Coarse-Grained Modeling of Biomolecules

Name: Coarse-Grained Modeling of Biomolecules
Brand: Taylor & Francis Inc
SKU: 9781466576063
Price: 248.0 EUR
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Adam K. Sieradzan

Adam Liwo

advanced computational biophysics applications

Alexander P. Lyubartsev

Andrei Niadzvedtski

Andrey Krokhotin

Antti J. Niemi

Arpit Tandon

Artem Zhmurov

atomistic

Atomistic Simulations

Bartlomiej Zaborowski

biomolecular simulation

Category=PNR

Category=PSB

Category=PSD

Category=PSE

CCMV

CCMV Capsid

CCMV Particle

Cezary Czaplewski

CG Description

CG Force Field

CG Potential

CG Simulation

CG System

CG Unit

Chromatin Fibers

Coarse Grained Model

Coarse Grained Sites

Davit Potoyan

Dawid Jagiela

Energy Landscape Theory

ENM

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eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

Ewa I. Golas

Fusion Pore

genome structural analysis

Gia G. Maisuradze

Harold A. Scheraga

Hi-C Data

Histone Tails

IMC

Jhuma Das

Kenneth A. Marx

Kirkwood Buff Integrals

Lars Nordenskiold

Linker DNA

Maciej Baranowski

Magdalena A. Mozolewska

Marina G. Guenza

Marino Convertino

Mariusz Makowski

Masaki Sasai

Molecular Dynamics Simulations

Naoko Tokuda

Nikolay Korolev

Nikolay V. Dokholyan

nucleic acid modeling

Nucleosome Arrays

Olga Kononova

Pawel Krupa

Peter G. Wolynes

polymer coarse-graining

protein folding mechanisms

Qiang Cui

Rafal Slusarz

Raul Mendez

Shelly Rackovsky

simulations

Stanislaw Oldziej

Structure Prediction

Tomasz Wirecki

Total Correlation Function

Valeri Barsegov

virus mechanics study

Yanping Yin

Yi He

Product details

ISBN 9781466576063
Weight: 861g
Dimensions: 156 x 234mm
Publication Date: 30 Oct 2017
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

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"The chapters in this book survey the progress in simulating biomolecular dynamics…. The images conjured up by this work are not yet universally loved, but are beginning to bring new insights into the study of biological structure and function. The future will decide whether this scientific movement can bring forth its Picasso or Modigliani." –from the Foreword by Peter G. Wolynes, Bullard-Welch Foundation Professor of Science, Rice University

This book highlights the state-of-art in coarse-grained modeling of biomolecules, covering both fundamentals as well as various cutting edge applications. Coarse-graining of biomolecules is an area of rapid advances, with numerous new force fields having appeared recently and significant progress made in developing a systematic theory of coarse-graining. The contents start with first fundamental principles based on physics, then survey specific state-of-art coarse-grained force fields of proteins and nucleic acids, and provide examples of exciting biological problems that are at large scale, and hence, only amenable to coarse-grained modeling.

Introduces coarse-grained models of proteins and nucleic acids.
Showcases applications such as genome packaging in nuclei and understanding ribosome dynamics
Gives the physical foundations of coarse-graining
Demonstrates use of models for large-scale assemblies in modern studies

Garegin A. Papoian is the first Monroe Martin Associate Professor with appointments in the Department of Chemistry and Biochemistry and the Institute for Physical Science and Technology at the University of Maryland.

Garegin A. Papoian is the first Monroe Martin Professor with appointments in the Department of Chemistry and Biochemistry and the Institute for Physical Science and Technology at the University of Maryland. He was born in Yerevan, Armenia, and completed four years of undergraduate studies in the Higher College of the Russian Academy of Sciences, followed by graduate work with Professor Roald Hoffmann at Cornell University. He received his Ph.D. in 1999, working on quantum chemistry of intermetallic alloys and heterogenous catalysis. He then joined the research group of Professor Michael Klein at the University of Pennsylvania as a postdoctoral associate in 2000, to study metallo-enzymes with Car-Parrinello simulations. This was followed by a National Institutes of Health sponsored postdoctoral fellowship with Professor Peter Wolynes at University of California, San Diego, from 2001-2004, with research focused on protein folding, binding, and hydration. He started his independent group in 2004 as an Assistant Professor of Chemistry at the University of North Carolina at Chapel Hill, where he received tenure in 2010. He subsequently moved to the University of Maryland into his current position. He is interested in bringing tools of physical chemistry to shed light on complex biological processes at the molecular and cell levels. His group is currently working on developing physico-chemical models of cytoskeletal dynamics and cell motility, modeling the way DNA packs in cells of higher organisms, and studying protein functional dynamics and allostery.

He is recipient of numerous awards, including: Phillip and Ruth Hettleman Prize for Artistic and Scholarly Achievement 2010; ACS Hewlett-Packard Outstanding Junior Faculty Award 2010; National Science Foundation CAREER Award 2009; Camille Dreyfus Teacher-Scholar 2008; Beckman Young Investigator 2007; Camille and Henry Dreyfus New Faculty Award 2004; and National Institutes of Health Postdoctoral Fellowship 2001.