Capturing the essence of folding and functions of biomolecules using
  Coarse-Grained Models

A Dhar; A Elcock; A Elcock; A Grosberg; A Grosberg; A Minton; A Pisliakov; A Podtelezhnikov; A Rychkova; A Savelyev; A Vologodskii; AA Podtelezhnikov; B Messer; BJ Alder; C Bustamante; C Clementi; C Hyeon; C Hyeon; C Hyeon; C Hyeon; C Hyeon; C Hyeon; C Hyeon; C Hyeon; C Hyeon; C Hyeon; D Thirumalai; D Thirumalai; D Thirumalai; D Thirumalai; D Thirumalai; E Koculi; E Lieberman-Aiden; E O'Brien; E Shakhnovich; EP O'Brien; F Valle; G Lorimer; G Papoian; G Ziv; H Liu; H Ma; HX Zhou; I Tinoco Jr.; J Chen; J Harms; J Karanicolas; J Straub; JD Honeycutt; JM Fernandez; JN Onuchic; KA Dill; M Levitt; M Mickler; M Strajbl; M Takano; ME Fisher; MJ Todd; MS Cheung; N Hirokawa; N Koga; N Toan; OK Dudko; P Weinkam; PB Moore; PC Whitford; Q Du; R Russell; R Tehver; R Tehver; RD Vale; RD Vale; RI Dima; RW Pastor; S Jun; S Jun; S Jun; S Kamerlin; S Kirkpatrick; S Moghaddam; SB Smith; SJ Chen; SJ Marrink; T Cloutier; T Cremer; T Kirkpatrick; T Veitshans; V Lubchenko; Z Liu; Z Xu

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Capturing the essence of folding and functions of biomolecules using Coarse-Grained Models

Authors: A Dhar
A Elcock
A Elcock
A Grosberg
A Grosberg
A Minton
A Pisliakov
A Podtelezhnikov
A Rychkova
A Savelyev
A Vologodskii
AA Podtelezhnikov
B Messer
BJ Alder
C Bustamante
C Clementi
C Hyeon
C Hyeon
C Hyeon
C Hyeon
C Hyeon
C Hyeon
C Hyeon
C Hyeon
C Hyeon
C Hyeon
D Thirumalai
D Thirumalai
D Thirumalai
D Thirumalai
D Thirumalai
E Koculi
E Lieberman-Aiden
E O'Brien
E Shakhnovich
EP O'Brien
F Valle
G Lorimer
G Papoian
G Ziv
H Liu
H Ma
HX Zhou
I Tinoco Jr.
J Chen
J Harms
J Karanicolas
J Straub
JD Honeycutt
JM Fernandez
JN Onuchic
KA Dill
M Levitt
M Mickler
M Strajbl
M Takano
ME Fisher
MJ Todd
MS Cheung
N Hirokawa
N Koga
N Toan
OK Dudko
P Weinkam
PB Moore
PC Whitford
Q Du
R Russell
R Tehver
R Tehver
RD Vale
RD Vale
RI Dima
RW Pastor
S Jun
S Jun
S Jun
S Kamerlin
S Kirkpatrick
S Moghaddam
SB Smith
SJ Chen
SJ Marrink
T Cloutier
T Cremer
T Kirkpatrick
T Veitshans
V Lubchenko
Z Liu
Z Xu
Publication date: 27 September 2011
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

The distances over which biological molecules and their complexes can function range from a few nanometres, in the case of folded structures, to millimetres, for example during chromosome organization. Describing phenomena that cover such diverse length, and also time scales, requires models that capture the underlying physics for the particular length scale of interest. Theoretical ideas, in particular, concepts from polymer physics, have guided the development of coarse-grained models to study folding of DNA, RNA, and proteins. More recently, such models and their variants have been applied to the functions of biological nanomachines. Simulations using coarse-grained models are now poised to address a wide range of problems in biology.Comment: 37 pages, 8 figure

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