnover and the quantum Arrhenius plot. (C)
3737 2004 American Institute of Physics.},
3738 Annote = {816YY Times Cited:8 Cited References Count:35},
3739 Author = {D. Banerjee and B. C. Bag and S. K. Banik and D. S. Ray},
3740 Issn = {0021-9606},
3741 Journal = jcp,
3742 Month = {May 15},
3743 Number = 19,
3744 Pages = {8960-8972},
3745 Title = {Solution of quantum Langevin equation: Approximations, theoretical and numerical aspects},
3746 Uri = {<Go to ISI>://000221146400009},
3747 Volume = 120,
3748 Year = 2004}
3749
3750 @article{Barojas1973,
3751 Author = {J. Barojas and D. Levesque},
3752 Journal = {Phys. Rev. A},
3753 Pages = {1092-1105},
3754 Title = {Simulation of Diatomic Homonuclear Liquids},
3755 Volume = 7,
3756 Year = 1973}
3757
3758 @article{Barth1998,
3759 Abstract = {We present an efficient new method termed LN for propagating biomolecular
3760 dynamics according to the Langevin equation that arose fortuitously
3761 upon analysis of the range of harmonic validity of our normal-mode
3762 scheme LIN. LN combines force linearization with force splitting
3763 techniques and disposes of LIN'S computationally intensive minimization
3764 (anharmonic correction) component. Unlike the competitive multiple-timestepping
3765 (MTS) schemes today-formulated to be symplectic and time-reversible-LN
3766 merges the slow and fast forces via extrapolation rather than impulses;
3767 the Langevin heat bath prevents systematic energy drifts. This combination
3768 succeeds in achieving more significant speedups than these MTS methods
3769 which are Limited by resonance artifacts to an outer timestep less
3770 than some integer multiple of half the period of the fastest motion
3771 (around 4-5 fs for biomolecules). We show that LN achieves very
3772 good agreement with small-timestep solutions of the Langevin equation
3773 in terms of thermodynamics (energy means and variances), geometry,
3774 and dynamics (spectral densities) for two proteins in vacuum and
3775 a large water system. Significantly, the frequency of updating the
3776 slow forces extends to 48 fs or more, resulting in speedup factors
3777 exceeding 10. The implementation of LN in any program that employs
3778 force-splitting computations is straightforward, with only partial
3779 second-derivative information required, as well as sparse Hessian/vector
3780 multiplication routines. The linearization part of LN could even
3781 be replaced by direct evaluation of the fast components. The application
3782 of LN to biomolecular dynamics is well suited for configurational
3783 sampling, thermodynamic, and structural questions. (C) 1998 American
3784 Institute of Physics.},
3785 Annote = {105HH Times Cited:29 Cited References Count:49},
3786 Author = {E. Barth and T. Schlick},
3787 Issn = {0021-9606},
3788 Journal = jcp,
3789 Month = {Aug 1},
3790 Number = 5,
3791 Pages = {1617-1632},
3792 Title = {Overcoming stability limitations in biomolecular dynamics. I. Combining force splitting via extrapolation with Langevin dynamics in LN},
3793 Uri = {<Go to ISI>://000075066300006},
3794 Volume = 109,
3795 Year = 1998}
3796
3797 @article{Batcho2001,
3798 Abstract = {We present an analysis for a simple two-component harmonic oscillator
3799 that compares the use of position-Verlet to velocity-Verlet for
3800 multiple-time step integration. The numerical stability analysis
3801 based on the impulse-Verlet splitting shows that position-Verlet
3802 has enhanced stability, in terms of the largest allowable time step,
3803 for cases where an ample separation of time scales exists. Numerical
3804 investigations confirm the advantages of the position-Verlet scheme
3805 when used for the fastest time scales of the system. Applications
3806 to a biomolecule. a solvated protein, for both Newtonian and Langevin
3807 dynamics echo these trends over large outer time-step regimes. (C)
3808 2001 American Institute of Physics.},
3809 Annote = {469KV Times Cited:6 Cited References Count:30},
3810 Author = {P. F. Batcho and T. Schlick},
3811 Issn = {0021-9606},
3812 Journal = jcp,
3813 Month = {Sep 1},
3814 Number = 9,
3815 Pages = {4019-4029},
3816 Title = {Special stability advantages of position-Verlet over velocity-Verlet in multiple-time step integration},
3817 Uri = {<Go to ISI>://000170813800005},
3818 Volume = 115,
3819 Year = 2001}
3820
3821 @article{Bates2005,
3822 Abstract = {Inspired by recent claims that compounds composed of V-shaped molecules
3823 can exhibit the elusive biaxial nematic phase, we have developed
3824 a generic simulation model for such systems. This contains the features
3825 of the molecule that are essential to its liquid crystal behavior,
3826 namely the anisotropies of the two arms and the angle between them.
3827 The behavior of the model has been investigated using Monte Carlo
3828 simulations for a wide range of these structural parameters. This
3829 allows us to establish the relationship between the V-shaped molecule
3830 and its ability to form a biaxial nematic phase. Of particular importance
3831 are the criteria of geometry and the relative anisotropy necessary
3832 for the system to exhibit a Landau point, at which the biaxial nematic
3833 is formed directly from the isotropic phase. The simulations have
3834 also been used to determine the orientational order parameters for
3835 a selection of molecular axes. These are especially important because
3836 they reveal the phase symmetry and are connected to the experimental
3837 determination of this. The simulation results show that, whereas
3838 some positions are extremely sensitive to the phase biaxiality,
3839 others are totally blind to this.},
3840 Annote = {Part 1 988LQ Times Cited:0 Cited References Count:38},
3841 Author = {M. A. Bates and G. R. Luckhurst},
3842 Issn = {1539-3755},
3843 Journal = {Physical Review E},
3844 Month = {Nov},
3845 Number = 5,
3846 Pages = {-},
3847 Title = {Biaxial nematic phases and V-shaped molecules: A Monte Carlo simulation study},
3848 Uri = {<Go to ISI>://000233603100030},
3849 Volume = 72,
3850 Year = 2005}
3851
3852 @article{Beard2003,
3853 Abstract = {We introduce an unbiased protocol for performing rotational moves
3854 in rigid-body dynamics simulations. This approach - based on the
3855 analytic solution for the rotational equations of motion for an
3856 orthogonal coordinate system at constant angular velocity - removes
3857 deficiencies that have been largely ignored in Brownian dynamics
3858 simulations, namely errors for finite rotations that result from
3859 applying the noncommuting rotational matrices in an arbitrary order.
3860 Our algorithm should thus replace standard approaches to rotate
3861 local coordinate frames in Langevin and Brownian dynamics simulations.},
3862 Annote = {736UA Times Cited:0 Cited References Count:11},
3863 Author = {D. A. Beard and T. Schlick},
3864 Issn = {0006-3495},
3865 Journal = bj,
3866 Month = {Nov 1},
3867 Number = 5,
3868 Pages = {2973-2976},
3869 Title = {Unbiased rotational moves for rigid-body dynamics},
3870 Uri = {<Go to ISI>://000186190500018},
3871 Volume = 85,
3872 Year = 2003}
3873
3874 @article{Beloborodov1998,
3875 Abstract = {Using the Green function of arbitrary rigid Brownian diffusion (Goldstein,
3876 Biopolymers 33, 409-436, 1993), it was analytically shown that coupling
3877 between translation and rotation diffusion degrees of freedom does
3878 not affect the correlation functions relevant to the NMR intramolecular
3879 relaxation. It follows that spectral densities usually used for
3880 the anisotropic rotation diffusion (Woessner, J. Chem. Phys. 37,
3881 647-654, 1962) can be regarded as exact in respect to the rotation-translation
3882 coupling for the spin system connected with a rigid body. (C) 1998
3883 Academic Press.},
3884 Annote = {Zu605 Times Cited:2 Cited References Count:6},
3885 Author = {I. S. Beloborodov and V. Y. Orekhov and A. S. Arseniev},
3886 Issn = {1090-7807},
3887 Journal = {Journal of Magnetic Resonance},
3888 Month = {Jun},
3889 Number = 2,
3890 Pages = {328-329},
3891 Title = {Effect of coupling between rotational and translational Brownian motions on NMR spin relaxation: Consideration using green function of rigid body diffusion},
3892 Uri = {<Go to ISI>://000074214800017},
3893 Volume = 132,
3894 Year = 1998}
3895
3896 @article{Berardi1996,
3897 Abstract = {We demonstrate that the overall molecular dipole organization in a
3898 smectic liquid crystal formed of polar molecules can be strongly
3899 influenced by the position of the dipole in the molecule. We study
3900 by large scale Monte Carlo simulations systems of attractive-repulsive
3901 ''Gay-Berne'' elongated ellipsoids with an axial dipole at the center
3902 or near the end of the molecule and we show that monolayer smectic
3903 liquid crystals and modulated antiferroelectric bilayer stripe domains
3904 similar to the experimentally observed ''antiphase'' structures
3905 are obtained in the two cases.},
3906 Annote = {Vn637 Times Cited:49 Cited References Count:26},
3907 Author = {R. Berardi and S. Orlandi and C. Zannoni},
3908 Issn = {0009-2614},
3909 Journal = {Chemical Physics Letters},
3910 Month = {Oct 18},
3911 Number = 3,
3912 Pages = {357-362},
3913 Title = {Antiphase structures in polar smectic liquid crystals and their molecular origin},
3914 Uri = {<Go to ISI>://A1996VN63700023},
3915 Volume = 261,
3916 Year = 1996}
3917
3918 @article{Berkov2005,
3919 Abstract = {In this paper a detailed numerical study (in frames of the Slonczewski
3920 formalism) of magnetization oscillations driven by a spin-polarized
3921 current through a thin elliptical nanoelement is presented. We show
3922 that a sophisticated micromagnetic model, where a polycrystalline
3923 structure of a nanoelement is taken into account, can explain qualitatively
3924 all most important features of the magnetization oscillation spectra
3925 recently observed experimentally [S. I. Kiselev , Nature 425, 380
3926 (2003)], namely, existence of several equidistant spectral bands,
3927 sharp onset and abrupt disappearance of magnetization oscillations
3928 with increasing current, absence of the out-of-plane regime predicted
3929 by a macrospin model, and the relation between frequencies of so-called
3930 small-angle and quasichaotic oscillations. However, a quantitative
3931 agreement with experimental results (especially concerning the frequency
3932 of quasichaotic oscillations) could not be achieved in the region
3933 of reasonable parameter values, indicating that further model refinement
3934 is necessary for a complete understanding of the spin-driven magnetization
3935 precession even in this relatively simple experimental situation.},
3936 Annote = {969IT Times Cited:2 Cited References Count:55},
3937 Author = {D. V. Berkov and N. L. Gorn},
3938 Issn = {1098-0121},
3939 Journal = {Physical Review B},
3940 Month = {Sep},
3941 Number = 9,
3942 Pages = {-},
3943 Title = {Magnetization precession due to a spin-polarized current in a thin nanoelement: Numerical simulation study},
3944 Uri = {<Go to ISI>://000232228500058},
3945 Volume = 72,
3946 Year = 2005}
3947
3948 @article{Berkov2005a,
3949 Abstract = {Numerical simulations of fast remagnetization processes using stochastic
3950 dynamics are widely used to study various magnetic systems. In this
3951 paper, we first address several crucial methodological problems
3952 of such simulations: (i) the influence of finite-element discretization
3953 on simulated dynamics, (ii) choice between Ito and Stratonovich
3954 stochastic calculi by the solution of micromagnetic stochastic equations
3955 of motion and (iii) non-trivial correlation properties of the random
3956 (thermal) field. Next, we discuss several examples to demonstrate
3957 the great potential of the Langevin dynamics for studying fast remagnetization
3958 processes in technically relevant applications: we present numerical
3959 analysis of equilibrium magnon spectra in patterned structures,
3960 study thermal noise effects on the magnetization dynamics of nanoelements
3961 in pulsed fields and show some results for a remagnetization dynamics
3962 induced by a spin-polarized current. (c) 2004 Elsevier B.V. All
3963 rights reserved.},
3964 Annote = {Part 1 Sp. Iss. SI 922KU Times Cited:2 Cited References Count:25},
3965 Author = {D. V. Berkov and N. L. Gorn},
3966 Issn = {0304-8853},
3967 Journal = {Journal of Magnetism and Magnetic Materials},
3968 Month = {Apr},
3969 Pages = {442-448},
3970 Title = {Stochastic dynamic simulations of fast remagnetization processes: recent advances and applications},
3971 Uri = {<Go to ISI>://000228837600109},
3972 Volume = 290,
3973 Year = 2005}
3974
3975 @article{Berkov2002,
3976 Abstract = {We report on recent progress achieved by the development of numerical
3977 methods based on the stochastic (Langevin) dynamics applied to systems
3978 of interacting magnetic nanoparticles. The method enables direct
3979 simulations of the trajectories of magnetic moments taking into
3980 account (i) all relevant interactions, (ii) precession dynamics,
3981 and (iii) temperature fluctuations included via the random (thermal)
3982 field. We present several novel results obtained using new methods
3983 developed for the solution of the Langevin equations. In particular,
3984 we have investigated magnetic nanodots and disordered granular systems
3985 of single-domain magnetic particles. For the first case we have
3986 calculated the spectrum and the spatial distribution of spin excitations.
3987 For the second system the complex ac susceptibility chi(omega, T)
3988 for various particle concentrations and particle anisotropies were
3989 computed and compared with numerous experimental results.},
3990 Annote = {526TF Times Cited:4 Cited References Count:37},
3991 Author = {D. V. Berkov and N. L. Gorn and P. Gornert},
3992 Issn = {0031-8965},
3993 Journal = {Physica Status Solidi a-Applied Research},
3994 Month = {Feb 16},
3995 Number = 2,
3996 Pages = {409-421},
3997 Title = {Magnetization dynamics in nanoparticle systems: Numerical simulation using Langevin dynamics},
3998 Uri = {<Go to ISI>://000174145200026},
3999 Volume = 189,
4000 Year = 2002}
4001
4002 @article{Bernal1980,
4003 Author = {J.M. Bernal and {Garc\'{i}a de la Torre}, Jose},
4004 Journal = {Biopolymers},
4005 Pages = {751-766},
4006 Title = {Transport Properties and Hydrodynamic Centers of Rigid Macromolecules with Arbitrary Shape},
4007 Volume = 19,
4008 Year = 1980}
4009
4010 @article{Brenner1967,
4011 Author = {H. Brenner},
4012 Journal = {J. Collid. Int. Sci.},
4013 Pages = {407-436},
4014 Title = {Coupling between the Translational and Rotational Brownian Motions of Rigid Particles of Arbitrary shape},
4015 Volume = 23,
4016 Year = 1967}
4017
4018 @article{Brooks1983,
4019 Annote = {Qp423 Times Cited:6414 Cited References Count:96},
4020 Author = {B. R. Brooks and R. E. Bruccoleri and B. D. Olafson and D. J. States and S. Swaminathan and M. Karplus},
4021 Issn = {0192-8651},
4022 Journal = jcc,
4023 Number = 2,
4024 Pages = {187-217},
4025 Title = {Charmm - a Program for Macromolecular Energy, Minimization, and Dynamics Calculations},
4026 Uri = {<Go to ISI>://A1983QP42300010},
4027 Volume = 4,
4028 Year = 1983}
4029
4030 @article{Brunger1984,
4031 Annote = {Sm173 Times Cited:143 Cited References Count:22},
4032 Author = {A. Brunger and C. L. Brooks and M. Karplus},
4033 Issn = {0009-2614},
4034 Journal = {Chemical Physics Letters},
4035 Number = 5,
4036 Pages = {495-500},
4037 Title = {Stochastic Boundary-Conditions for Molecular-Dynamics Simulations of St2 Water},
4038 Uri = {<Go to ISI>://A1984SM17300007},
4039 Volume = 105,
4040 Year = 1984}
4041
4042 @article{Budd1999,
4043 Abstract = {This paper examines a synthesis of adaptive mesh methods with the
4044 use of symmetry to study a partial differential equation. In particular,
4045 it considers methods which admit discrete self-similar solutions,
4046 examining the convergence of these to the true self-similar solution
4047 as well as their stability. Special attention is given to the nonlinear
4048 diffusion equation describing flow in a porous medium.},
4049 Annote = {199EE Times Cited:4 Cited References Count:14},
4050 Author = {C. J. Budd and G. J. Collins and W. Z. Huang and R. D. Russell},
4051 Issn = {1364-503X},
4052 Journal = {Philosophical Transactions of the Royal Society of London Series a-Mathematical Physical and Engineering Sciences},
4053 Month = {Apr 15},
4054 Number = 1754,
4055 Pages = {1047-1077},
4056 Title = {Self-similar numerical solutions of the porous-medium equation using moving mesh methods},
4057 Uri = {<Go to ISI>://000080466800005},
4058 Volume = 357,
4059 Year = 1999}
4060
4061 @article{Camp1999,
4062 Abstract = {Fluids of hard bent-core molecules have been studied using theory
4063 and computer simulation. The molecules are composed of two hard
4064 spherocylinders, with length-to-breadth ratio L/D, joined by their
4065 ends at an angle 180 degrees - gamma. For L/D = 2 and gamma = 0,10,20
4066 degrees, the simulations show isotropic, nematic, smectic, and solid
4067 phases. For L/D = 2 and gamma = 30 degrees, only isotropic, nematic,
4068 and solid phases are in evidence, which suggests that there is a
4069 nematic-smectic-solid triple point at an angle in the range 20 degrees
4070 < gamma < 30 degrees. In all of the orientationally ordered fluid
4071 phases the order is purely uniaxial. For gamma = 10 degrees and
4072 20 degrees, at the studied densities, the solid is also uniaxially
4073 ordered, whilst for gamma = 30 degrees the solid layers are biaxially
4074 ordered. For L/D = 2 and gamma = 60 degrees and 90 degrees we find
4075 no spontaneous orientational ordering. This is shown to be due to
4076 the interlocking of dimer pairs which precludes alignment. We find
4077 similar results for L/D = 9.5 and gamma = 72 degrees, where an isotropic-biaxial
4078 nematic transition is predicted by Onsager theory. Simulations in
4079 the biaxial nematic phase show it to be at least mechanically stable
4080 with respect to the isotropic phase, however. We have compared the
4081 quasi-exact simulation results in the isotropic phase with the predicted
4082 equations of state from three theories: the virial expansion containing
4083 the second and third virial coefficients; the Parsons-Lee equation
4084 of state; an application of Wertheim's theory of associating fluids
4085 in the limit of infinite attractive association energy. For all
4086 of the molecule elongations and geometries we have simulated, the
4087 Wertheim theory proved to be the most accurate. Interestingly, the
4088 isotropic equation of state is virtually independent of the dimer
4089 bond angle-a feature that is also reflected in the lack of variation
4090 with angle of the calculated second and third virial coefficients.
4091 (C) 1999 American Institute of Physics. [S0021-9606(99)50445-5].},
4092 Annote = {255TC Times Cited:24 Cited References Count:38},
4093 Author = {P. J. Camp and M. P. Allen and A. J. Masters},
4094 Issn = {0021-9606},
4095 Journal = jcp,
4096 Month = {Dec 1},
4097 Number = 21,
4098 Pages = {9871-9881},
4099 Title = {Theory and computer simulation of bent-core molecules},
4100 Uri = {<Go to ISI>://000083685400056},
4101 Volume = 111,
4102 Year = 1999}
4103
4104 @article{Care2005,
4105 Abstract = {A review is presented of molecular and mesoscopic computer simulations
4106 of liquid crystalline systems. Molecular simulation approaches applied
4107 to such systems are described, and the key findings for bulk phase
4108 behaviour are reported. Following this, recently developed lattice
4109 Boltzmann approaches to the mesoscale modelling of nemato-dynanics
4110 are reviewed. This paper concludes with a discussion of possible
4111 areas for future development in this field.},
4112 Annote = {989TU Times Cited:2 Cited References Count:258},
4113 Author = {C. M. Care and D. J. Cleaver},
4114 Issn = {0034-4885},
4115 Journal = {Reports on Progress in Physics},
4116 Month = {Nov},
4117 Number = 11,
4118 Pages = {2665-2700},
4119 Title = {Computer simulation of liquid crystals},
4120 Uri = {<Go to ISI>://000233697600004},
4121 Volume = 68,
4122 Year = 2005}
4123
4124 @article{Carrasco1999,
4125 Abstract = {The hydrodynamic properties of rigid particles are calculated from
4126 models composed of spherical elements (beads) using theories developed
4127 by Kirkwood, Bloomfield, and their coworkers. Bead models have usually
4128 been built in such a way that the beads fill the volume occupied
4129 by the particles. Sometimes the beads are few and of varying sizes
4130 (bead models in the strict sense), and other times there are many
4131 small beads (filling models). Because hydrodynamic friction takes
4132 place at the molecular surface, another possibility is to use shell
4133 models, as originally proposed by Bloomfield. In this work, we have
4134 developed procedures to build models of the various kinds, and we
4135 describe the theory and methods for calculating their hydrodynamic
4136 properties, including approximate methods that may be needed to
4137 treat models with a very large number of elements. By combining
4138 the various possibilities of model building and hydrodynamic calculation,
4139 several strategies can be designed. We have made a quantitative
4140 comparison of the performance of the various strategies by applying
4141 them to some test cases, for which the properties are known a priori.
4142 We provide guidelines and computational tools for bead modeling.},
4143 Annote = {200TT Times Cited:46 Cited References Count:57},
4144 Author = {B. Carrasco and {Garc\'{i}a de la Torre}, Jose},
4145 Issn = {0006-3495},
4146 Journal = bj,
4147 Month = {Jun},
4148 Number = 6,
4149 Pages = {3044-3057},
4150 Title = {Hydrodynamic properties of rigid particles: Comparison of different modeling and computational procedures},
4151 Uri = {<Go to ISI>://000080556700016},
4152 Volume = 76,
4153 Year = 1999}
4154
4155 @article{Chandra1999,
4156 Abstract = {Dynamical properties of the soft sticky dipole (SSD) model of water
4157 are calculated by means of molecular dynamics simulations. Since
4158 this is not a simple point model, the forces and torques arising
4159 from the SSD potential are derived here. Simulations are carried
4160 out in the microcanonical ensemble employing the Ewald method for
4161 the electrostatic interactions. Various time correlation functions
4162 and dynamical quantities associated with the translational and rotational
4163 motion of water molecules are evaluated and compared with those
4164 of two other commonly used models of liquid water, namely the transferable
4165 intermolecular potential-three points (TIP3P) and simple point charge/extended
4166 (SPC/E) models, and also with experiments. The dynamical properties
4167 of the SSD water model are found to be in good agreement with the
4168 experimental results and appear to be better than the TIP3P and
4169 SPC/E models in most cases, as has been previously shown for its
4170 thermodynamic, structural, and dielectric properties. Also, molecular
4171 dynamics simulations of the SSD model are found to run much faster
4172 than TIP3P, SPC/E, and other multisite models. (C) 1999 American
4173 Institute of Physics. [S0021-9606(99)51430-X].},
4174 Annote = {221EN Times Cited:14 Cited References Count:66},
4175 Author = {A. Chandra and T. Ichiye},
4176 Issn = {0021-9606},
4177 Journal = jcp,
4178 Month = {Aug 8},
4179 Number = 6,
4180 Pages = {2701-2709},
4181 Title = {Dynamical properties of the soft sticky dipole model of water: Molecular dynamics simulations},
4182 Uri = {<Go to ISI>://000081711200038},
4183 Volume = 111,
4184 Year = 1999}
4185
4186 @article{Channell1990,
4187 Annote = {Dk631 Times Cited:152 Cited References Count:34},
4188 Author = {P. J. Channell and C. Scovel},
4189 Issn = {0951-7715},
4190 Journal = {Nonlinearity},
4191 Month = {may},
4192 Number = 2,
4193 Pages = {231-259},
4194 Title = {Symplectic Integration of Hamiltonian-Systems},
4195 Uri = {<Go to ISI>://A1990DK63100001},
4196 Volume = 3,
4197 Year = 1990}
4198
4199 @article{Chen2003,
4200 Abstract = {We investigate the asymptotic behavior of systems of nonlinear differential
4201 equations and introduce a family of mixed methods from combinations
4202 of explicit Runge-Kutta methods. These methods have better stability
4203 behavior than traditional Runge-Kutta methods and generally extend
4204 the range of validity of the calculated solutions. These methods
4205 also give a way of determining if the numerical solutions are real
4206 or spurious. Emphasis is put on examples coming from mathematical
4207 models in ecology. (C) 2002 IMACS. Published by Elsevier Science
4208 B.V. All rights reserved.},
4209 Annote = {633ZD Times Cited:0 Cited References Count:9},
4210 Author = {B. Chen and F. Solis},
4211 Issn = {0168-9274},
4212 Journal = {Applied Numerical Mathematics},
4213 Month = {Jan},
4214 Number = {1-2},
4215 Pages = {21-30},
4216 Title = {Explicit mixed finite order Runge-Kutta methods},
4217 Uri = {<Go to ISI>://000180314200002},
4218 Volume = 44,
4219 Year = 2003}
4220
4221 @article{Cheung2004,
4222 Abstract = {Equilibrium molecular dynamics calculations have been performed for
4223 the liquid crystal molecule n-4-(trans-4-n-pentylcyclohexyl)benzonitrile
4224 (PCH5) using a fully atomistic model. Simulation data have been
4225 obtained for a series of temperatures in the nematic phase. The
4226 simulation data have been used to calculate the flexoelectric coefficients
4227 e(s) and e(b) using the linear response formalism of Osipov and
4228 Nemtsov [M. A. Osipov and V. B. Nemtsov, Sov. Phys. Crstallogr.
4229 31, 125 (1986)]. The temperature and order parameter dependence
4230 of e(s) and e(b) are examined, as are separate contributions from
4231 different intermolecular interactions. Values of e(s) and e(b) calculated
4232 from simulation are consistent with those found from experiment.
4233 (C) 2004 American Institute of Physics.},
4234 Annote = {866UM Times Cited:4 Cited References Count:61},
4235 Author = {D. L. Cheung and S. J. Clark and M. R. Wilson},
4236 Issn = {0021-9606},
4237 Journal = jcp,
4238 Month = {Nov 8},
4239 Number = 18,
4240 Pages = {9131-9139},
4241 Title = {Calculation of flexoelectric coefficients for a nematic liquid crystal by atomistic simulation},
4242 Uri = {<Go to ISI>://000224798900053},
4243 Volume = 121,
4244 Year = 2004}
4245
4246 @article{Cheung2002,
4247 Abstract = {Equilibrium molecular dynamics calculations have been performed for
4248 the liquid crystal molecule n-4-(trans-4-npentylcyclohexyl)benzonitrile
4249 (PCH5) using a fully atomistic model. Simulation data has been obtained
4250 for a series of temperatures in the nematic phase. The rotational
4251 viscosity co-efficient gamma(1), has been calculated using the angular
4252 velocity correlation function of the nematic director, n, the mean
4253 squared diffusion of n and statistical mechanical methods based
4254 on the rotational diffusion co-efficient. We find good agreement
4255 between the first two methods and experimental values. (C) 2002
4256 Published by Elsevier Science B.V.},
4257 Annote = {547KF Times Cited:8 Cited References Count:31},
4258 Author = {D. L. Cheung and S. J. Clark and M. R. Wilson},
4259 Issn = {0009-2614},
4260 Journal = {Chemical Physics Letters},
4261 Month = {Apr 15},
4262 Number = {1-2},
4263 Pages = {140-146},
4264 Title = {Calculation of the rotational viscosity of a nematic liquid crystal},
4265 Uri = {<Go to ISI>://000175331000020},
4266 Volume = 356,
4267 Year = 2002}
4268
4269 @article{Chin2004,
4270 Abstract = {Current molecular dynamics simulations of biomolecules using multiple
4271 time steps to update the slowly changing force are hampered by instabilities
4272 beginning at time steps near the half period of the fastest vibrating
4273 mode. These #resonance# instabilities have became a critical barrier
4274 preventing the long time simulation of biomolecular dynamics. Attempts
4275 to tame these instabilities by altering the slowly changing force
4276 and efforts to damp them out by Langevin dynamics do not address
4277 the fundamental cause of these instabilities. In this work, we trace
4278 the instability to the nonanalytic character of the underlying spectrum
4279 and show that a correct splitting of the Hamiltonian, which renders
4280 the spectrum analytic, restores stability. The resulting Hamiltonian
4281 dictates that in addition to updating the momentum due to the slowly
4282 changing force, one must also update the position with a modified
4283 mass. Thus multiple-time stepping must be done dynamically. (C)
4284 2004 American Institute of Physics.},
4285 Annote = {757TK Times Cited:1 Cited References Count:22},
4286 Author = {S. A. Chin},
4287 Issn = {0021-9606},
4288 Journal = jcp,
4289 Month = {Jan 1},
4290 Number = 1,
4291 Pages = {8-13},
4292 Title = {Dynamical multiple-time stepping methods for overcoming resonance instabilities},
4293 Uri = {<Go to ISI>://000187577400003},
4294 Volume = 120,
4295 Year = 2004}
4296
4297 @article{Cook2000,
4298 Abstract = {The Kirkwood correlation factor g(1) determines the preference for
4299 local parallel or antiparallel dipole association in the isotropic
4300 phase. Calamitic mesogens with longitudinal dipole moments and Kirkwood
4301 factors greater than 1 have an enhanced effective dipole moment
4302 along the molecular long axis. This leads to higher values of Delta
4303 epsilon in the nematic phase. This paper describes state-of-the-art
4304 molecular dynamics simulations of two calamitic mesogens 4-(trans-4-n-pentylcyclohexyl)benzonitrile
4305 (PCH5) and 4-(trans-4-n-pentylcyclohexyl) chlorobenzene (PCH5-Cl)
4306 in the isotropic liquid phase using an all-atom force field and
4307 taking long range electrostatics into account using an Ewald summation.
4308 Using this methodology, PCH5 is seen to prefer antiparallel dipole
4309 alignment with a negative g(1) and PCH5-Cl is seen to prefer parallel
4310 dipole alignment with a positive g(1); this is in accordance with
4311 experimental dielectric measurements. Analysis of the molecular
4312 dynamics trajectories allows an assessment of why these molecules
4313 behave differently.},
4314 Annote = {376BF Times Cited:10 Cited References Count:16},
4315 Author = {M. J. Cook and M. R. Wilson},
4316 Issn = {0267-8292},
4317 Journal = {Liquid Crystals},
4318 Month = {Dec},
4319 Number = 12,
4320 Pages = {1573-1583},
4321 Title = {Simulation studies of dipole correlation in the isotropic liquid phase},
4322 Uri = {<Go to ISI>://000165437800002},
4323 Volume = 27,
4324 Year = 2000}
4325
4326 @article{Cui2003,
4327 Abstract = {All-atom Langevin dynamics simulations have been performed to study
4328 the folding pathways of the 18-residue binding domain fragment E6ap
4329 of the human papillomavirus E6 interacting peptide. Six independent
4330 folding trajectories, with a total duration of nearly 2 mus, all
4331 lead to the same native state in which the E6ap adopts a fluctuating
4332 a-helix structure in the central portion (Ser-4-Leu-13) but with
4333 very flexible N and C termini. Simulations starting from different
4334 core configurations exhibit the E6ap folding dynamics as either
4335 a two- or three-state folder with an intermediate misfolded state.
4336 The essential leucine hydrophobic core (Leu-9, Leu-12, and Leu-13)
4337 is well conserved in the native-state structure but absent in the
4338 intermediate structure, suggesting that the leucine core is not
4339 only essential for the binding activity of E6ap but also important
4340 for the stability of the native structure. The free energy landscape
4341 reveals a significant barrier between the basins separating the
4342 native and misfolded states. We also discuss the various underlying
4343 forces that drive the peptide into its native state.},
4344 Annote = {689LC Times Cited:3 Cited References Count:48},
4345 Author = {B. X. Cui and M. Y. Shen and K. F. Freed},
4346 Issn = {0027-8424},
4347 Journal = pnas,
4348 Month = {Jun 10},
4349 Number = 12,
4350 Pages = {7087-7092},
4351 Title = {Folding and misfolding of the papillomavirus E6 interacting peptide E6ap},
4352 Uri = {<Go to ISI>://000183493500037},
4353 Volume = 100,
4354 Year = 2003}
4355
4356 @article{Denisov2003,
4357 Abstract = {We study the slow phase of thermally activated magnetic relaxation
4358 in finite two-dimensional ensembles of dipolar interacting ferromagnetic
4359 nanoparticles whose easy axes of magnetization are perpendicular
4360 to the distribution plane. We develop a method to numerically simulate
4361 the magnetic relaxation for the case that the smallest heights of
4362 the potential barriers between the equilibrium directions of the
4363 nanoparticle magnetic moments are much larger than the thermal energy.
4364 Within this framework, we analyze in detail the role that the correlations
4365 of the nanoparticle magnetic moments and the finite size of the
4366 nanoparticle ensemble play in magnetic relaxation.},
4367 Annote = {642XH Times Cited:11 Cited References Count:31},
4368 Author = {S. I. Denisov and T. V. Lyutyy and K. N. Trohidou},
4369 Issn = {1098-0121},
4370 Journal = {Physical Review B},
4371 Month = {Jan 1},
4372 Number = 1,
4373 Pages = {-},
4374 Title = {Magnetic relaxation in finite two-dimensional nanoparticle ensembles},
4375 Uri = {<Go to ISI>://000180830400056},
4376 Volume = 67,
4377 Year = 2003}
4378
4379 @article{Derreumaux1998,
4380 Abstract = {To explore the origin of the large-scale motion of triosephosphate
4381 isomerase's flexible loop (residues 166 to 176) at the active site,
4382 several simulation protocols are employed both for the free enzyme
4383 in vacuo and for the free enzyme with some solvent modeling: high-temperature
4384 Langevin dynamics simulations, sampling by a #dynamics##driver#
4385 approach, and potential-energy surface calculations. Our focus is
4386 on obtaining the energy barrier to the enzyme's motion and establishing
4387 the nature of the loop movement. Previous calculations did not determine
4388 this energy barrier and the effect of solvent on the barrier. High-temperature
4389 molecular dynamics simulations and crystallographic studies have
4390 suggested a rigid-body motion with two hinges located at both ends
4391 of the loop; Brownian dynamics simulations at room temperature pointed
4392 to a very flexible behavior. The present simulations and analyses
4393 reveal that although solute/solvent hydrogen bonds play a crucial
4394 role in lowering the energy along the pathway, there still remains
4395 a high activation barrier, This finding clearly indicates that,
4396 if the loop opens and closes in the absence of a substrate at standard
4397 conditions (e.g., room temperature, appropriate concentration of
4398 isomerase), the time scale for transition is not in the nanosecond
4399 but rather the microsecond range. Our results also indicate that
4400 in the context of spontaneous opening in the free enzyme, the motion
4401 is of rigid-body type and that the specific interaction between
4402 residues Ala(176) and Tyr(208) plays a crucial role in the loop
4403 opening/closing mechanism.},
4404 Annote = {Zl046 Times Cited:30 Cited References Count:29},
4405 Author = {P. Derreumaux and T. Schlick},
4406 Issn = {0006-3495},
4407 Journal = bj,
4408 Month = {Jan},
4409 Number = 1,
4410 Pages = {72-81},
4411 Title = {The loop opening/closing motion of the enzyme triosephosphate isomerase},
4412 Uri = {<Go to ISI>://000073393400009},
4413 Volume = 74,
4414 Year = 1998}
4415
4416 @article{Dullweber1997,
4417 Abstract = {Rigid body molecular models possess symplectic structure and time-reversal
4418 symmetry. Standard numerical integration methods destroy both properties,
4419 introducing nonphysical dynamical behavior such as numerically induced
4420 dissipative states and drift in the energy during long term simulations.
4421 This article describes the construction, implementation, and practical
4422 application of fast explicit symplectic-reversible integrators for
4423 multiple rigid body molecular simulations, These methods use a reduction
4424 to Euler equations for the free rigid body, together with a symplectic
4425 splitting technique. In every time step, the orientational dynamics
4426 of each rigid body is integrated by a sequence of planar rotations.
4427 Besides preserving the symplectic and reversible structures of the
4428 flow, this scheme accurately conserves the total angular momentum
4429 of a system of interacting rigid bodies. Excellent energy conservation
4430 fan be obtained relative to traditional methods, especially in long-time
4431 simulations. The method is implemented in a research code, ORIENT
4432 and compared with a quaternion/extrapolation scheme for the TIP4P
4433 model of water. Our experiments show that the symplectic-reversible
4434 scheme is far superior to the more traditional quaternion method.
4435 (C) 1997 American Institute of Physics.},
4436 Annote = {Ya587 Times Cited:35 Cited References Count:32},
4437 Author = {A. Dullweber and B. Leimkuhler and R. McLachlan},
4438 Issn = {0021-9606},
4439 Journal = jcp,
4440 Month = {Oct 15},
4441 Number = 15,
4442 Pages = {5840-5851},
4443 Title = {Symplectic splitting methods for rigid body molecular dynamics},
4444 Uri = {<Go to ISI>://A1997YA58700024},
4445 Volume = 107,
4446 Year = 1997}
4447
4448 @book{Gamma1994,
4449 Address = {London},
4450 Author = {E. Gamma, R. Helm, R. Johnson and J. Vlissides},
4451 Chapter = 7,
4452 Publisher = {Perason Education},
4453 Title = {Design Patterns: Elements of Reusable Object-Oriented Software},
4454 Year = 1994}
4455
4456 @article{Edwards2005,
4457 Abstract = {Using the Langevin dynamics technique, we have carried out simulations
4458 of a single-chain flexible diblock copolymer. The polymer consists
4459 of two blocks of equal length, one very poorly solvated and the
4460 other close to theta-conditions. We study what happens when such
4461 a polymer is stretched, for a range of different stretching speeds,
4462 and correlate our observations with features in the plot of force
4463 vs extension. We find that at slow speeds this force profile does
4464 not increase monotonically, in disagreement with earlier predictions,
4465 and that at high speeds there is a strong dependence on which end
4466 of the polymer is pulled, as well as a high level of hysteresis.},
4467 Annote = {992EC Times Cited:0 Cited References Count:13},
4468 Author = {S. A. Edwards and D. R. M. Williams},
4469 Issn = {0024-9297},
4470 Journal = {Macromolecules},
4471 Month = {Dec 13},
4472 Number = 25,
4473 Pages = {10590-10595},
4474 Title = {Stretching a single diblock copolymer in a selective solvent: Langevin dynamics simulations},
4475 Uri = {<Go to ISI>://000233866200035},
4476 Volume = 38,
4477 Year = 2005}
4478
4479 @article{Egberts1988,
4480 Annote = {Q0188 Times Cited:219 Cited References Count:43},
4481 Author = {E. Egberts and H. J. C. Berendsen},
4482 Issn = {0021-9606},
4483 Journal = jcp,
4484 Month = {Sep 15},
4485 Number = 6,
4486 Pages = {3718-3732},
4487 Title = {Molecular-Dynamics Simulation of a Smectic Liquid-Crystal with Atomic Detail},
4488 Uri = {<Go to ISI>://A1988Q018800036},
4489 Volume = 89,
4490 Year = 1988}
4491
4492 @article{Ermak1978,
4493 Annote = {Fp216 Times Cited:785 Cited References Count:42},
4494 Author = {D. L. Ermak and J. A. Mccammon},
4495 Issn = {0021-9606},
4496 Journal = jcp,
4497 Number = 4,
4498 Pages = {1352-1360},
4499 Title = {Brownian Dynamics with Hydrodynamic Interactions},
4500 Uri = {<Go to ISI>://A1978FP21600004},
4501 Volume = 69,
4502 Year = 1978}
4503
4504 @article{Evans1977,
4505 Annote = {Ds757 Times Cited:271 Cited References Count:18},
4506 Author = {D. J. Evans},
4507 Issn = {0026-8976},
4508 Journal = mp,
4509 Number = 2,
4510 Pages = {317-325},
4511 Title = {Representation of Orientation Space},
4512 Uri = {<Go to ISI>://A1977DS75700002},
4513 Volume = 34,
4514 Year = 1977}
4515
4516 @article{Fennell2004,
4517 Abstract = {The density maximum and temperature dependence of the self-diffusion
4518 constant were investigated for the soft sticky dipole (SSD) water
4519 model and two related reparametrizations of this single-point model.
4520 A combination of microcanonical and isobaric-isothermal molecular
4521 dynamics simulations was used to calculate these properties, both
4522 with and without the use of reaction field to handle long-range
4523 electrostatics. The isobaric-isothermal simulations of the melting
4524 of both ice-I-h and ice-I-c showed a density maximum near 260 K.
4525 In most cases, the use of the reaction field resulted in calculated
4526 densities which were significantly lower than experimental densities.
4527 Analysis of self-diffusion constants shows that the original SSD
4528 model captures the transport properties of experimental water very
4529 well in both the normal and supercooled liquid regimes. We also
4530 present our reparametrized versions of SSD for use both with the
4531 reaction field or without any long-range electrostatic corrections.
4532 These are called the SSD/RF and SSD/E models, respectively. These
4533 modified models were shown to maintain or improve upon the experimental
4534 agreement with the structural and transport properties that can
4535 be obtained with either the original SSD or the density-corrected
4536 version of the original model (SSD1). Additionally, a novel low-density
4537 ice structure is presented which appears to be the most stable ice
4538 structure for the entire SSD family. (C) 2004 American Institute
4539 of Physics.},
4540 Annote = {816YY Times Cited:5 Cited References Count:39},
4541 Author = {C. J. Fennell and J. D. Gezelter},
4542 Issn = {0021-9606},
4543 Journal = jcp,
4544 Month = {May 15},
4545 Number = 19,
4546 Pages = {9175-9184},
4547 Title = {On the structural and transport properties of the soft sticky dipole and related single-point water models},
4548 Uri = {<Go to ISI>://000221146400032},
4549 Volume = 120,
4550 Year = 2004}
4551
4552 @article{Fernandes2002,
4553 Abstract = {We have developed a Brownian dynamics simulation algorithm to generate
4554 Brownian trajectories of an isolated, rigid particle of arbitrary
4555 shape in the presence of electric fields or any other external agents.
4556 Starting from the generalized diffusion tensor, which can be calculated
4557 with the existing HYDRO software, the new program BROWNRIG (including
4558 a case-specific subprogram for the external agent) carries out a
4559 simulation that is analyzed later to extract the observable dynamic
4560 properties. We provide a variety of examples of utilization of this
4561 method, which serve as tests of its performance, and also illustrate
4562 its applicability. Examples include free diffusion, transport in
4563 an electric field, and diffusion in a restricting environment.},
4564 Annote = {633AD Times Cited:2 Cited References Count:43},
4565 Author = {M. X. Fernandes and {Garc\'{i}a de la Torre}, Jose},
4566 Issn = {0006-3495},
4567 Journal = bj,
4568 Month = {Dec},
4569 Number = 6,
4570 Pages = {3039-3048},
4571 Title = {Brownian dynamics simulation of rigid particles of arbitrary shape in external fields},
4572 Uri = {<Go to ISI>://000180256300012},
4573 Volume = 83,
4574 Year = 2002}
4575
4576 @book{Frenkel1996,
4577 Address = {New York},
4578 Author = {D. Frenkel and B. Smit},
4579 Publisher = {Academic Press},
4580 Title = {Understanding Molecular Simulation : From Algorithms to Applications},
4581 Year = 1996}
4582
4583 @article{Gay1981,
4584 Annote = {Lj347 Times Cited:482 Cited References Count:13},
4585 Author = {J. G. Gay and B. J. Berne},
4586 Issn = {0021-9606},
4587 Journal = jcp,
4588 Number = 6,
4589 Pages = {3316-3319},
4590 Title = {Modification of the Overlap Potential to Mimic a Linear Site-Site Potential},
4591 Uri = {<Go to ISI>://A1981LJ34700029},
4592 Volume = 74,
4593 Year = 1981}
4594
4595 @article{Gelin1999,
4596 Abstract = {To investigate the influence of inertial effects on the dynamics of
4597 an assembly of beads subjected to rigid constraints and placed in
4598 a buffer medium, a convenient method to introduce suitable generalized
4599 coordinates is presented. Without any restriction on the nature
4600 of the soft forces involved (both stochastic and deterministic),
4601 pertinent Langevin equations are derived. Provided that the Brownian
4602 forces are Gaussian and Markovian, the corresponding Fokker-Planck
4603 equation (FPE) is obtained in the complete phase space of generalized
4604 coordinates and momenta. The correct short time behavior for correlation
4605 functions (CFs) of generalized coordinates is established, and the
4606 diffusion equation with memory (DEM) is deduced from the FPE in
4607 the high friction Limit. The DEM is invoked to perform illustrative
4608 calculations in two dimensions of the orientational CFs for once
4609 broken nonrigid rods immobilized on a surface. These calculations
4610 reveal that the CFs under certain conditions exhibit an oscillatory
4611 behavior, which is irreproducible within the standard diffusion
4612 equation. Several methods are considered for the approximate solution
4613 of the DEM, and their application to three dimensional DEMs is discussed.},
4614 Annote = {257MM Times Cited:2 Cited References Count:82},
4615 Author = {M. F. Gelin},
4616 Issn = {1022-1344},
4617 Journal = {Macromolecular Theory and Simulations},
4618 Month = {Nov},
4619 Number = 6,
4620 Pages = {529-543},
4621 Title = {Inertial effects in the Brownian dynamics with rigid constraints},
4622 Uri = {<Go to ISI>://000083785700002},
4623 Volume = 8,
4624 Year = 1999}
4625
4626 @article{Goetz1998,
4627 Author = {R. Goetz and R. Lipowsky},
4628 Journal = jcp,
4629 Number = 17,
4630 Pages = 7397,
4631 Title = {Computer simulations of bilayer membranes: Self-assembly and interfacial tension},
4632 Volume = 108,
4633 Year = 1998}
4634
4635 @book{Goldstein2001,
4636 Address = {San Francisco},
4637 Author = {H. Goldstein and C. Poole and J. Safko},
4638 Edition = {3rd},
4639 Publisher = {Addison Wesley},
4640 Title = {Classical Mechanics},
4641 Year = 2001}
4642
4643 @article{Gray2003,
4644 Abstract = {Protein-protein docking algorithms provide a means to elucidate structural
4645 details for presently unknown complexes. Here, we present and evaluate
4646 a new method to predict protein-protein complexes from the coordinates
4647 of the unbound monomer components. The method employs a low-resolution,
4648 rigid-body, Monte Carlo search followed by simultaneous optimization
4649 of backbone displacement and side-chain conformations using Monte
4650 Carlo minimization. Up to 10(5) independent simulations are carried
4651 out, and the resulting #decoys# are ranked using an energy function
4652 dominated by van der Waals interactions, an implicit solvation model,
4653 and an orientation-dependent hydrogen bonding potential. Top-ranking
4654 decoys are clustered to select the final predictions. Small-perturbation
4655 studies reveal the formation of binding funnels in 42 of 54 cases
4656 using coordinates derived from the bound complexes and in 32 of
4657 54 cases using independently determined coordinates of one or both
4658 monomers. Experimental binding affinities correlate with the calculated
4659 score function and explain the predictive success or failure of
4660 many targets. Global searches using one or both unbound components
4661 predict at least 25% of the native residue-residue contacts in 28
4662 of the 32 cases where binding funnels exist. The results suggest
4663 that the method may soon be useful for generating models of biologically
4664 important complexes from the structures of the isolated components,
4665 but they also highlight the challenges that must be met to achieve
4666 consistent and accurate prediction of protein-protein interactions.
4667 (C) 2003 Elsevier Ltd. All rights reserved.},
4668 Annote = {704QL Times Cited:48 Cited References Count:60},
4669 Author = {J. J. Gray and S. Moughon and C. Wang and O. Schueler-Furman and B. Kuhlman and C. A. Rohl and D. Baker},
4670 Issn = {0022-2836},
4671 Journal = jmb,
4672 Month = {Aug 1},
4673 Number = 1,
4674 Pages = {281-299},
4675 Title = {Protein-protein docking with simultaneous optimization of rigid-body displacement and side-chain conformations},
4676 Uri = {<Go to ISI>://000184351300022},
4677 Volume = 331,
4678 Year = 2003}
4679
4680 @article{Greengard1994,
4681 Abstract = {Some of the recently developed fast summation methods that have arisen
4682 in scientific computing are described. These methods require an
4683 amount of work proportional to N or N log N to evaluate all pairwise
4684 interactions in an ensemble of N particles. Traditional methods,
4685 by contrast, require an amount of work proportional to N-2. AS a
4686 result, large-scale simulations can be carried out using only modest
4687 computer resources. In combination with supercomputers, it is possible
4688 to address questions that were previously out of reach. Problems
4689 from diffusion, gravitation, and wave propagation are considered.},
4690 Annote = {Pb499 Times Cited:99 Cited References Count:44},
4691 Author = {L. Greengard},
4692 Issn = {0036-8075},
4693 Journal = {Science},
4694 Month = {Aug 12},
4695 Number = 5174,
4696 Pages = {909-914},
4697 Title = {Fast Algorithms for Classical Physics},
4698 Uri = {<Go to ISI>://A1994PB49900031},
4699 Volume = 265,
4700 Year = 1994}
4701
4702 @article{Greengard1987,
4703 Annote = {L0498 Times Cited:899 Cited References Count:7},
4704 Author = {L. Greengard and V. Rokhlin},
4705 Issn = {0021-9991},
4706 Journal = jcop,
4707 Month = {Dec},
4708 Number = 2,
4709 Pages = {325-348},
4710 Title = {A Fast Algorithm for Particle Simulations},
4711 Uri = {<Go to ISI>://A1987L049800006},
4712 Volume = 73,
4713 Year = 1987}
4714
4715 @article{Hairer1997,
4716 Abstract = {Backward error analysis is a useful tool for the study of numerical
4717 approximations to ordinary differential equations. The numerical
4718 solution is formally interpreted as the exact solution of a perturbed
4719 differential equation, given as a formal and usually divergent series
4720 in powers of the step size. For a rigorous analysis, this series
4721 has to be truncated. In this article we study the influence of this
4722 truncation to the difference between the numerical solution and
4723 the exact solution of the perturbed differential equation. Results
4724 on the long-time behaviour of numerical solutions are obtained in
4725 this way. We present applications to the numerical phase portrait
4726 near hyperbolic equilibrium points, to asymptotically stable periodic
4727 orbits and Hopf bifurcation, and to energy conservation and approximation
4728 of invariant tori in Hamiltonian systems.},
4729 Annote = {Xj488 Times Cited:50 Cited References Count:19},
4730 Author = {E. Hairer and C. Lubich},
4731 Issn = {0029-599X},
4732 Journal = {Numerische Mathematik},
4733 Month = {Jun},
4734 Number = 4,
4735 Pages = {441-462},
4736 Title = {The life-span of backward error analysis for numerical integrators},
4737 Uri = {<Go to ISI>://A1997XJ48800002},
4738 Volume = 76,
4739 Year = 1997}
4740
4741 @article{Hao1993,
4742 Abstract = {A new procedure for studying the folding and unfolding of proteins,
4743 with an application to bovine pancreatic trypsin inhibitor (BPTI),
4744 is reported. The unfolding and refolding of the native structure
4745 of the protein are characterized by the dimensions of the protein,
4746 expressed in terms of the three principal radii of the structure
4747 considered as an ellipsoid. A dynamic equation, describing the variations
4748 of the principal radii on the unfolding path, and a numerical procedure
4749 to solve this equation are proposed. Expanded and distorted conformations
4750 are refolded to the native structure by a dimensional-constraint
4751 energy minimization procedure. A unique and reproducible unfolding
4752 pathway for an intermediate of BPTI lacking the [30,51] disulfide
4753 bond is obtained. The resulting unfolded conformations are extended;
4754 they contain near-native local structure, but their longest principal
4755 radii are more than 2.5 times greater than that of the native structure.
4756 The most interesting finding is that the majority of expanded conformations,
4757 generated under various conditions, can be refolded closely to the
4758 native structure, as measured by the correct overall chain fold,
4759 by the rms deviations from the native structure of only 1.9-3.1
4760 angstrom, and by the energy differences of about 10 kcal/mol from
4761 the native structure. Introduction of the [30,51] disulfide bond
4762 at this stage, followed by minimization, improves the closeness
4763 of the refolded structures to the native structure, reducing the
4764 rms deviations to 0.9-2.0 angstrom. The unique refolding of these
4765 expanded structures over such a large conformational space implies
4766 that the folding is strongly dictated by the interactions in the
4767 amino acid sequence of BPTI. The simulations indicate that, under
4768 conditions that favor a compact structure as mimicked by the volume
4769 constraints in our algorithm; the expanded conformations have a
4770 strong tendency to move toward the native structure; therefore,
4771 they probably would be favorable folding intermediates. The results
4772 presented here support a general model for protein folding, i.e.,
4773 progressive formation of partially folded structural units, followed
4774 by collapse to the compact native structure. The general applicability
4775 of the procedure is also discussed.},
4776 Annote = {Ly294 Times Cited:27 Cited References Count:57},
4777 Author = {M. H. Hao and M. R. Pincus and S. Rackovsky and H. A. Scheraga},
4778 Issn = {0006-2960},
4779 Journal = {Biochemistry},
4780 Month = {Sep 21},
4781 Number = 37,
4782 Pages = {9614-9631},
4783 Title = {Unfolding and Refolding of the Native Structure of Bovine Pancreatic Trypsin-Inhibitor Studied by Computer-Simulations},
4784 Uri = {<Go to ISI>://A1993LY29400014},
4785 Volume = 32,
4786 Year = 1993}
4787
4788 @article{Hinsen2000,
4789 Abstract = {The slow dynamics of proteins around its native folded state is usually
4790 described by diffusion in a strongly anharmonic potential. In this
4791 paper, we try to understand the form and origin of the anharmonicities,
4792 with the principal aim of gaining a better understanding of the
4793 principal motion types, but also in order to develop more efficient
4794 numerical methods for simulating neutron scattering spectra of large
4795 proteins. First, we decompose a molecular dynamics (MD) trajectory
4796 of 1.5 ns for a C-phycocyanin dimer surrounded by a layer of water
4797 into three contributions that we expect to be independent: the global
4798 motion of the residues, the rigid-body motion of the sidechains
4799 relative to the backbone, and the internal deformations of the sidechains.
4800 We show that they are indeed almost independent by verifying the
4801 factorization of the incoherent intermediate scattering function.
4802 Then, we show that the global residue motions, which include all
4803 large-scale backbone motions, can be reproduced by a simple harmonic
4804 model which contains two contributions: a short-time vibrational
4805 term, described by a standard normal mode calculation in a local
4806 minimum, and a long-time diffusive term, described by Brownian motion
4807 in an effective harmonic potential. The potential and the friction
4808 constants were fitted to the MD data. The major anharmonic contribution
4809 to the incoherent intermediate scattering function comes from the
4810 rigid-body diffusion of the sidechains. This model can be used to
4811 calculate scattering functions for large proteins and for long-time
4812 scales very efficiently, and thus provides a useful complement to
4813 MD simulations, which are best suited for detailed studies on smaller
4814 systems or for shorter time scales. (C) 2000 Elsevier Science B.V.
4815 All rights reserved.},
4816 Annote = {Sp. Iss. SI 368MT Times Cited:16 Cited References Count:31},
4817 Author = {K. Hinsen and A. J. Petrescu and S. Dellerue and M. C. Bellissent-Funel and G. R. Kneller},
4818 Issn = {0301-0104},
4819 Journal = {Chemical Physics},
4820 Month = {Nov 1},
4821 Number = {1-2},
4822 Pages = {25-37},
4823 Title = {Harmonicity in slow protein dynamics},
4824 Uri = {<Go to ISI>://000090121700003},
4825 Volume = 261,
4826 Year = 2000}
4827
4828 @article{Ho1992,
4829 Abstract = {Evidence has been found for the existence water at the protein-lipid
4830 hydrophobic interface ot the membrane proteins, gramicidin and apocytochrome
4831 C, using two related fluorescence spectroscopic approaches. The
4832 first approach exploited the fact that the presence of water in
4833 the excited state solvent cage of a fluorophore increases the rate
4834 of decay. For 1,6-diphenyl-1,3,5-hexatriene (DPH) and 1-palmitoyl-2-[[2-[4-(6-phenyl-trans-1,3,5-hexatrienyl)
4835 phenyl]ethyl]carbonyl]-3-sn-PC (DPH-PC), where the fluorophores
4836 are located in the hydrophobic core of the lipid bilayer, the introduction
4837 of gramicidin reduced the fluorescence lifetime, indicative of an
4838 increased presence of water in the bilayer. Since a high protein:lipid
4839 ratio was used, the fluorophores were forced to be adjacent to the
4840 protein hydrophobic surface, hence the presence of water in this
4841 region could be inferred. Cholesterol is known to reduce the water
4842 content of lipid bilayers and this effect was maintained at the
4843 protein-lipid interface with both gramicidin and apocytochrome C,
4844 again suggesting hydration in this region. The second approach was
4845 to use the fluorescence enhancement induced by exchanging deuterium
4846 oxide (D2O) for H2O. Both the fluorescence intensities of trimethylammonium-DPH,
4847 located in the lipid head group region, and of the gramicidin intrinsic
4848 tryptophans were greater in a D2O buffer compared with H2O, showing
4849 that the fluorophores were exposed to water in the bilayer at the
4850 protein-lipid interface. In the presence of cholesterol the fluorescence
4851 intensity ratio of D2O to H2O decreased, indicating a removal of
4852 water by the cholesterol, in keeping with the lifetime data. Altered
4853 hydration at the protein-lipid interface could affect conformation,
4854 thereby offering a new route by which membrane protein functioning
4855 may be modified.},
4856 Annote = {Ju251 Times Cited:55 Cited References Count:44},
4857 Author = {C. Ho and C. D. Stubbs},
4858 Issn = {0006-3495},
4859 Journal = bj,
4860 Month = {Oct},
4861 Number = 4,
4862 Pages = {897-902},
4863 Title = {Hydration at the Membrane Protein-Lipid Interface},
4864 Uri = {<Go to ISI>://A1992JU25100002},
4865 Volume = 63,
4866 Year = 1992}
4867
4868 @book{Hockney1981,
4869 Address = {New York},
4870 Author = {R.W. Hockney and J.W. Eastwood},
4871 Publisher = {McGraw-Hill},
4872 Title = {Computer Simulation Using Particles},
4873 Year = 1981}
4874
4875 @article{Hoover1985,
4876 Annote = {Acr30 Times Cited:1809 Cited References Count:11},
4877 Author = {W. G. Hoover},
4878 Issn = {1050-2947},
4879 Journal = {Physical Review A},
4880 Number = 3,
4881 Pages = {1695-1697},
4882 Title = {Canonical Dynamics - Equilibrium Phase-Space Distributions},
4883 Uri = {<Go to ISI>://A1985ACR3000056},
4884 Volume = 31,
4885 Year = 1985}
4886
4887 @article{Huh2004,
4888 Abstract = {Racemic fluids of chiral calamitic molecules are investigated with
4889 molecular dynamics simulations. In particular, the phase behavior
4890 as a function of density is examined for eight racemates. The relationship
4891 between chiral discrimination and orientational order in the phase
4892 is explored. We find that the transition from the isotropic phase
4893 to a liquid crystal phase is accompanied by an increase in chiral
4894 discrimination, as measured by differences in radial distributions.
4895 Among ordered phases, discrimination is largest for smectic phases
4896 with a significant preference for heterochiral contact within the
4897 layers. (C) 2004 American Institute of Physics.},
4898 Annote = {870FJ Times Cited:0 Cited References Count:63},
4899 Author = {Y. Huh and N. M. Cann},
4900 Issn = {0021-9606},
4901 Journal = jcp,
4902 Month = {Nov 22},
4903 Number = 20,
4904 Pages = {10299-10308},
4905 Title = {Discrimination in isotropic, nematic, and smectic phases of chiral calamitic molecules: A computer simulation study},
4906 Uri = {<Go to ISI>://000225042700059},
4907 Volume = 121,
4908 Year = 2004}
4909
4910 @article{Humphrey1996,
4911 Abstract = {VMD is a molecular graphics program designed for the display and analysis
4912 of molecular assemblies, in particular biopolymers such as proteins
4913 and nucleic acids. VMD can simultaneously display any number of
4914 structures using a wide variety of rendering styles and coloring
4915 methods. Molecules are displayed as one or more ''representations,''
4916 in which each representation embodies a particular rendering method
4917 and coloring scheme for a selected subset of atoms. The atoms displayed
4918 in each representation are chosen using an extensive atom selection
4919 syntax, which includes Boolean operators and regular expressions.
4920 VMD provides a complete graphical user interface for program control,
4921 as well as a text interface using the Tcl embeddable parser to allow
4922 for complex scripts with variable substitution, control loops, and
4923 function calls. Full session logging is supported, which produces
4924 a VMD command script for later playback. High-resolution raster
4925 images of displayed molecules may be produced by generating input
4926 scripts for use by a number of photorealistic image-rendering applications.
4927 VMD has also been expressly designed with the ability to animate
4928 molecular dynamics (MD) simulation trajectories, imported either
4929 from files or from a direct connection to a running MD simulation.
4930 VMD is the visualization component of MDScope, a set of tools for
4931 interactive problem solving in structural biology, which also includes
4932 the parallel MD program NAMD, and the MDCOMM software used to connect
4933 the visualization and simulation programs. VMD is written in C++,
4934 using an object-oriented design; the program, including source code
4935 and extensive documentation, is freely available via anonymous ftp
4936 and through the World Wide Web.},
4937 Annote = {Uh515 Times Cited:1418 Cited References Count:19},
4938 Author = {W. Humphrey and A. Dalke and K. Schulten},
4939 Issn = {0263-7855},
4940 Journal = {Journal of Molecular Graphics},
4941 Month = {Feb},
4942 Number = 1,
4943 Pages = {33-\&},
4944 Title = {VMD: Visual molecular dynamics},
4945 Uri = {<Go to ISI>://A1996UH51500005},
4946 Volume = 14,
4947 Year = 1996}
4948
4949 @article{Izaguirre2001,
4950 Abstract = {In this paper we show the possibility of using very mild stochastic
4951 damping to stabilize long time step integrators for Newtonian molecular
4952 dynamics. More specifically, stable and accurate integrations are
4953 obtained for damping coefficients that are only a few percent of
4954 the natural decay rate of processes of interest, such as the velocity
4955 autocorrelation function. Two new multiple time stepping integrators,
4956 Langevin Molly (LM) and Brunger-Brooks-Karplus-Molly (BBK-M), are
4957 introduced in this paper. Both use the mollified impulse method
4958 for the Newtonian term. LM uses a discretization of the Langevin
4959 equation that is exact for the constant force, and BBK-M uses the
4960 popular Brunger-Brooks-Karplus integrator (BBK). These integrators,
4961 along with an extrapolative method called LN, are evaluated across
4962 a wide range of damping coefficient values. When large damping coefficients
4963 are used, as one would for the implicit modeling of solvent molecules,
4964 the method LN is superior, with LM closely following. However, with
4965 mild damping of 0.2 ps(-1), LM produces the best results, allowing
4966 long time steps of 14 fs in simulations containing explicitly modeled
4967 flexible water. With BBK-M and the same damping coefficient, time
4968 steps of 12 fs are possible for the same system. Similar results
4969 are obtained for a solvated protein-DNA simulation of estrogen receptor
4970 ER with estrogen response element ERE. A parallel version of BBK-M
4971 runs nearly three times faster than the Verlet-I/r-RESPA (reversible
4972 reference system propagator algorithm) when using the largest stable
4973 time step on each one, and it also parallelizes well. The computation
4974 of diffusion coefficients for flexible water and ER/ERE shows that
4975 when mild damping of up to 0.2 ps-1 is used the dynamics are not
4976 significantly distorted. (C) 2001 American Institute of Physics.},
4977 Annote = {397CQ Times Cited:14 Cited References Count:36},
4978 Author = {J. A. Izaguirre and D. P. Catarello and J. M. Wozniak and R. D. Skeel},
4979 Issn = {0021-9606},
4980 Journal = jcp,
4981 Month = {Feb 1},
4982 Number = 5,
4983 Pages = {2090-2098},
4984 Title = {Langevin stabilization of molecular dynamics},
4985 Uri = {<Go to ISI>://000166676100020},
4986 Volume = 114,
4987 Year = 2001}
4988
4989 @article{Torre1977,
4990 Author = {{Garc\'{i}a de la Torre}, Jose and V.~A. Bloomfield},
4991 Journal = {Biopolymers},
4992 Pages = {1747-1763},
4993 Title = {Hydrodynamic properties of macromolecular complexes. I. Translation},
4994 Volume = 16,
4995 Year = 1977}
4996
4997 @article{Kale1999,
4998 Abstract = {Molecular dynamics programs simulate the behavior of biomolecular
4999 systems, leading to understanding of their functions. However, the
5000 computational complexity of such simulations is enormous. Parallel
5001 machines provide the potential to meet this computational challenge.
5002 To harness this potential, it is necessary to develop a scalable
5003 program. It is also necessary that the program be easily modified
5004 by application-domain programmers. The NAMD2 program presented in
5005 this paper seeks to provide these desirable features. It uses spatial
5006 decomposition combined with force decomposition to enhance scalability.
5007 It uses intelligent periodic load balancing, so as to maximally
5008 utilize the available compute power. It is modularly organized,
5009 and implemented using Charm++, a parallel C++ dialect, so as to
5010 enhance its modifiability. It uses a combination of numerical techniques
5011 and algorithms to ensure that energy drifts are minimized, ensuring
5012 accuracy in long running calculations. NAMD2 uses a portable run-time
5013 framework called Converse that also supports interoperability among
5014 multiple parallel paradigms. As a result, different components of
5015 applications can be written in the most appropriate parallel paradigms.
5016 NAMD2 runs on most parallel machines including workstation clusters
5017 and has yielded speedups in excess of 180 on 220 processors. This
5018 paper also describes the performance obtained on some benchmark
5019 applications. (C) 1999 Academic Press.},
5020 Annote = {194FM Times Cited:373 Cited References Count:51},
5021 Author = {L. Kale and R. Skeel and M. Bhandarkar and R. Brunner and A. Gursoy and N. Krawetz and J. Phillips and A. Shinozaki and K. Varadarajan and K. Schulten},
5022 Issn = {0021-9991},
5023 Journal = jcop,
5024 Month = {May 1},
5025 Number = 1,
5026 Pages = {283-312},
5027 Title = {NAMD2: Greater scalability for parallel molecular dynamics},
5028 Uri = {<Go to ISI>://000080181500013},
5029 Volume = 151,
5030 Year = 1999}
5031
5032 @article{Kane2000,
5033 Abstract = {The purpose of this work is twofold. First, we demonstrate analytically
5034 that the classical Newmark family as well as related integration
5035 algorithms are variational in the sense of the Veselov formulation
5036 of discrete mechanics. Such variational algorithms are well known
5037 to be symplectic and momentum preserving and to often have excellent
5038 global energy behaviour. This analytical result is verified through
5039 numerical examples and is believed to be one of the primary reasons
5040 that this class of algorithms performs so well. Second, we develop
5041 algorithms for mechanical systems with forcing, and in particular,
5042 for dissipative systems. In this case, we develop integrators that
5043 are based on a discretization of the Lagrange d'Alembert principle
5044 as well as on a variational formulation of dissipation. It is demonstrated
5045 that these types of structured integrators have good numerical behaviour
5046 in terms of obtaining the correct amounts by which the energy changes
5047 over the integration run. Copyright (C) 2000 John Wiley & Sons,
5048 Ltd.},
5049 Annote = {373CJ Times Cited:30 Cited References Count:41},
5050 Author = {C. Kane and J. E. Marsden and M. Ortiz and M. West},
5051 Issn = {0029-5981},
5052 Journal = {International Journal for Numerical Methods in Engineering},
5053 Month = {Dec 10},
5054 Number = 10,
5055 Pages = {1295-1325},
5056 Title = {Variational integrators and the Newmark algorithm for conservative and dissipative mechanical systems},
5057 Uri = {<Go to ISI>://000165270600004},
5058 Volume = 49,
5059 Year = 2000}
5060
5061 @article{Klimov1997,
5062 Abstract = {The viscosity (eta) dependence of the folding rates for four sequences
5063 (the native state of three sequences is a beta sheet, while the
5064 fourth forms an alpha helix) is calculated for off-lattice models
5065 of proteins. Assuming that the dynamics is given by the Langevin
5066 equation, we show that the folding rates increase linearly at low
5067 viscosities eta, decrease as 1/eta at large eta, and have a maximum
5068 at intermediate values. The Kramers' theory of barrier crossing
5069 provides a quantitative fit of the numerical results. By mapping
5070 the simulation results to real proteins we estimate that for optimized
5071 sequences the time scale for forming a four turn alpha-helix topology
5072 is about 500 ns, whereas for beta sheet it is about 10 mu s.},
5073 Annote = {Xk293 Times Cited:77 Cited References Count:17},
5074 Author = {D. K. Klimov and D. Thirumalai},
5075 Issn = {0031-9007},
5076 Journal = prl,
5077 Month = {Jul 14},
5078 Number = 2,
5079 Pages = {317-320},
5080 Title = {Viscosity dependence of the folding rates of proteins},
5081 Uri = {<Go to ISI>://A1997XK29300035},
5082 Volume = 79,
5083 Year = 1997}
5084
5085 @article{Kol1997,
5086 Abstract = {Rigid-body molecular dynamics simulations typically are performed
5087 in a quaternion representation. The nonseparable form of the Hamiltonian
5088 in quaternions prevents the use of a standard leapfrog (Verlet)
5089 integrator, so nonsymplectic Runge-Kutta, multistep, or extrapolation
5090 methods are generally used, This is unfortunate since symplectic
5091 methods like Verlet exhibit superior energy conservation in long-time
5092 integrations. In this article, we describe an alternative method,
5093 which we call RSHAKE (for rotation-SHAKE), in which the entire rotation
5094 matrix is evolved (using the scheme of McLachlan and Scovel [J.
5095 Nonlin. Sci, 16 233 (1995)]) in tandem with the particle positions.
5096 We employ a fast approximate Newton solver to preserve the orthogonality
5097 of the rotation matrix. We test our method on a system of soft-sphere
5098 dipoles and compare with quaternion evolution using a 4th-order
5099 predictor-corrector integrator, Although the short-time error of
5100 the quaternion algorithm is smaller for fixed time step than that
5101 for RSHAKE, the quaternion scheme exhibits an energy drift which
5102 is not observed in simulations with RSHAKE, hence a fixed energy
5103 tolerance can be achieved by using a larger time step, The superiority
5104 of RSHAKE increases with system size. (C) 1997 American Institute
5105 of Physics.},
5106 Annote = {Xq332 Times Cited:11 Cited References Count:18},
5107 Author = {A. Kol and B. B. Laird and B. J. Leimkuhler},
5108 Issn = {0021-9606},
5109 Journal = jcp,
5110 Month = {Aug 15},
5111 Number = 7,
5112 Pages = {2580-2588},
5113 Title = {A symplectic method for rigid-body molecular simulation},
5114 Uri = {<Go to ISI>://A1997XQ33200046},
5115 Volume = 107,
5116 Year = 1997}
5117
5118 @article{Lansac2001,
5119 Abstract = {Cyanobiphenyls (nCB's) represent a useful and intensively studied
5120 class of mesogens. Many of the peculiar properties of nCB's (e.g.,
5121 the occurence of the partial bilayer smectic-A(d) phase) are thought
5122 to be a manifestation of short-range antiparallel association of
5123 neighboring molecules, resulting from strong dipole-dipole interactions
5124 between cyano groups. To test and extend existing models of microscopic
5125 ordering in nCB's, we carry out large-scale atomistic simulation
5126 studies of the microscopic structure and dynamics of the Sm-A(d)
5127 phase of 4-octyl-4'-cyanobiphenyl (8CB). We compute a variety of
5128 thermodynamic, structural, and dynamical properties for this material,
5129 and make a detailed comparison of our results with experimental
5130 measurements in order to validate our molecular model. Semiquantitative
5131 agreement with experiment is found: the smectic layer spacing and
5132 mass density are well reproduced, translational diffusion constants
5133 are similar to experiment, but the orientational ordering of alkyl
5134 chains is overestimated. This simulation provides a detailed picture
5135 of molecular conformation, smectic layer structure, and intermolecular
5136 correlations in Sm-A(d) 8CB, and demonstrates that pronounced short-range
5137 antiparallel association of molecules arising from dipole-dipole
5138 interactions plays a dominant role in determining the molecular-scale
5139 structure of 8CB.},
5140 Annote = {Part 1 496QF Times Cited:10 Cited References Count:60},
5141 Author = {Y. Lansac and M. A. Glaser and N. A. Clark},
5142 Issn = {1063-651X},
5143 Journal = {Physical Review E},
5144 Month = {Nov},
5145 Number = 5,
5146 Pages = {-},
5147 Title = {Microscopic structure and dynamics of a partial bilayer smectic liquid crystal},
5148 Uri = {<Go to ISI>://000172406900063},
5149 Volume = 6405,
5150 Year = 2001}
5151
5152 @article{Lansac2003,
5153 Abstract = {Recently, a new class of smectic liquid crystal phases characterized
5154 by the spontaneous formation of macroscopic chiral domains from
5155 achiral bent-core molecules has been discovered. We have carried
5156 out Monte Carlo simulations of a minimal hard spherocylinder dimer
5157 model to investigate the role of excluded volume interactions in
5158 determining the phase behavior of bent-core materials and to probe
5159 the molecular origins of polar and chiral symmetry breaking. We
5160 present the phase diagram of hard spherocylinder dimers of length-diameter
5161 ratio of 5 as a function of pressure or density and dimer opening
5162 angle psi. With decreasing psi, a transition from a nonpolar to
5163 a polar smectic A phase is observed near psi=167degrees, and the
5164 nematic phase becomes thermodynamically unstable for psi<135degrees.
5165 Free energy calculations indicate that the antipolar smectic A (SmAP(A))
5166 phase is more stable than the polar smectic A phase (SmAP(F)). No
5167 chiral smectic or biaxial nematic phases were found.},
5168 Annote = {Part 1 646CM Times Cited:15 Cited References Count:38},
5169 Author = {Y. Lansac and P. K. Maiti and N. A. Clark and M. A. Glaser},
5170 Issn = {1063-651X},
5171 Journal = {Physical Review E},
5172 Month = {Jan},
5173 Number = 1,
5174 Pages = {-},
5175 Title = {Phase behavior of bent-core molecules},
5176 Uri = {<Go to ISI>://000181017300042},
5177 Volume = 67,
5178 Year = 2003}
5179
5180 @book{Leach2001,
5181 Address = {Harlow, England},
5182 Author = {A. Leach},
5183 Edition = {2nd},
5184 Publisher = {Pearson Educated Limited},
5185 Title = {Molecular Modeling: Principles and Applications},
5186 Year = 2001}
5187
5188 @article{Leimkuhler1999,
5189 Abstract = {Reversible and adaptive integration methods based on Kustaanheimo-Stiefel
5190 regularization and modified Sundman transformations are applied
5191 to simulate general perturbed Kepler motion and to compute classical
5192 trajectories of atomic systems (e.g. Rydberg atoms). The new family
5193 of reversible adaptive regularization methods also conserves angular
5194 momentum and exhibits superior energy conservation and numerical
5195 stability in long-time integrations. The schemes are appropriate
5196 for scattering, for astronomical calculations of escape time and
5197 long-term stability, and for classical and semiclassical studies
5198 of atomic dynamics. The components of an algorithm for trajectory
5199 calculations are described. Numerical experiments illustrate the
5200 effectiveness of the reversible approach.},
5201 Annote = {199EE Times Cited:11 Cited References Count:48},
5202 Author = {B. Leimkuhler},
5203 Issn = {1364-503X},
5204 Journal = {Philosophical Transactions of the Royal Society of London Series a-Mathematical Physical and Engineering Sciences},
5205 Month = {Apr 15},
5206 Number = 1754,
5207 Pages = {1101-1133},
5208 Title = {Reversible adaptive regularization: perturbed Kepler motion and classical atomic trajectories},
5209 Uri = {<Go to ISI>://000080466800007},
5210 Volume = 357,
5211 Year = 1999}
5212
5213 @book{Leimkuhler2004,
5214 Address = {Cambridge},
5215 Author = {B. Leimkuhler and S. Reich},
5216 Publisher = {Cambridge University Press},
5217 Title = {Simulating Hamiltonian Dynamics},
5218 Year = 2004}
5219
5220 @article{Levelut1981,
5221 Annote = {Ml751 Times Cited:96 Cited References Count:16},
5222 Author = {A. M. Levelut and R. J. Tarento and F. Hardouin and M. F. Achard and G. Sigaud},
5223 Issn = {1050-2947},
5224 Journal = {Physical Review A},
5225 Number = 4,
5226 Pages = {2180-2186},
5227 Title = {Number of Sa Phases},
5228 Uri = {<Go to ISI>://A1981ML75100057},
5229 Volume = 24,
5230 Year = 1981}
5231
5232 @article{Lieb1982,
5233 Annote = {Nu461 Times Cited:40 Cited References Count:28},
5234 Author = {W. R. Lieb and M. Kovalycsik and R. Mendelsohn},
5235 Issn = {0006-3002},
5236 Journal = {Biochimica Et Biophysica Acta},
5237 Number = 2,
5238 Pages = {388-398},
5239 Title = {Do Clinical-Levels of General-Anesthetics Affect Lipid Bilayers - Evidence from Raman-Scattering},
5240 Uri = {<Go to ISI>://A1982NU46100012},
5241 Volume = 688,
5242 Year = 1982}
5243
5244 @article{Link1997,
5245 Abstract = {A smectic liquid-crystal phase made from achiral molecules with bent
5246 cores was found to have fluid layers that exhibit two spontaneous
5247 symmetry-breaking instabilities: polar molecular orientational ordering
5248 about the layer normal and molecular tilt. These instabilities combine
5249 to form a chiral layer structure with a handedness that depends
5250 on the sign of the tilt. The bulk states are either antiferroelectric-racemic,
5251 with the layer polar direction and handedness alternating in sign
5252 from layer to layer, or antiferroelectric-chiral, which is of uniform
5253 layer handedness. Both states exhibit an electric field-induced
5254 transition from antiferroelectric to ferroelectric.},
5255 Annote = {Yl002 Times Cited:407 Cited References Count:25},
5256 Author = {D. R. Link and G. Natale and R. Shao and J. E. Maclennan and N. A. Clark and E. Korblova and D. M. Walba},
5257 Issn = {0036-8075},
5258 Journal = {Science},
5259 Month = {Dec 12},
5260 Number = 5345,
5261 Pages = {1924-1927},
5262 Title = {Spontaneous formation of macroscopic chiral domains in a fluid smectic phase of achiral molecules},
5263 Uri = {<Go to ISI>://A1997YL00200028},
5264 Volume = 278,
5265 Year = 1997}
5266
5267 @article{Liwo2005,
5268 Annote = {Suppl. 1 005MG Times Cited:0 Cited References Count:0},
5269 Author = {A. Liwo and M. Khalili and H. A. Scheraga},
5270 Issn = {1742-464X},
5271 Journal = {Febs Journal},
5272 Month = {Jul},
5273 Pages = {359-360},
5274 Title = {Ab initio simulations of protein folding pathways by molecular dynamics with the united-residue (UNRES) model of polypeptide chains},
5275 Uri = {<Go to ISI>://000234826102043},
5276 Volume = 272,
5277 Year = 2005}
5278
5279 @article{Luty1994,
5280 Abstract = {We compare the Particle-Particle Particle-Mesh (PPPM) and Ewald methods
5281 for calculating electrostatic interactions in periodic molecular
5282 systems. A brief comparison of the theories shows that the methods
5283 are very similar differing mainly in the technique which is used
5284 to perform the ''k-space'' or mesh calculation. Because the PPPM
5285 utilizes the highly efficient numerical Fast Fourier Transform (FFT)
5286 method it requires significantly less computational effort than
5287 the Ewald method and scale's almost linearly with system size.},
5288 Annote = {Qf464 Times Cited:50 Cited References Count:20},
5289 Author = {B. A. Luty and M. E. Davis and I. G. Tironi and W. F. Vangunsteren},
5290 Issn = {0892-7022},
5291 Journal = {Molecular Simulation},
5292 Number = 1,
5293 Pages = {11-20},
5294 Title = {A Comparison of Particle-Particle, Particle-Mesh and Ewald Methods for Calculating Electrostatic Interactions in Periodic Molecular-Systems},
5295 Uri = {<Go to ISI>://A1994QF46400002},
5296 Volume = 14,
5297 Year = 1994}
5298
5299 @book{Marion1990,
5300 Address = {New York},
5301 Author = {J.~B. Marion},
5302 Edition = {2rd},
5303 Publisher = {Academic Press},
5304 Title = {Classical Dynamics of Particles and Systems},
5305 Year = 1990}
5306
5307 @article{Marrink1994,
5308 Abstract = {To obtain insight in the process of water permeation through a lipid
5309 membrane, we performed molecular dynamics simulations on a phospholipid
5310 (DPPC)/water system with atomic detail. Since the actual process
5311 of permeation is too slow to be studied directly, we deduced the
5312 permeation rate indirectly via computation of the free energy and
5313 diffusion rate profiles of a water molecule across the bilayer.
5314 We conclude that the permeation of water through a lipid membrane
5315 cannot be described adequately by a simple homogeneous solubility-diffusion
5316 model. Both the excess free energy and the diffusion rate strongly
5317 depend on the position in the membrane, as a result from the inhomogeneous
5318 nature of the membrane. The calculated excess free energy profile
5319 has a shallow slope and a maximum height of 26 kJ/mol. The diffusion
5320 rate is highest in the middle of the membrane where the lipid density
5321 is low. In the interfacial region almost all water molecules are
5322 bound by the lipid headgroups, and the diffusion turns out to be
5323 1 order of magnitude smaller. The total transport process is essentially
5324 determined by the free energy barrier. The rate-limiting step is
5325 the permeation through the dense part of the lipid tails, where
5326 the resistance is highest. We found a permeation rate of 7(+/-3)
5327 x 10(-2) cm/s at 350 K, comparable to experimental values for DPPC
5328 membranes, if corrected for the temperature of the simulation. Taking
5329 the inhomogeneity of the membrane into account, we define a new
5330 ''four-region'' model which seems to be more realistic than the
5331 ''two-phase'' solubility-diffusion model.},
5332 Annote = {Ng219 Times Cited:187 Cited References Count:25},
5333 Author = {S. J. Marrink and H. J. C. Berendsen},
5334 Issn = {0022-3654},
5335 Journal = {Journal of Physical Chemistry},
5336 Month = {Apr 14},
5337 Number = 15,
5338 Pages = {4155-4168},
5339 Title = {Simulation of Water Transport through a Lipid-Membrane},
5340 Uri = {<Go to ISI>://A1994NG21900040},
5341 Volume = 98,
5342 Year = 1994}
5343
5344 @article{Marrink2004,
5345 Author = {S.~J. Marrink and A.~H. de~Vries and A.~E. Mark},
5346 Journal = {J. Phys. Chem. B},
5347 Pages = {750-760},
5348 Title = {Coarse Grained Model for Semiquantitative Lipid Simulations},
5349 Volume = 108,
5350 Year = 2004}
5351
5352 @article{Marsden1998,
5353 Abstract = {This paper presents a geometric-variational approach to continuous
5354 and discrete mechanics and field theories. Using multisymplectic
5355 geometry, we show that the existence of the fundamental geometric
5356 structures as well as their preservation along solutions can be
5357 obtained directly from the variational principle. In particular,
5358 we prove that a unique multisymplectic structure is obtained by
5359 taking the derivative of an action function, and use this structure
5360 to prove covariant generalizations of conservation of symplecticity
5361 and Noether's theorem. Natural discretization schemes for PDEs,
5362 which have these important preservation properties, then follow
5363 by choosing a discrete action functional. In the case of mechanics,
5364 we recover the variational symplectic integrators of Veselov type,
5365 while for PDEs we obtain covariant spacetime integrators which conserve
5366 the corresponding discrete multisymplectic form as well as the discrete
5367 momentum mappings corresponding to symmetries. We show that the
5368 usual notion of symplecticity along an infinite-dimensional space
5369 of fields can be naturally obtained by making a spacetime split.
5370 All of the aspects of our method are demonstrated with a nonlinear
5371 sine-Gordon equation, including computational results and a comparison
5372 with other discretization schemes.},
5373 Annote = {154RH Times Cited:88 Cited References Count:36},
5374 Author = {J. E. Marsden and G. W. Patrick and S. Shkoller},
5375 Issn = {0010-3616},
5376 Journal = {Communications in Mathematical Physics},
5377 Month = {Dec},
5378 Number = 2,
5379 Pages = {351-395},
5380 Title = {Multisymplectic geometry, variational integrators, and nonlinear PDEs},
5381 Uri = {<Go to ISI>://000077902200006},
5382 Volume = 199,
5383 Year = 1998}
5384
5385 @article{Matthey2004,
5386 Abstract = {PROTOMOL is a high-performance framework in C++ for rapid prototyping
5387 of novel algorithms for molecular dynamics and related applications.
5388 Its flexibility is achieved primarily through the use of inheritance
5389 and design patterns (object-oriented programming): Performance is
5390 obtained by using templates that enable generation of efficient
5391 code for sections critical to performance (generic programming).
5392 The framework encapsulates important optimizations that can be used
5393 by developers, such as parallelism in the force computation. Its
5394 design is based on domain analysis of numerical integrators for
5395 molecular dynamics (MD) and of fast solvers for the force computation,
5396 particularly due to electrostatic interactions. Several new and
5397 efficient algorithms are implemented in PROTOMOL. Finally, it is
5398 shown that PROTOMOL'S sequential performance is excellent when compared
5399 to a leading MD program, and that it scales well for moderate number
5400 of processors. Binaries and source codes for Windows, Linux, Solaris,
5401 IRIX, HP-UX, and AIX platforms are available under open source license
5402 at http://protomol.sourceforge.net.},
5403 Annote = {860EP Times Cited:2 Cited References Count:52},
5404 Author = {T. Matthey and T. Cickovski and S. Hampton and A. Ko and Q. Ma and M. Nyerges and T. Raeder and T. Slabach and J. A. Izaguirre},
5405 Issn = {0098-3500},
5406 Journal = {Acm Transactions on Mathematical Software},
5407 Month = {Sep},
5408 Number = 3,
5409 Pages = {237-265},
5410 Title = {ProtoMol, an object-oriented framework for prototyping novel algorithms for molecular dynamics},
5411 Uri = {<Go to ISI>://000224325600001},
5412 Volume = 30,
5413 Year = 2004}
5414
5415 @article{McLachlan1993,
5416 Author = {R.~I McLachlan},
5417 Journal = {prl},
5418 Pages = {3043-3046},
5419 Title = {Explicit Lie-Poisson integration and the Euler equations},
5420 Volume = 71,
5421 Year = 1993}
5422
5423 @article{McLachlan1998,
5424 Abstract = {We give a survey and some new examples of generating functions for
5425 systems with symplectic structure, systems with a first integral,
5426 systems that preserve volume, and systems with symmetries and/or
5427 time-reversing symmetries. Both ODEs and maps are treated, and we
5428 discuss how generating functions may be used in the structure-preserving
5429 numerical integration of ODEs with the above properties.},
5430 Annote = {Yt049 Times Cited:7 Cited References Count:26},
5431 Author = {R. I. McLachlan and G. R. W. Quispel},
5432 Issn = {0167-2789},
5433 Journal = {Physica D},
5434 Month = {Jan 15},
5435 Number = {1-2},
5436 Pages = {298-309},
5437 Title = {Generating functions for dynamical systems with symmetries, integrals, and differential invariants},
5438 Uri = {<Go to ISI>://000071558900021},
5439 Volume = 112,
5440 Year = 1998}
5441
5442 @article{McLachlan1998a,
5443 Abstract = {We consider properties of flows, the relationships between them, and
5444 whether numerical integrators can be made to preserve these properties.
5445 This is done in the context of automorphisms and antiautomorphisms
5446 of a certain group generated by maps associated to vector fields.
5447 This new framework unifies several known constructions. We also
5448 use the concept of #covariance# of a numerical method with respect
5449 to a group of coordinate transformations. The main application is
5450 to explore the relationship between spatial symmetries, reversing
5451 symmetries, and time symmetry of flows and numerical integrators.},
5452 Annote = {Zc449 Times Cited:14 Cited References Count:33},
5453 Author = {R. I. McLachlan and G. R. W. Quispel and G. S. Turner},
5454 Issn = {0036-1429},
5455 Journal = {Siam Journal on Numerical Analysis},
5456 Month = {Apr},
5457 Number = 2,
5458 Pages = {586-599},
5459 Title = {Numerical integrators that preserve symmetries and reversing symmetries},
5460 Uri = {<Go to ISI>://000072580500010},
5461 Volume = 35,
5462 Year = 1998}
5463
5464 @article{McLachlan2005,
5465 Abstract = {In this paper we revisit the Moser-Veselov description of the free
5466 rigid body in body coordinates, which, in the 3 x 3 case, can be
5467 implemented as an explicit, second-order, integrable approximation
5468 of the continuous solution. By backward error analysis, we study
5469 the modified vector field which is integrated exactly by the discrete
5470 algorithm. We deduce that the discrete Moser-Veselov (DMV) is well
5471 approximated to higher order by time reparametrizations of the continuous
5472 equations (modified vector field). We use the modified vector field
5473 to scale the initial data of the DMV to improve the order of the
5474 approximation and show the equivalence of the DMV and the RATTLE
5475 algorithm. Numerical integration with these preprocessed initial
5476 data is several orders of magnitude more accurate than the original
5477 DMV and RATTLE approach.},
5478 Annote = {911NS Times Cited:0 Cited References Count:14},
5479 Author = {R. I. McLachlan and A. Zanna},
5480 Issn = {1615-3375},
5481 Journal = {Foundations of Computational Mathematics},
5482 Month = {Feb},
5483 Number = 1,
5484 Pages = {87-123},
5485 Title = {The discrete Moser-Veselov algorithm for the free rigid body, revisited},
5486 Uri = {<Go to ISI>://000228011900003},
5487 Volume = 5,
5488 Year = 2005}
5489
5490 @article{Meineke2005,
5491 Abstract = {OOPSE is a new molecular dynamics simulation program that is capable
5492 of efficiently integrating equations of motion for atom types with
5493 orientational degrees of freedom (e.g. #sticky# atoms and point
5494 dipoles). Transition metals can also be simulated using the embedded
5495 atom method (EAM) potential included in the code. Parallel simulations
5496 are carried out using the force-based decomposition method. Simulations
5497 are specified using a very simple C-based meta-data language. A
5498 number of advanced integrators are included, and the basic integrator
5499 for orientational dynamics provides substantial improvements over
5500 older quaternion-based schemes. (C) 2004 Wiley Periodicals, Inc.},
5501 Annote = {891CF Times Cited:1 Cited References Count:56},
5502 Author = {M. A. Meineke and C. F. Vardeman and T. Lin and C. J. Fennell and J. D. Gezelter},
5503 Issn = {0192-8651},
5504 Journal = jcc,
5505 Month = {Feb},
5506 Number = 3,
5507 Pages = {252-271},
5508 Title = {OOPSE: An object-oriented parallel simulation engine for molecular dynamics},
5509 Uri = {<Go to ISI>://000226558200006},
5510 Volume = 26,
5511 Year = 2005}
5512
5513 @article{Melchionna1993,
5514 Abstract = {In this paper we write down equations of motion (following the approach
5515 pioneered by Hoover) for an exact isothermal-isobaric molecular
5516 dynamics simulation, and we extend them to multiple thermostating
5517 rates, to a shape-varying cell and to molecular systems, coherently
5518 with the previous 'extended system method'. An integration scheme
5519 is proposed together with a numerical illustration of the method.},
5520 Annote = {Kq355 Times Cited:172 Cited References Count:17},
5521 Author = {S. Melchionna and G. Ciccotti and B. L. Holian},
5522 Issn = {0026-8976},
5523 Journal = mp,
5524 Month = {Feb 20},
5525 Number = 3,
5526 Pages = {533-544},
5527 Title = {Hoover Npt Dynamics for Systems Varying in Shape and Size},
5528 Uri = {<Go to ISI>://A1993KQ35500002},
5529 Volume = 78,
5530 Year = 1993}
5531
5532 @article{Memmer2002,
5533 Abstract = {The phase behaviour of achiral banana-shaped molecules was studied
5534 by computer simulation. The banana-shaped molecules were described
5535 by model intermolecular interactions based on the Gay-Berne potential.
5536 The characteristic molecular structure was considered by joining
5537 two calamitic Gay-Berne particles through a bond to form a biaxial
5538 molecule of point symmetry group C-2v with a suitable bending angle.
5539 The dependence on temperature of systems of N=1024 rigid banana-shaped
5540 molecules with bending angle phi=140degrees has been studied by
5541 means of Monte Carlo simulations in the isobaric-isothermal ensemble
5542 (NpT). On cooling an isotropic system, two phase transitions characterized
5543 by phase transition enthalpy, entropy and relative volume change
5544 have been observed. For the first time by computer simulation of
5545 a many-particle system of banana-shaped molecules, at low temperature
5546 an untilted smectic phase showing a global phase biaxiality and
5547 a spontaneous local polarization in the layers, i.e. a local polar
5548 arrangement of the steric dipoles, with an antiferroelectric-like
5549 superstructure could be proven, a phase structure which recently
5550 has been discovered experimentally. Additionally, at intermediate
5551 temperature a nematic-like phase has been proved, whereas close
5552 to the transition to the smectic phase hints of a spontaneous achiral
5553 symmetry breaking have been determined. Here, in the absence of
5554 a layered structure a helical superstructure has been formed. All
5555 phases have been characterized by visual representations of selected
5556 configurations, scalar and pseudoscalar correlation functions, and
5557 order parameters.},
5558 Annote = {531HT Times Cited:12 Cited References Count:37},
5559 Author = {R. Memmer},
5560 Issn = {0267-8292},
5561 Journal = {Liquid Crystals},
5562 Month = {Apr},
5563 Number = 4,
5564 Pages = {483-496},
5565 Title = {Liquid crystal phases of achiral banana-shaped molecules: a computer simulation study},
5566 Uri = {<Go to ISI>://000174410500001},
5567 Volume = 29,
5568 Year = 2002}
5569
5570 @article{Metropolis1949,
5571 Author = {N. Metropolis and S. Ulam},
5572 Journal = {J. Am. Stat. Ass.},
5573 Pages = {335-341},
5574 Title = {The $\mbox{Monte Carlo}$ Method},
5575 Volume = 44,
5576 Year = 1949}
5577
5578 @article{Mielke2004,
5579 Abstract = {The torque generated by RNA polymerase as it tracks along double-stranded
5580 DNA can potentially induce long-range structural deformations integral
5581 to mechanisms of biological significance in both prokaryotes and
5582 eukaryotes. In this paper, we introduce a dynamic computer model
5583 for investigating this phenomenon. Duplex DNA is represented as
5584 a chain of hydrodynamic beads interacting through potentials of
5585 linearly elastic stretching, bending, and twisting, as well as excluded
5586 volume. The chain, linear when relaxed, is looped to form two open
5587 but topologically constrained subdomains. This permits the dynamic
5588 introduction of torsional stress via a centrally applied torque.
5589 We simulate by Brownian dynamics the 100 mus response of a 477-base
5590 pair B-DNA template to the localized torque generated by the prokaryotic
5591 transcription ensemble. Following a sharp rise at early times, the
5592 distributed twist assumes a nearly constant value in both subdomains,
5593 and a succession of supercoiling deformations occurs as superhelical
5594 stress is increasingly partitioned to writhe. The magnitude of writhe
5595 surpasses that of twist before also leveling off when the structure
5596 reaches mechanical equilibrium with the torsional load. Superhelicity
5597 is simultaneously right handed in one subdomain and left handed
5598 in the other, as predicted by the #transcription-induced##twin-supercoiled-domain#
5599 model [L. F. Liu and J. C. Wang, Proc. Natl. Acad. Sci. U.S.A. 84,
5600 7024 (1987)]. The properties of the chain at the onset of writhing
5601 agree well with predictions from theory, and the generated stress
5602 is ample for driving secondary structural transitions in physiological
5603 DNA. (C) 2004 American Institute of Physics.},
5604 Annote = {861ZF Times Cited:3 Cited References Count:34},
5605 Author = {S. P. Mielke and W. H. Fink and V. V. Krishnan and N. Gronbech-Jensen and C. J. Benham},
5606 Issn = {0021-9606},
5607 Journal = jcp,
5608 Month = {Oct 22},
5609 Number = 16,
5610 Pages = {8104-8112},
5611 Title = {Transcription-driven twin supercoiling of a DNA loop: A Brownian dynamics study},
5612 Uri = {<Go to ISI>://000224456500064},
5613 Volume = 121,
5614 Year = 2004}
5615
5616 @article{Naess2001,
5617 Abstract = {The three Eulerian angles constitute the classical choice of generalized
5618 coordinates used to describe the three degrees of rotational freedom
5619 of a rigid body, but it has long been known that this choice yields
5620 singular equations of motion. The latter is also true when Eulerian
5621 angles are used in Brownian dynamics analyses of the angular orientation
5622 of single rigid bodies and segmented polymer chains. Starting from
5623 kinetic theory we here show that by instead employing the three
5624 components of Cartesian rotation vectors as the generalized coordinates
5625 describing angular orientation, no singularity appears in the configuration
5626 space diffusion equation and the associated Brownian dynamics algorithm.
5627 The suitability of Cartesian rotation vectors in Brownian dynamics
5628 simulations of segmented polymer chains with spring-like or ball-socket
5629 joints is discussed. (C) 2001 Elsevier Science B.V. All rights reserved.},
5630 Annote = {433TA Times Cited:7 Cited References Count:19},
5631 Author = {S. N. Naess and H. M. Adland and A. Mikkelsen and A. Elgsaeter},
5632 Issn = {0378-4371},
5633 Journal = {Physica A},
5634 Month = {May 15},
5635 Number = {3-4},
5636 Pages = {323-339},
5637 Title = {Brownian dynamics simulation of rigid bodies and segmented polymer chains. Use of Cartesian rotation vectors as the generalized coordinates describing angular orientations},
5638 Uri = {<Go to ISI>://000168774800005},
5639 Volume = 294,
5640 Year = 2001}
5641
5642 @article{Niori1996,
5643 Abstract = {The synthesis of a banana-shaped molecule is reported and it is found
5644 that the smectic phase which it forms is biaxial with the molecules
5645 packed in the best,direction into a layer. Because of this characteristic
5646 packing, spontaneous polarization appears parallel to the layer
5647 and switches on reversal of an applied electric field. This is the
5648 first obvious example of ferroelectricity in an achiral smectic
5649 phase and is ascribed to the C-2v symmetry of the molecular packing.},
5650 Annote = {Ux855 Times Cited:447 Cited References Count:18},
5651 Author = {T. Niori and T. Sekine and J. Watanabe and T. Furukawa and H. Takezoe},
5652 Issn = {0959-9428},
5653 Journal = {Journal of Materials Chemistry},
5654 Month = {Jul},
5655 Number = 7,
5656 Pages = {1231-1233},
5657 Title = {Distinct ferroelectric smectic liquid crystals consisting of banana shaped achiral molecules},
5658 Uri = {<Go to ISI>://A1996UX85500025},
5659 Volume = 6,
5660 Year = 1996}
5661
5662 @article{Noguchi2002,
5663 Abstract = {We Studied the structural changes of bilayer vesicles induced by mechanical
5664 forces using a Brownian dynamics simulation. Two nanoparticles,
5665 which interact repulsively with amphiphilic molecules, are put inside
5666 a vesicle. The position of one nanoparticle is fixed, and the other
5667 is moved by a constant force as in optical-trapping experiments.
5668 First, the pulled vesicle stretches into a pear or tube shape. Then
5669 the inner monolayer in the tube-shaped region is deformed, and a
5670 cylindrical structure is formed between two vesicles. After stretching
5671 the cylindrical region, fission occurs near the moved vesicle. Soon
5672 after this the cylindrical region shrinks. The trapping force similar
5673 to 100 pN is needed to induce the formation of the cylindrical structure
5674 and fission.},
5675 Annote = {Part 1 568PX Times Cited:5 Cited References Count:39},
5676 Author = {H. Noguchi and M. Takasu},
5677 Issn = {1063-651X},
5678 Journal = {Physical Review E},
5679 Month = {may},
5680 Number = 5,
5681 Pages = {-},
5682 Title = {Structural changes of pulled vesicles: A Brownian dynamics simulation},
5683 Uri = {<Go to ISI>://000176552300084},
5684 Volume = 65,
5685 Year = 2002}
5686
5687 @article{Noguchi2001,
5688 Abstract = {We studied the fusion dynamics of vesicles using a Brownian dynamics
5689 simulation. Amphiphilic molecules spontaneously form vesicles with
5690 a bilayer structure. Two vesicles come into contact and form a stalk
5691 intermediate, in which a necklike structure only connects the outer
5692 monolayers, as predicted by the stalk hypothesis. We have found
5693 a new pathway of pore opening from stalks at high temperature: the
5694 elliptic stalk bends and contact between the ends of the arc-shaped
5695 stalk leads to pore opening. On the other hand, we have clarified
5696 that the pore-opening process at low temperature agrees with the
5697 modified stalk model: a pore is induced by contact between the inner
5698 monolayers inside the stalk. (C) 2001 American Institute of Physics.},
5699 Annote = {491UW Times Cited:48 Cited References Count:25},
5700 Author = {H. Noguchi and M. Takasu},
5701 Issn = {0021-9606},
5702 Journal = jcp,
5703 Month = {Nov 22},
5704 Number = 20,
5705 Pages = {9547-9551},
5706 Title = {Fusion pathways of vesicles: A Brownian dynamics simulation},
5707 Uri = {<Go to ISI>://000172129300049},
5708 Volume = 115,
5709 Year = 2001}
5710
5711 @book{Olver1986,
5712 Address = {New York},
5713 Author = {P.J. Olver},
5714 Publisher = {Springer},
5715 Title = {Applications of Lie groups to differential equatitons},
5716 Year = 1986}
5717
5718 @article{Omelyan1998,
5719 Abstract = {A revised version of the quaternion approach for numerical integration
5720 of the equations of motion for rigid polyatomic molecules is proposed.
5721 The modified approach is based on a formulation of the quaternion
5722 dynamics with constraints. This allows one to resolve the rigidity
5723 problem rigorously using constraint forces. It is shown that the
5724 procedure for preservation of molecular rigidity can be realized
5725 particularly simply within the Verlet algorithm in velocity form.
5726 We demonstrate that the method presented leads to an improved numerical
5727 stability with respect to the usual quaternion rescaling scheme
5728 and it is roughly as good as the cumbersome atomic-constraint technique.
5729 (C) 1998 American Institute of Physics.},
5730 Annote = {Yx279 Times Cited:12 Cited References Count:28},
5731 Author = {I. P. Omelyan},
5732 Issn = {0894-1866},
5733 Journal = {Computers in Physics},
5734 Month = {Jan-Feb},
5735 Number = 1,
5736 Pages = {97-103},
5737 Title = {On the numerical integration of motion for rigid polyatomics: The modified quaternion approach},
5738 Uri = {<Go to ISI>://000072024300025},
5739 Volume = 12,
5740 Year = 1998}
5741
5742 @article{Omelyan1998a,
5743 Abstract = {An algorithm for numerical integration of the rigid-body equations
5744 of motion is proposed. The algorithm uses the leapfrog scheme and
5745 the quantities involved are angular velocities and orientational
5746 variables that can be expressed in terms of either principal axes
5747 or quaternions. Due to specific features of the algorithm, orthonormality
5748 and unit norms of the orientational variables are integrals of motion,
5749 despite an approximate character of the produced trajectories. It
5750 is shown that the method presented appears to be the most efficient
5751 among all such algorithms known.},
5752 Annote = {101XL Times Cited:8 Cited References Count:22},
5753 Author = {I. P. Omelyan},
5754 Issn = {1063-651X},
5755 Journal = {Physical Review E},
5756 Month = {Jul},
5757 Number = 1,
5758 Pages = {1169-1172},
5759 Title = {Algorithm for numerical integration of the rigid-body equations of motion},
5760 Uri = {<Go to ISI>://000074893400151},
5761 Volume = 58,
5762 Year = 1998}
5763
5764 @article{Owren1992,
5765 Abstract = {Continuous, explicit Runge-Kutta methods with the minimal number of
5766 stages are considered. These methods are continuously differentiable
5767 if and only if one of the stages is the FSAL evaluation. A characterization
5768 of a subclass of these methods is developed for orders 3, 4, and
5769 5. It is shown how the free parameters of these methods can be used
5770 either to minimize the continuous truncation error coefficients
5771 or to maximize the stability region. As a representative for these
5772 methods the fifth-order method with minimized error coefficients
5773 is chosen, supplied with an error estimation method, and analysed
5774 by using the DETEST software. The results are compared with a similar
5775 implementation of the Dormand-Prince 5(4) pair with interpolant,
5776 showing a significant advantage in the new method for the chosen
5777 problems.},
5778 Annote = {Ju936 Times Cited:25 Cited References Count:20},
5779 Author = {B. Owren and M. Zennaro},
5780 Issn = {0196-5204},
5781 Journal = {Siam Journal on Scientific and Statistical Computing},
5782 Month = {Nov},
5783 Number = 6,
5784 Pages = {1488-1501},
5785 Title = {Derivation of Efficient, Continuous, Explicit Runge-Kutta Methods},
5786 Uri = {<Go to ISI>://A1992JU93600013},
5787 Volume = 13,
5788 Year = 1992}
5789
5790 @article{Palacios1998,
5791 Abstract = {The stochastic Landau-Lifshitz-Gilbert equation of motion for a classical
5792 magnetic moment is numerically solved (properly observing the customary
5793 interpretation of it as a Stratonovich stochastic differential equation),
5794 in order to study the dynamics of magnetic nanoparticles. The corresponding
5795 Langevin-dynamics approach allows for the study of the fluctuating
5796 trajectories of individual magnetic moments, where we have encountered
5797 remarkable phenomena in the overbarrier rotation process, such as
5798 crossing-back or multiple crossing of the potential barrier, rooted
5799 in the gyromagnetic nature of the system. Concerning averaged quantities,
5800 we study the linear dynamic response of the archetypal ensemble
5801 of noninteracting classical magnetic moments with axially symmetric
5802 magnetic anisotropy. The results are compared with different analytical
5803 expressions used to model the relaxation of nanoparticle ensembles,
5804 assessing their accuracy. It has been found that, among a number
5805 of heuristic expressions for the linear dynamic susceptibility,
5806 only the simple formula proposed by Shliomis and Stepanov matches
5807 the coarse features of the susceptibility reasonably. By comparing
5808 the numerical results with the asymptotic formula of Storonkin {Sov.
5809 Phys. Crystallogr. 30, 489 (1985) [Kristallografiya 30, 841 (1985)]},
5810 the effects of the intra-potential-well relaxation modes on the
5811 low-temperature longitudinal dynamic response have been assessed,
5812 showing their relatively small reflection in the susceptibility
5813 curves but their dramatic influence on the phase shifts. Comparison
5814 of the numerical results with the exact zero-damping expression
5815 for the transverse susceptibility by Garanin, Ishchenko, and Panina
5816 {Theor. Math. Phys. (USSR) 82, 169 (1990) [Teor. Mat. Fit. 82, 242
5817 (1990)]}, reveals a sizable contribution of the spread of the precession
5818 frequencies of the magnetic moment in the anisotropy field to the
5819 dynamic response at intermediate-to-high temperatures. [S0163-1829
5820 (98)00446-9].},
5821 Annote = {146XW Times Cited:66 Cited References Count:45},
5822 Author = {J. L. Garcia-Palacios and F. J. Lazaro},
5823 Issn = {0163-1829},
5824 Journal = {Physical Review B},
5825 Month = {Dec 1},
5826 Number = 22,
5827 Pages = {14937-14958},
5828 Title = {Langevin-dynamics study of the dynamical properties of small magnetic particles},
5829 Uri = {<Go to ISI>://000077460000052},
5830 Volume = 58,
5831 Year = 1998}
5832
5833 @article{Parr1995,
5834 Abstract = {Despite the parsing power of LR/LALR algorithms, e.g. YACC, programmers
5835 often choose to write recursive-descent parsers by hand to obtain
5836 increased flexibility, better error handling, and ease of debugging.
5837 We introduce ANTLR, a public-domain parser generator that combines
5838 the flexibility of hand-coded parsing with the convenience of a
5839 parser generator, which is a component of PCCTS. ANTLR has many
5840 features that make it easier to use than other language tools. Most
5841 important, ANTLR provides predicates which let the programmer systematically
5842 direct the parse via arbitrary expressions using semantic and syntactic
5843 context; in practice, the use of predicates eliminates the need
5844 to hand-tweak the ANTLR output, even for difficult parsing problems.
5845 ANTLR also integrates the description of lexical and syntactic analysis,
5846 accepts LL(k) grammars for k > 1 with extended BNF notation, and
5847 can automatically generate abstract syntax trees. ANTLR is widely
5848 used, with over 1000 registered industrial and academic users in
5849 37 countries. It has been ported to many popular systems such as
5850 the PC, Macintosh, and a variety of UNIX platforms; a commercial
5851 C++ front-end has been developed as a result of one of our industrial
5852 collaborations.},
5853 Annote = {Rk104 Times Cited:19 Cited References Count:10},
5854 Author = {T. J. Parr and R. W. Quong},
5855 Issn = {0038-0644},
5856 Journal = {Software-Practice \& Experience},
5857 Month = {Jul},
5858 Number = 7,
5859 Pages = {789-810},
5860 Title = {Antlr - a Predicated-Ll(K) Parser Generator},
5861 Uri = {<Go to ISI>://A1995RK10400004},
5862 Volume = 25,
5863 Year = 1995}
5864
5865 @article{Pastor1988,
5866 Annote = {T1302 Times Cited:61 Cited References Count:26},
5867 Author = {R. W. Pastor and B. R. Brooks and A. Szabo},
5868 Issn = {0026-8976},
5869 Journal = mp,
5870 Month = {Dec 20},
5871 Number = 6,
5872 Pages = {1409-1419},
5873 Title = {An Analysis of the Accuracy of Langevin and Molecular-Dynamics Algorithms},
5874 Uri = {<Go to ISI>://A1988T130200011},
5875 Volume = 65,
5876 Year = 1988}
5877
5878 @article{Pelzl1999,
5879 Annote = {220RC Times Cited:313 Cited References Count:49},
5880 Author = {G. Pelzl and S. Diele and W. Weissflog},
5881 Issn = {0935-9648},
5882 Journal = {Advanced Materials},
5883 Month = {Jul 5},
5884 Number = 9,
5885 Pages = {707-724},
5886 Title = {Banana-shaped compounds - A new field of liquid crystals},
5887 Uri = {<Go to ISI>://000081680400007},
5888 Volume = 11,
5889 Year = 1999}
5890
5891 @article{Perram1985,
5892 Annote = {Akb93 Times Cited:71 Cited References Count:12},
5893 Author = {J. W. Perram and M. S. Wertheim},
5894 Issn = {0021-9991},
5895 Journal = jcop,
5896 Number = 3,
5897 Pages = {409-416},
5898 Title = {Statistical-Mechanics of Hard Ellipsoids .1. Overlap Algorithm and the Contact Function},
5899 Uri = {<Go to ISI>://A1985AKB9300008},
5900 Volume = 58,
5901 Year = 1985}
5902
5903 @article{Rotne1969,
5904 Author = {F. Perrin},
5905 Journal = {J. Chem. Phys.},
5906 Pages = {4831-4837},
5907 Title = {Variational treatment of hydrodynamic interaction in polymers},
5908 Volume = 50,
5909 Year = 1969}
5910
5911 @article{Perrin1936,
5912 Author = {F. Perrin},
5913 Journal = {J. Phys. Radium},
5914 Pages = {1-11},
5915 Title = {Mouvement brownien d'un ellipsoid(II). Rotation libre et depolarisation des fluorescences. Translation et diffusion de moleculese ellipsoidales},
5916 Volume = 7,
5917 Year = 1936}
5918
5919 @article{Perrin1934,
5920 Author = {F. Perrin},
5921 Journal = {J. Phys. Radium},
5922 Pages = {497-511},
5923 Title = {Mouvement brownien d'un ellipsoid(I). Dispersion dielectrique pour des molecules ellipsoidales},
5924 Volume = 5,
5925 Year = 1934}
5926
5927 @article{Petrache2000,
5928 Author = {H.~I. Petrache and S.~W. Dodd and M.~F. Brown},
5929 Journal = bj,
5930 Pages = {3172-3192},
5931 Title = {Area per Lipid and Acyl Length Distributions in Fluid Phosphatidylcholines Determined by $^2\text{H}$ {\sc nmr} Spectroscopy},
5932 Volume = 79,
5933 Year = 2000}
5934
5935 @article{Petrache1998,
5936 Abstract = {X-ray diffraction data taken at high instrumental resolution were
5937 obtained for EPC and DMPC under various osmotic pressures, primarily
5938 at T = 30 degrees C. The headgroup thickness D-HH was obtained from
5939 relative electron density profiles. By using volumetric results
5940 and by comparing to gel phase DPPC we obtain areas A(EPC)(F) = 69.4
5941 +/- 1.1 Angstrom(2) and A(DMPC)(F) = 59.7 +/- 0.2 Angstrom(2). The
5942 analysis also gives estimates for the areal compressibility K-A.
5943 The A(F) results lead to other structural results regarding membrane
5944 thickness and associated waters. Using the recently determined absolute
5945 electrons density profile of DPPC, the AF results also lead to absolute
5946 electron density profiles and absolute continuous transforms \F(q)\
5947 for EPC and DMPC, Limited measurements of temperature dependence
5948 show directly that fluctuations increase with increasing temperature
5949 and that a small decrease in bending modulus K-c accounts for the
5950 increased water spacing reported by Simon et al. (1995) Biophys.
5951 J. 69, 1473-1483. (C) 1998 Elsevier Science Ireland Ltd. All rights
5952 reserved.},
5953 Annote = {130AT Times Cited:98 Cited References Count:39},
5954 Author = {H. I. Petrache and S. Tristram-Nagle and J. F. Nagle},
5955 Issn = {0009-3084},
5956 Journal = {Chemistry and Physics of Lipids},
5957 Month = {Sep},
5958 Number = 1,
5959 Pages = {83-94},
5960 Title = {Fluid phase structure of EPC and DMPC bilayers},
5961 Uri = {<Go to ISI>://000076497600007},
5962 Volume = 95,
5963 Year = 1998}
5964
5965 @article{Powles1973,
5966 Author = {J.~G. Powles},
5967 Journal = {Advan. Phys.},
5968 Pages = {1-56},
5969 Title = {A general ellipsoid can not always serve as a modle for the rotational diffusion properties of arbitrary shaped rigid molecules},
5970 Volume = 22,
5971 Year = 1973}
5972
5973 @article{Recio2004,
5974 Abstract = {Protein recognition is one of the most challenging and intriguing
5975 problems in structural biology. Despite all the available structural,
5976 sequence and biophysical information about protein-protein complexes,
5977 the physico-chemical patterns, if any, that make a protein surface
5978 likely to be involved in protein-protein interactions, remain elusive.
5979 Here, we apply protein docking simulations and analysis of the interaction
5980 energy landscapes to identify protein-protein interaction sites.
5981 The new protocol for global docking based on multi-start global
5982 energy optimization of an allatom model of the ligand, with detailed
5983 receptor potentials and atomic solvation parameters optimized in
5984 a training set of 24 complexes, explores the conformational space
5985 around the whole receptor without restrictions. The ensembles of
5986 the rigid-body docking solutions generated by the simulations were
5987 subsequently used to project the docking energy landscapes onto
5988 the protein surfaces. We found that highly populated low-energy
5989 regions consistently corresponded to actual binding sites. The procedure
5990 was validated on a test set of 21 known protein-protein complexes
5991 not used in the training set. As much as 81% of the predicted high-propensity
5992 patch residues were located correctly in the native interfaces.
5993 This approach can guide the design of mutations on the surfaces
5994 of proteins, provide geometrical details of a possible interaction,
5995 and help to annotate protein surfaces in structural proteomics.
5996 (C) 2003 Elsevier Ltd. All rights reserved.},
5997 Annote = {763GQ Times Cited:21 Cited References Count:59},
5998 Author = {J. Fernandez-Recio and M. Totrov and R. Abagyan},
5999 Issn = {0022-2836},
6000 Journal = jmb,
6001 Month = {Jan 16},
6002 Number = 3,
6003 Pages = {843-865},
6004 Title = {Identification of protein-protein interaction sites from docking energy landscapes},
6005 Uri = {<Go to ISI>://000188066900016},
6006 Volume = 335,
6007 Year = 2004}
6008
6009 @article{Reddy2006,
6010 Abstract = {An overview on the recent developments in the field of liquid crystalline
6011 bent-core molecules (so-called banana liquid crystals) is given.
6012 After some basic issues, dealing with general aspects of the systematisation
6013 of the mesophases, development of polar order and chirality in this
6014 class of LC systems and explaining some general structure-property
6015 relationships, we focus on fascinating new developments in this
6016 field, such as modulated, undulated and columnar phases, so-called
6017 B7 phases, phase biaxiality, ferroelectric and antiferroelectric
6018 polar order in smectic and columnar phases, amplification and switching
6019 of chirality and the spontaneous formation of superstructural and
6020 supramolecular chirality.},
6021 Annote = {021NS Times Cited:2 Cited References Count:316},
6022 Author = {R. A. Reddy and C. Tschierske},
6023 Issn = {0959-9428},
6024 Journal = {Journal of Materials Chemistry},
6025 Number = 10,
6026 Pages = {907-961},
6027 Title = {Bent-core liquid crystals: polar order, superstructural chirality and spontaneous desymmetrisation in soft matter systems},
6028 Uri = {<Go to ISI>://000235990500001},
6029 Volume = 16,
6030 Year = 2006}
6031
6032 @article{Reich1999,
6033 Abstract = {Backward error analysis has become an important tool for understanding
6034 the long time behavior of numerical integration methods. This is
6035 true in particular for the integration of Hamiltonian systems where
6036 backward error analysis can be used to show that a symplectic method
6037 will conserve energy over exponentially long periods of time. Such
6038 results are typically based on two aspects of backward error analysis:
6039 (i) It can be shown that the modified vector fields have some qualitative
6040 properties which they share with the given problem and (ii) an estimate
6041 is given for the difference between the best interpolating vector
6042 field and the numerical method. These aspects have been investigated
6043 recently, for example, by Benettin and Giorgilli in [J. Statist.
6044 Phys., 74 (1994), pp. 1117-1143], by Hairer in [Ann. Numer. Math.,
6045 1 (1994), pp. 107-132], and by Hairer and Lubich in [Numer. Math.,
6046 76 (1997), pp. 441-462]. In this paper we aim at providing a unifying
6047 framework and a simplification of the existing results and corresponding
6048 proofs. Our approach to backward error analysis is based on a simple
6049 recursive definition of the modified vector fields that does not
6050 require explicit Taylor series expansion of the numerical method
6051 and the corresponding flow maps as in the above-cited works. As
6052 an application we discuss the long time integration of chaotic Hamiltonian
6053 systems and the approximation of time averages along numerically
6054 computed trajectories.},
6055 Annote = {237HV Times Cited:43 Cited References Count:41},
6056 Author = {S. Reich},
6057 Issn = {0036-1429},
6058 Journal = {Siam Journal on Numerical Analysis},
6059 Month = {Sep 8},
6060 Number = 5,
6061 Pages = {1549-1570},
6062 Title = {Backward error analysis for numerical integrators},
6063 Uri = {<Go to ISI>://000082650600010},
6064 Volume = 36,
6065 Year = 1999}
6066
6067 @article{Ros2005,
6068 Abstract = {The recent literature in the field of liquid crystals shows that banana-shaped
6069 mesogenic materials represent a bewitching and stimulating field
6070 of research that is interesting both academically and in terms of
6071 applications. Numerous topics are open to investigation in this
6072 area because of the rich phenomenology and new possibilities that
6073 these materials offer. The principal concepts in this area are reviewed
6074 along with recent results. In addition, new directions to stimulate
6075 further research activities are highlighted.},
6076 Annote = {990XA Times Cited:3 Cited References Count:72},
6077 Author = {M. B. Ros and J. L. Serrano and M. R. {de la Fuente} and C. L. Folcia},
6078 Issn = {0959-9428},
6079 Journal = {Journal of Materials Chemistry},
6080 Number = 48,
6081 Pages = {5093-5098},
6082 Title = {Banana-shaped liquid crystals: a new field to explore},
6083 Uri = {<Go to ISI>://000233775500001},
6084 Volume = 15,
6085 Year = 2005}
6086
6087 @article{Roux1991,
6088 Abstract = {The mobility of water, Na+. and K+ has been calculated inside a periodic
6089 poly-(L,D)-alanine beta-helix, a model for the interior of the gramicidin
6090 channel. Because of the different dynamical regimes for the three
6091 species (high barrier for Na+, low barrier for K+, almost free diffusion
6092 for water), different methods are used to calculate the mobilities.
6093 By use of activated dynamics and a potential of mean force determined
6094 previously (Roux, B.; Karplus, M. Biophys. J. 1991, 59, 961), the
6095 barrier crossing rate of Na+ ion is determined. The motion of Na+
6096 at the transition state is controlled by local interactions and
6097 collisions with the neighboring carbonyls and the two nearest water
6098 molecules. There are significant deviations from transition-state
6099 theory; the transmission coefficient is equal to 0.11. The water
6100 and K+ motions are found to be well described by a diffusive model;
6101 the motion of K+ appears to be controlled by the diffusion of water.
6102 The time-dependent friction functions of Na+ and K+ ions in the
6103 periodic beta-helix are calculated and analyzed by using a generalized
6104 Langevin equation approach. Both Na+ and K+ suffer many rapid collisions,
6105 and their dynamics is overdamped and noninertial. Thus, the selectivity
6106 sequence of ions in the beta-helix is not influenced strongly by
6107 their masses.},
6108 Annote = {Fr756 Times Cited:97 Cited References Count:65},
6109 Author = {B. Roux and M. Karplus},
6110 Issn = {0022-3654},
6111 Journal = {Journal of Physical Chemistry},
6112 Month = {Jun 13},
6113 Number = 12,
6114 Pages = {4856-4868},
6115 Title = {Ion-Transport in a Gramicidin-Like Channel - Dynamics and Mobility},
6116 Uri = {<Go to ISI>://A1991FR75600049},
6117 Volume = 95,
6118 Year = 1991}
6119
6120 @article{Roy2005,
6121 Abstract = {A vast majority of compounds with bent core or banana shaped molecules
6122 exhibit the phase sequence B-6-B-1-B-2 as the chain length is increased
6123 in a homologous series. The B-6 phase has an intercalated fluid
6124 lamellar structure with a layer spacing of half the molecular length.
6125 The B-1 phase has a two dimensionally periodic rectangular columnar
6126 structure. The B-2 phase has a monolayer fluid lamellar structure
6127 with molecules tilted with respect to the layer normal. Neglecting
6128 the tilt order of the molecules in the B-2 phase, we have developed
6129 a frustrated packing model to describe this phase sequence qualitatively.
6130 The model has some analogy with that of the frustrated smectics
6131 exhibited by highly polar rod like molecules.},
6132 Annote = {985FW Times Cited:0 Cited References Count:30},
6133 Author = {A. Roy and N. V. Madhusudana},
6134 Issn = {1292-8941},
6135 Journal = {European Physical Journal E},
6136 Month = {Nov},
6137 Number = 3,
6138 Pages = {253-258},
6139 Title = {A frustrated packing model for the B-6-B-1-SmAP(A) sequence of phases in banana shaped molecules},
6140 Uri = {<Go to ISI>://000233363300002},
6141 Volume = 18,
6142 Year = 2005}
6143
6144 @article{Ryckaert1977,
6145 Annote = {Cz253 Times Cited:3680 Cited References Count:7},
6146 Author = {J. P. Ryckaert and G. Ciccotti and H. J. C. Berendsen},
6147 Issn = {0021-9991},
6148 Journal = jcop,
6149 Number = 3,
6150 Pages = {327-341},
6151 Title = {Numerical-Integration of Cartesian Equations of Motion of a System with Constraints - Molecular-Dynamics of N-Alkanes},
6152 Uri = {<Go to ISI>://A1977CZ25300007},
6153 Volume = 23,
6154 Year = 1977}
6155
6156 @article{Sagui1999,
6157 Abstract = {Current computer simulations of biomolecules typically make use of
6158 classical molecular dynamics methods, as a very large number (tens
6159 to hundreds of thousands) of atoms are involved over timescales
6160 of many nanoseconds. The methodology for treating short-range bonded
6161 and van der Waals interactions has matured. However, long-range
6162 electrostatic interactions still represent a bottleneck in simulations.
6163 In this article, we introduce the basic issues for an accurate representation
6164 of the relevant electrostatic interactions. In spite of the huge
6165 computational time demanded by most biomolecular systems, it is
6166 no longer necessary to resort to uncontrolled approximations such
6167 as the use of cutoffs. In particular, we discuss the Ewald summation
6168 methods, the fast particle mesh methods, and the fast multipole
6169 methods. We also review recent efforts to understand the role of
6170 boundary conditions in systems with long-range interactions, and
6171 conclude with a short perspective on future trends.},
6172 Annote = {213KJ Times Cited:126 Cited References Count:73},
6173 Author = {C. Sagui and T. A. Darden},
6174 Issn = {1056-8700},
6175 Journal = {Annual Review of Biophysics and Biomolecular Structure},
6176 Pages = {155-179},
6177 Title = {Molecular dynamics simulations of biomolecules: Long-range electrostatic effects},
6178 Uri = {<Go to ISI>://000081271400008},
6179 Volume = 28,
6180 Year = 1999}
6181
6182 @article{Sandu1999,
6183 Abstract = {Numerical resonance artifacts have become recognized recently as a
6184 limiting factor to increasing the timestep in multiple-timestep
6185 (MTS) biomolecular dynamics simulations. At certain timesteps correlated
6186 to internal motions (e.g., 5 fs, around half the period of the fastest
6187 bond stretch, T-min), visible inaccuracies or instabilities can
6188 occur. Impulse-MTS schemes are vulnerable to these resonance errors
6189 since large energy pulses are introduced to the governing dynamics
6190 equations when the slow forces are evaluated. We recently showed
6191 that such resonance artifacts can be masked significantly by applying
6192 extrapolative splitting to stochastic dynamics. Theoretical and
6193 numerical analyses of force-splitting integrators based on the Verlet
6194 discretization are reported here for linear models to explain these
6195 observations and to suggest how to construct effective integrators
6196 for biomolecular dynamics that balance stability with accuracy.
6197 Analyses for Newtonian dynamics demonstrate the severe resonance
6198 patterns of the Impulse splitting, with this severity worsening
6199 with the outer timestep. Delta t: Constant Extrapolation is generally
6200 unstable, but the disturbances do not grow with Delta t. Thus. the
6201 stochastic extrapolative combination can counteract generic instabilities
6202 and largely alleviate resonances with a sufficiently strong Langevin
6203 heat-bath coupling (gamma), estimates for which are derived here
6204 based on the fastest and slowest motion periods. These resonance
6205 results generally hold for nonlinear test systems: a water tetramer
6206 and solvated protein. Proposed related approaches such as Extrapolation/Correction
6207 and Midpoint Extrapolation work better than Constant Extrapolation
6208 only for timesteps less than T-min/2. An effective extrapolative
6209 stochastic approach for biomolecules that balances long-timestep
6210 stability with good accuracy for the fast subsystem is then applied
6211 to a biomolecule using a three-class partitioning: the medium forces
6212 are treated by Midpoint Extrapolation via position Verlet, and the
6213 slow forces are incorporated by Constant Extrapolation. The resulting
6214 algorithm (LN) performs well on a solvated protein system in terms
6215 of thermodynamic properties and yields an order of magnitude speedup
6216 with respect to single-timestep Langevin trajectories. Computed
6217 spectral density functions also show how the Newtonian modes can
6218 be approximated by using a small gamma in the range Of 5-20 ps(-1).
6219 (C) 1999 Academic Press.},
6220 Annote = {194FM Times Cited:14 Cited References Count:32},
6221 Author = {A. Sandu and T. Schlick},
6222 Issn = {0021-9991},
6223 Journal = jcop,
6224 Month = {May 1},
6225 Number = 1,
6226 Pages = {74-113},
6227 Title = {Masking resonance artifacts in force-splitting methods for biomolecular simulations by extrapolative Langevin dynamics},
6228 Uri = {<Go to ISI>://000080181500004},
6229 Volume = 151,
6230 Year = 1999}
6231
6232 @article{Sasaki2004,
6233 Abstract = {Tris(2-aminoethyl) amine derivatives with appended urea and sulfonamide
6234 groups are shown to facilitate the translocation of fluorescent
6235 phospholipid probes and endogenous phosphatidylserine across vesicle
6236 and erythrocyte cell membranes. The synthetic translocases appear
6237 to operate by binding to the phospholipid head groups and forming
6238 lipophilic supramolecular complexes which diffuse through the non-polar
6239 interior of the bilayer membrane.},
6240 Annote = {760PX Times Cited:8 Cited References Count:25},
6241 Author = {Y. Sasaki and R. Shukla and B. D. Smith},
6242 Issn = {1477-0520},
6243 Journal = {Organic \& Biomolecular Chemistry},
6244 Number = 2,
6245 Pages = {214-219},
6246 Title = {Facilitated phosphatidylserine flip-flop across vesicle and cell membranes using urea-derived synthetic translocases},
6247 Uri = {<Go to ISI>://000187843800012},
6248 Volume = 2,
6249 Year = 2004}
6250
6251 @article{Satoh1996,
6252 Abstract = {The effects of dipole-dipole interaction on mesophase formation are
6253 investigated with a Monte Carlo simulation using the dipolar Gay-Berne
6254 potential. It is shown that the dipole moment at the end of a molecule
6255 causes a shift in the nematic-isotropic transition toward higher
6256 temperature and a spread of the temperature range of the nematic
6257 phase and that layer structures with various interdigitations are
6258 formed in the smectic phase.},
6259 Annote = {Uq975 Times Cited:32 Cited References Count:33},
6260 Author = {K. Satoh and S. Mita and S. Kondo},
6261 Issn = {0009-2614},
6262 Journal = {Chemical Physics Letters},
6263 Month = {Jun 7},
6264 Number = {1-3},
6265 Pages = {99-104},
6266 Title = {Monte Carlo simulations using the dipolar Gay-Berne model: Effect of terminal dipole moment on mesophase formation},
6267 Uri = {<Go to ISI>://A1996UQ97500017},
6268 Volume = 255,
6269 Year = 1996}
6270
6271 @article{Schaps1999,
6272 Annote = {163EC Times Cited:0 Cited References Count:0},
6273 Author = {G. L. Schaps},
6274 Issn = {1044-789X},
6275 Journal = {Dr Dobbs Journal},
6276 Month = {Mar},
6277 Number = 3,
6278 Pages = {84-+},
6279 Title = {Compiler construction with ANTLR and Java - Tools for building tools},
6280 Uri = {<Go to ISI>://000078389200023},
6281 Volume = 24,
6282 Year = 1999}
6283
6284 @article{Shen2002,
6285 Abstract = {Met-enkephalin is one of the smallest opiate peptides. Yet, its dynamical
6286 structure and receptor docking mechanism are still not well understood.
6287 The conformational dynamics of this neuron peptide in liquid water
6288 are studied here by using all-atom molecular dynamics (MID) and
6289 implicit water Langevin dynamics (LD) simulations with AMBER potential
6290 functions and the three-site transferable intermolecular potential
6291 (TIP3P) model for water. To achieve the same simulation length in
6292 physical time, the full MID simulations require 200 times as much
6293 CPU time as the implicit water LID simulations. The solvent hydrophobicity
6294 and dielectric behavior are treated in the implicit solvent LD simulations
6295 by using a macroscopic solvation potential, a single dielectric
6296 constant, and atomic friction coefficients computed using the accessible
6297 surface area method with the TIP3P model water viscosity as determined
6298 here from MID simulations for pure TIP3P water. Both the local and
6299 the global dynamics obtained from the implicit solvent LD simulations
6300 agree very well with those from the explicit solvent MD simulations.
6301 The simulations provide insights into the conformational restrictions
6302 that are associated with the bioactivity of the opiate peptide dermorphin
6303 for the delta-receptor.},
6304 Annote = {540MH Times Cited:36 Cited References Count:45},
6305 Author = {M. Y. Shen and K. F. Freed},
6306 Issn = {0006-3495},
6307 Journal = bj,
6308 Month = {Apr},
6309 Number = 4,
6310 Pages = {1791-1808},
6311 Title = {Long time dynamics of met-enkephalin: Comparison of explicit and implicit solvent models},
6312 Uri = {<Go to ISI>://000174932400010},
6313 Volume = 82,
6314 Year = 2002}
6315
6316 @article{Shillcock2005,
6317 Annote = {901QJ Times Cited:9 Cited References Count:23},
6318 Author = {J. C. Shillcock and R. Lipowsky},
6319 Issn = {1476-1122},
6320 Journal = {Nature Materials},
6321 Month = {Mar},
6322 Number = 3,
6323 Pages = {225-228},
6324 Title = {Tension-induced fusion of bilayer membranes and vesicles},
6325 Uri = {<Go to ISI>://000227296700019},
6326 Volume = 4,
6327 Year = 2005}
6328
6329 @article{Shimada1993,
6330 Abstract = {To make improved treatments of electrostatic interactions in biomacromolecular
6331 simulations, two possibilities are considered. The first is the
6332 famous particle-particle and particle-mesh (PPPM) method developed
6333 by Hockney and Eastwood, and the second is a new one developed here
6334 in their spirit but by the use of the multipole expansion technique
6335 suggested by Ladd. It is then numerically found that the new PPPM
6336 method gives more accurate results for a two-particle system at
6337 small separation of particles. Preliminary numerical examination
6338 of the various computational methods for a single configuration
6339 of a model BPTI-water system containing about 24,000 particles indicates
6340 that both of the PPPM methods give far more accurate values with
6341 reasonable computational cost than do the conventional truncation
6342 methods. It is concluded the two PPPM methods are nearly comparable
6343 in overall performance for the many-particle systems, although the
6344 first method has the drawback that the accuracy in the total electrostatic
6345 energy is not high for configurations of charged particles randomly
6346 generated.},
6347 Annote = {Lh164 Times Cited:27 Cited References Count:47},
6348 Author = {J. Shimada and H. Kaneko and T. Takada},
6349 Issn = {0192-8651},
6350 Journal = jcc,
6351 Month = {Jul},
6352 Number = 7,
6353 Pages = {867-878},
6354 Title = {Efficient Calculations of Coulombic Interactions in Biomolecular Simulations with Periodic Boundary-Conditions},
6355 Uri = {<Go to ISI>://A1993LH16400011},
6356 Volume = 14,
6357 Year = 1993}
6358
6359 @article{Skeel2002,
6360 Abstract = {The best simple method for Newtonian molecular dynamics is indisputably
6361 the leapfrog Stormer-Verlet method. The appropriate generalization
6362 to simple Langevin dynamics is unclear. An analysis is presented
6363 comparing an 'impulse method' (kick; fluctuate; kick), the 1982
6364 method of van Gunsteren and Berendsen, and the Brunger-Brooks-Karplus
6365 (BBK) method. It is shown how the impulse method and the van Gunsteren-Berendsen
6366 methods can be implemented as efficiently as the BBK method. Other
6367 considerations suggest that the impulse method is the best basic
6368 method for simple Langevin dynamics, with the van Gunsteren-Berendsen
6369 method a close contender.},
6370 Annote = {633RX Times Cited:8 Cited References Count:22},
6371 Author = {R. D. Skeel and J. A. Izaguirre},
6372 Issn = {0026-8976},
6373 Journal = mp,
6374 Month = {Dec 20},
6375 Number = 24,
6376 Pages = {3885-3891},
6377 Title = {An impulse integrator for Langevin dynamics},
6378 Uri = {<Go to ISI>://000180297200014},
6379 Volume = 100,
6380 Year = 2002}
6381
6382 @article{Skeel1997,
6383 Abstract = {The following integration methods for special second-order ordinary
6384 differential equations are studied: leapfrog, implicit midpoint,
6385 trapezoid, Stormer-Verlet, and Cowell-Numerov. We show that all
6386 are members, or equivalent to members, of a one-parameter family
6387 of schemes. Some methods have more than one common form, and we
6388 discuss a systematic enumeration of these forms. We also present
6389 a stability and accuracy analysis based on the idea of ''modified
6390 equations'' and a proof of symplecticness. It follows that Cowell-Numerov
6391 and ''LIM2'' (a method proposed by Zhang and Schlick) are symplectic.
6392 A different interpretation of the values used by these integrators
6393 leads to higher accuracy and better energy conservation. Hence,
6394 we suggest that the straightforward analysis of energy conservation
6395 is misleading.},
6396 Annote = {We981 Times Cited:30 Cited References Count:35},
6397 Author = {R. D. Skeel and G. H. Zhang and T. Schlick},
6398 Issn = {1064-8275},
6399 Journal = {Siam Journal on Scientific Computing},
6400 Month = {Jan},
6401 Number = 1,
6402 Pages = {203-222},
6403 Title = {A family of symplectic integrators: Stability, accuracy, and molecular dynamics applications},
6404 Uri = {<Go to ISI>://A1997WE98100012},
6405 Volume = 18,
6406 Year = 1997}
6407
6408 @article{Tao2005,
6409 Abstract = {Recently a microscopic theory for the dynamics of suspensions of long
6410 thin rigid rods was presented, confirming and expanding the well-known
6411 theory by Doi and Edwards [The Theory of Polymer Dynamics (Clarendon,
6412 Oxford, 1986)] and Kuzuu [J. Phys. Soc. Jpn. 52, 3486 (1983)]. Here
6413 this theory is put to the test by comparing it against computer
6414 simulations. A Brownian dynamics simulation program was developed
6415 to follow the dynamics of the rods, with a length over a diameter
6416 ratio of 60, on the Smoluchowski time scale. The model accounts
6417 for excluded volume interactions between rods, but neglects hydrodynamic
6418 interactions. The self-rotational diffusion coefficients D-r(phi)
6419 of the rods were calculated by standard methods and by a new, more
6420 efficient method based on calculating average restoring torques.
6421 Collective decay of orientational order was calculated by means
6422 of equilibrium and nonequilibrium simulations. Our results show
6423 that, for the currently accessible volume fractions, the decay times
6424 in both cases are virtually identical. Moreover, the observed decay
6425 of diffusion coefficients with volume fraction is much quicker than
6426 predicted by the theory, which is attributed to an oversimplification
6427 of dynamic correlations in the theory. (c) 2005 American Institute
6428 of Physics.},
6429 Annote = {943DN Times Cited:3 Cited References Count:26},
6430 Author = {Y. G. Tao and W. K. {den Otter} and J. T. Padding and J. K. G. Dhont and W. J. Briels},
6431 Issn = {0021-9606},
6432 Journal = jcp,
6433 Month = {Jun 22},
6434 Number = 24,
6435 Pages = {-},
6436 Title = {Brownian dynamics simulations of the self- and collective rotational diffusion coefficients of rigid long thin rods},
6437 Uri = {<Go to ISI>://000230332400077},
6438 Volume = 122,
6439 Year = 2005}
6440
6441 @book{Tolman1979,
6442 Address = {New York},
6443 Author = {R.~C. Tolman},
6444 Chapter = 2,
6445 Pages = {19-22},
6446 Publisher = {Dover Publications, Inc.},
6447 Title = {The Principles of Statistical Mechanics},
6448 Year = 1979}
6449
6450 @article{Tu1995,
6451 Abstract = {We report a constant pressure and temperature molecular dynamics simulation
6452 of a fully hydrated liquid crystal (L(alpha) phase bilayer of dipalmitoylphosphatidylcholine
6453 at 50 degrees C and 28 water molecules/lipid. We have shown that
6454 the bilayer is stable throughout the 1550-ps simulation and have
6455 demonstrated convergence of the system dimensions. Several important
6456 aspects of the bilayer structure have been investigated and compared
6457 favorably with experimental results. For example, the average positions
6458 of specific carbon atoms along the bilayer normal agree well with
6459 neutron diffraction data, and the electron density profile is in
6460 accord with x-ray diffraction results. The hydrocarbon chain deuterium
6461 order parameters agree reasonably well with NMR results for the
6462 middles of the chains, but the simulation predicts too much order
6463 at the chain ends. In spite of the deviations in the order parameters,
6464 the hydrocarbon chain packing density appears to be essentially
6465 correct, inasmuch as the area/lipid and bilayer thickness are in
6466 agreement with the most refined experimental estimates. The deuterium
6467 order parameters for the glycerol and choline groups, as well as
6468 the phosphorus chemical shift anisotropy, are in qualitative agreement
6469 with those extracted from NMR measurements.},
6470 Annote = {Tv018 Times Cited:108 Cited References Count:34},
6471 Author = {K. Tu and D. J. Tobias and M. L. Klein},
6472 Issn = {0006-3495},
6473 Journal = bj,
6474 Month = {Dec},
6475 Number = 6,
6476 Pages = {2558-2562},
6477 Title = {Constant pressure and temperature molecular dynamics simulation of a fully hydrated liquid crystal phase dipalmitoylphosphatidylcholine bilayer},
6478 Uri = {<Go to ISI>://A1995TV01800037},
6479 Volume = 69,
6480 Year = 1995}
6481
6482 @article{Tuckerman1992,
6483 Abstract = {The Trotter factorization of the Liouville propagator is used to generate
6484 new reversible molecular dynamics integrators. This strategy is
6485 applied to derive reversible reference system propagator algorithms
6486 (RESPA) that greatly accelerate simulations of systems with a separation
6487 of time scales or with long range forces. The new algorithms have
6488 all of the advantages of previous RESPA integrators but are reversible,
6489 and more stable than those methods. These methods are applied to
6490 a set of paradigmatic systems and are shown to be superior to earlier
6491 methods. It is shown how the new RESPA methods are related to predictor-corrector
6492 integrators. Finally, we show how these methods can be used to accelerate
6493 the integration of the equations of motion of systems with Nose
6494 thermostats.},
6495 Annote = {Je891 Times Cited:680 Cited References Count:19},
6496 Author = {M. Tuckerman and B. J. Berne and G. J. Martyna},
6497 Issn = {0021-9606},
6498 Journal = jcp,
6499 Month = {Aug 1},
6500 Number = 3,
6501 Pages = {1990-2001},
6502 Title = {Reversible Multiple Time Scale Molecular-Dynamics},
6503 Uri = {<Go to ISI>://A1992JE89100044},
6504 Volume = 97,
6505 Year = 1992}
6506
6507 @book{Varadarajan1974,
6508 Address = {New York},
6509 Author = {V.S. Varadarajan},
6510 Publisher = {Prentice-Hall},
6511 Title = {Lie groups, Lie algebras, and their representations},
6512 Year = 1974}
6513
6514 @article{Vincent1995,
6515 Abstract = {We have implemented a portable parallel version of the macromolecular
6516 modeling package AMBER4. The message passing paradigm was used.
6517 All message passing constructs are compliant with the Message Passing
6518 Interface (MPI) standard. The molecular dynamics/minimization module
6519 MINMD and the free-energy perturbation module Gibbs have been implemented
6520 in parallel on a number of machines, including a Gray T3D, an IBM
6521 SP1/SP2, and a collection of networked workstations. In addition,
6522 the code has been tested with an MPI implementation from Argonne
6523 National Laboratories/Mississippi State University which runs on
6524 many parallel machines. The goal of this work is to decrease the
6525 amount of time required to perform molecular dynamics simulations.
6526 Performance results for a Lipid bilayer molecular dynamics simulation
6527 on a Gray T3D, an IBM SP1/SPZ and a Gray C90 are compared. (C) 1995
6528 by John Wiley & Sons, Inc.},
6529 Annote = {Ta403 Times Cited:16 Cited References Count:23},
6530 Author = {J. J. Vincent and K. M. Merz},
6531 Issn = {0192-8651},
6532 Journal = jcc,
6533 Month = {Nov},
6534 Number = 11,
6535 Pages = {1420-1427},
6536 Title = {A Highly Portable Parallel Implementation of Amber4 Using the Message-Passing Interface Standard},
6537 Uri = {<Go to ISI>://A1995TA40300009},
6538 Volume = 16,
6539 Year = 1995}
6540
6541 @article{Wegener1979,
6542 Author = {W.~A. Wegener, V.~J. Koester and R.~M. Dowben},
6543 Journal = {Proc. Natl. Acad. Sci.},
6544 Number = 12,
6545 Pages = {6356-6360},
6546 Title = {A general ellipsoid can not always serve as a modle for the rotational diffusion properties of arbitrary shaped rigid molecules},
6547 Volume = 76,
6548 Year = 1979}
6549
6550 @article{Wilson2006,
6551 Author = {G.~V. Wilson},
6552 Journal = {American Scientist},
6553 Title = {Where's the Real Bottleneck in Scientific Computing?},
6554 Volume = 94,
6555 Year = 2006}
6556
6557 @article{Withers2003,
6558 Abstract = {The effects of longitudinal quadrupole moments on the formation of
6559 liquid crystalline phases are studied by means of constant NPT Monte
6560 Carlo simulation methods. The popular Gay-Berne model mesogen is
6561 used as the reference fluid, which displays the phase sequences
6562 isotropic-smectic A-smectic B and isotropic-smectic B at high (T*=2.0)
6563 and low (T*=1.5) temperatures, respectively. With increasing quadrupole
6564 magnitude the smectic phases are observed to be stabilized with
6565 respect to the isotropic liquid, while the smectic B is destabilized
6566 with respect to the smectic A. At the lower temperature, a sufficiently
6567 large quadrupole magnitude results in the injection of the smectic
6568 A phase into the phase sequence and the replacement of the smectic
6569 B phase by the tilted smectic J phase. The nematic phase is also
6570 injected into the phase sequence at both temperatures considered,
6571 and ultimately for sufficiently large quadrupole magnitudes no coherent
6572 layered structures were observed. The stabilization of the smectic
6573 A phase supports the commonly held belief that, while the inclusion
6574 of polar groups is not a prerequisite for the formation of the smectic
6575 A phase, quadrupolar interactions help to increase the temperature
6576 and pressure range for which the smectic A phase is observed. The
6577 quality of the layered structure is worsened with increasing quadrupole
6578 magnitude. This behavior, along with the injection of the nematic
6579 phase into the phase sequence, indicate that the general tendency
6580 of the quadrupolar interactions is to destabilize the layered structure.
6581 A pressure dependence upon the smectic layer spacing is observed.
6582 This behavior is in much closer agreement with experimental findings
6583 than has been observed previously for nonpolar Gay-Berne and hard
6584 spherocylinder models. (C) 2003 American Institute of Physics.},
6585 Annote = {738EF Times Cited:3 Cited References Count:43},
6586 Author = {I. M. Withers},
6587 Issn = {0021-9606},
6588 Journal = jcp,
6589 Month = {Nov 15},
6590 Number = 19,
6591 Pages = {10209-10223},
6592 Title = {Effects of longitudinal quadrupoles on the phase behavior of a Gay-Berne fluid},
6593 Uri = {<Go to ISI>://000186273200027},
6594 Volume = 119,
6595 Year = 2003}
6596
6597 @article{Wolf1999,
6598 Abstract = {Based on a recent result showing that the net Coulomb potential in
6599 condensed ionic systems is rather short ranged, an exact and physically
6600 transparent method permitting the evaluation of the Coulomb potential
6601 by direct summation over the r(-1) Coulomb pair potential is presented.
6602 The key observation is that the problems encountered in determining
6603 the Coulomb energy by pairwise, spherically truncated r(-1) summation
6604 are a direct consequence of the fact that the system summed over
6605 is practically never neutral. A simple method is developed that
6606 achieves charge neutralization wherever the r(-1) pair potential
6607 is truncated. This enables the extraction of the Coulomb energy,
6608 forces, and stresses from a spherically truncated, usually charged
6609 environment in a manner that is independent of the grouping of the
6610 pair terms. The close connection of our approach with the Ewald
6611 method is demonstrated and exploited, providing an efficient method
6612 for the simulation of even highly disordered ionic systems by direct,
6613 pairwise r(-1) summation with spherical truncation at rather short
6614 range, i.e., a method which fully exploits the short-ranged nature
6615 of the interactions in ionic systems. The method is validated by
6616 simulations of crystals, liquids, and interfacial systems, such
6617 as free surfaces and grain boundaries. (C) 1999 American Institute
6618 of Physics. [S0021-9606(99)51517-1].},
6619 Annote = {189PD Times Cited:70 Cited References Count:34},
6620 Author = {D. Wolf and P. Keblinski and S. R. Phillpot and J. Eggebrecht},
6621 Issn = {0021-9606},
6622 Journal = jcp,
6623 Month = {May 1},
6624 Number = 17,
6625 Pages = {8254-8282},
6626 Title = {Exact method for the simulation of Coulombic systems by spherically truncated, pairwise r(-1) summation},
6627 Uri = {<Go to ISI>://000079913000008},
6628 Volume = 110,
6629 Year = 1999}
6630
6631 @article{Yoshida1990,
6632 Annote = {Ej798 Times Cited:492 Cited References Count:9},
6633 Author = {H. Yoshida},
6634 Issn = {0375-9601},
6635 Journal = {Physics Letters A},
6636 Month = {Nov 12},
6637 Number = {5-7},
6638 Pages = {262-268},
6639 Title = {Construction of Higher-Order Symplectic Integrators},
6640 Uri = {<Go to ISI>://A1990EJ79800009},
6641 Volume = 150,
6642 Year = 1990}
6643
6644 @article{Blum1972,
6645 Author = {L. Blum and A.~J. Torruella},
6646 Journal = jcp,
6647 Number = 1,
6648 Pages = {303-309},
6649 Title = {Computer simulations of bilayer membranes: Self-assembly and interfacial tension},
6650 Volume = 56,
6651 Year = 1972}
6652
6653 @article{Stone1978,
6654 Author = {A.~J. Stone},
6655 Journal = mp,
6656 Number = 1,
6657 Pages = {241-256},
6658 Title = {The description of bimolecular potentials, forces and torques: the S and V function expansions},
6659 Volume = 36,
6660 Year = 1978}
6661
6662 @article{Berardi2003,
6663 Author = {R. Berardi, M. Cecchini and C. Zannoni},
6664 Journal = jcp,
6665 Number = 18,
6666 Pages = {9933-9946},
6667 Title = {A Monte Carlo study of the chiral columnar organizations of dissymmetric discotic mesogens},
6668 Volume = 119,
6669 Year = 2003}
6670
6671 @article{Beard2000,
6672 Author = {D. A. Beard and T. Schlick},
6673 Journal = jcp,
6674 Number = 17,
6675 Pages = {7313-7322},
6676 Title = {Inertial Stochastic Dynamics. I. Long-time-step Methods for Langevin Dynamics},
6677 Volume = 112,
6678 Year = 2000}
6679
6680 @book{Hirsch1997,
6681 Address = {New York},
6682 Author = {M.W. Hirsch},
6683 Publisher = {Springer},
6684 Title = {Differential Topology},
6685 Year = 1997}
6686
6687 @book{Jost2002,
6688 Address = {Berlin},
6689 Author = {J. Jost},
6690 Publisher = {Springer-Verlag},
6691 Title = {Riemannian Geometry and Geometric Analysis},
6692 Year = 2002}
6693
6694 @book{McDuff1998,
6695 Address = {Oxford},
6696 Author = {D. McDuff and D. Salamon},
6697 Publisher = {Oxford Mathematical Monographs},
6698 Title = {Introduction to Symplectic Topology},
6699 Year = 1998}
6700
6701 @article{Matubayasi1999,
6702 Author = {N. Matubayasi and M. Nakahara},
6703 Journal = jcp,
6704 Number = 7,
6705 Pages = {3291-3301},
6706 Title = {Reversible molecular dynamics for rigid bodies and hybrid Monte Carlo},
6707 Volume = 110,
6708 Year = 1999}
6709
6710 @article{Miller2002,
6711 Author = {T.F. Miller III, M. Eleftheriou},
6712 Journal = jcp,
6713 Number = 20,
6714 Pages = {8649-8659},
6715 Title = {Symplectic quaternion scheme for biophysical molecular dynamics},
6716 Volume = 116,
6717 Year = 1999}
6718
6719 @article{McMillan1971,
6720 Author = {W.L. McMillan},
6721 Journal = jcp,
6722 Number = 3,
6723 Pages = {1238-1246},
6724 Title = {Simple Molecular Model for the Smectic A Phase of Liquid Crystals},
6725 Volume = 4,
6726 Year = 1971}
6727
6728 @article{Gilmore1974,
6729 Author = {R. Gilmore},
6730 Journal = {Journal of Mathematical Physics},
6731 Number = 12,
6732 Pages = {2090-2092},
6733 Title = {Baker-Campbell-Hausdorff Formulas},
6734 Volume = 15,
6735 Year = 1974}
6736
6737 @article{Strang1968,
6738 Author = {G. Strang},
6739 Journal = {SIAM Journal on Numerical Analysis},
6740 Number = 3,
6741 Pages = {506-517},
6742 Title = {On the construction and comparision of difference schemes},
6743 Volume = 5,
6744 Year = 1968}
6745
6746 @article{Trotter1959,
6747 Author = {H.F. Trotter},
6748 Journal = {SIAM Journal on Numerical Analysis},
6749 Number = 14,
6750 Pages = {545-551},
6751 Title = {On the product of semi-groups of operators},
6752 Volume = 10,
6753 Year = 1959}
6754
6755 @article{Cartwright1992,
6756 Author = {J.H.E. Cartwright and O. Piro},
6757 Journal = {International Journal of Bifurcation and Chaos},
6758 Number = 3,
6759 Pages = {427-449},
6760 Title = {The Dynamics of Runge-Kutta Methods},
6761 Volume = 2,
6762 Year = 1992}
6763
6764 @article{HuseyinKaya07012005,
6765 Abstract = {It has been demonstrated that a "near-Levinthal" cooperative mechanism, whereby the common G[o] interaction scheme is augmented by an extra favorability for the native state as a whole, can lead to apparent two-state folding/unfolding kinetics over a broad range of native stabilities in lattice models of proteins. Here such a mechanism is shown to be generalizable to a simplified continuum (off-lattice) Langevin dynamics model with a C{alpha} protein chain representation, with the resulting chevron plots exhibiting an extended quasilinear regime reminiscent of that of apparent two-state real proteins. Similarly high degrees of cooperativity are possible in G[o]-like continuum models with rudimentary pairwise desolvation barriers as well. In these models, cooperativity increases with increasing desolvation barrier height, suggesting strongly that two-state-like folding/unfolding kinetics would be achievable when the pairwise desolvation barrier becomes sufficiently high. Besides cooperativity, another generic folding property of interest that has emerged from published experiments on several apparent two-state proteins is that their folding relaxation under constant native stability (isostability) conditions is essentially Arrhenius, entailing high intrinsic enthalpic folding barriers of [~]17-30 kcal/mol. Based on a new analysis of published data on barnase, here we propose that a similar property should also apply to a certain class of non-two-state proteins that fold with chevron rollovers. However, several continuum G[o]-like constructs considered here fail to predict any significant intrinsic enthalpic folding barrier under isostability conditions; thus the physical origin of such barriers in real proteins remains to be elucidated.
6766 },
6767 Author = {Kaya, Huseyin and Liu, Zhirong and Chan, Hue Sun},
6768 Doi = {10.1529/biophysj.104.057471},
6769 Eprint = {http://www.biophysj.org/cgi/reprint/89/1/520.pdf},
6770 Journal = {Biophys. J.},
6771 Number = 1,
6772 Pages = {520-535},
6773 Title = {{Chevron Behavior and Isostable Enthalpic Barriers in Protein Folding: Successes and Limitations of Simple Go-like Modeling}},
6774 Url = {http://www.biophysj.org/cgi/content/abstract/89/1/520},
6775 Volume = 89,
6776 Year = 2005,
6777 Bdsk-Url-1 = {http://www.biophysj.org/cgi/content/abstract/89/1/520},
6778 Bdsk-Url-2 = {http://dx.doi.org/10.1529/biophysj.104.057471}}
6779
6780 @article{JoseGarciadelaTorre02012000,
6781 Abstract = {The solution properties, including hydrodynamic quantities and the radius of gyration, of globular proteins are calculated from their detailed, atomic-level structure, using bead-modeling methodologies described in our previous article (Carrasco and Garcia de la Torre, 1999, Biophys. J. 76:3044-3057). We review how this goal has been pursued by other authors in the past. Our procedure starts from a list of atomic coordinates, from which we build a primary hydrodynamic model by replacing nonhydrogen atoms with spherical elements of some fixed radius. The resulting particle, consisting of overlapping spheres, is in turn represented by a shell model treated as described in our previous work. We have applied this procedure to a set of 13 proteins. For each protein, the atomic element radius is adjusted, to fit all of the hydrodynamic properties, taking values close to 3 A, with deviations that fall within the error of experimental data. Some differences are found in the atomic element radius found for each protein, which can be explained in terms of protein hydration. A computational shortcut makes the procedure feasible, even in personal computers. All of the model-building and calculations are carried out with a HYDROPRO public-domain computer program.
6782 },
6783 Author = {{Garc\'{i}a de la Torre}, Jose and Huertas, Maria L. and Carrasco, Beatriz},
6784 Eprint = {http://www.biophysj.org/cgi/reprint/78/2/719.pdf},
6785 Journal = bj,
6786 Number = {2},
6787 Pages = {719-730},
6788 Title = {{Calculation of Hydrodynamic Properties of Globular Proteins from Their Atomic-Level Structure}},
6789 Url = {http://www.biophysj.org/cgi/content/abstract/78/2/719},
6790 Volume = {78},
6791 Year = {2000},
6792 Bdsk-Url-1 = {http://www.biophysj.org/cgi/content/abstract/78/2/719}}
6793
6794 @article{GarciadelaTorreJ2002,
6795 Affiliation = {Departamento de Qu{\'\i}mica F{\'\i}sica, Facultad de Qu{\'\i}mica, Universidad de Murcia, 30071 Murcia, Spain},
6796 Author = {{Garc\'{i}a de la Torre}, Jose and Carrasco, B.},
6797 Journal = {Biopolymers},
6798 Number = {3},
6799 Pages = {163-167},
6800 Title = {Hydrodynamic Properties of Rigid Macromolecules Composed of Ellipsoidal and Cylindrical Subunits},
6801 Volume = {63},
6802 Year = {2002}}