Optimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches /

Optimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches /

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Optimization in Computational Chemistry and Molecular Biology: Local and Global Approaches covers recent developments in optimization techniques for addressing several computational chemistry and biology problems. A tantalizing problem that cuts across the fields of computational chemistry, biology, medicine, engineering and applied mathematics is how proteins fold. Global and local optimization provide a systematic framework of conformational searches for the prediction of three-dimensional protein structures that represent the global minimum free energy, as well as low-energy biomolecular conformations. Each contribution in the book is essentially expository in nature, but of scholarly treatment. The topics covered include advances in local and global optimization approaches for molecular dynamics and modeling, distance geometry, protein folding, molecular structure refinement, protein and drug design, and molecular and peptide docking. Audience: The book is addressed not only to researchers in mathematical programming, but to all scientists in various disciplines who use optimization methods in solving problems in computational chemistry and biology.

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Bibliographic Details
Main Authors: Floudas, C. A. editor., Pardalos, P. M. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Boston, MA : Springer US : Imprint: Springer, 2000
Subjects:Computer science., Software engineering., Mathematics., Applied mathematics., Engineering mathematics., Algorithms., Mathematical models., Mathematical optimization., Computer Science., Software Engineering/Programming and Operating Systems., Optimization., Applications of Mathematics., Mathematical Modeling and Industrial Mathematics., Mathematics, general.,
Online Access:http://dx.doi.org/10.1007/978-1-4757-3218-4
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institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Computer science.
Software engineering.
Mathematics.
Applied mathematics.
Engineering mathematics.
Algorithms.
Mathematical models.
Mathematical optimization.
Computer Science.
Software Engineering/Programming and Operating Systems.
Optimization.
Applications of Mathematics.
Algorithms.
Mathematical Modeling and Industrial Mathematics.
Mathematics, general.
Computer science.
Software engineering.
Mathematics.
Applied mathematics.
Engineering mathematics.
Algorithms.
Mathematical models.
Mathematical optimization.
Computer Science.
Software Engineering/Programming and Operating Systems.
Optimization.
Applications of Mathematics.
Algorithms.
Mathematical Modeling and Industrial Mathematics.
Mathematics, general.
spellingShingle Computer science.
Software engineering.
Mathematics.
Applied mathematics.
Engineering mathematics.
Algorithms.
Mathematical models.
Mathematical optimization.
Computer Science.
Software Engineering/Programming and Operating Systems.
Optimization.
Applications of Mathematics.
Algorithms.
Mathematical Modeling and Industrial Mathematics.
Mathematics, general.
Computer science.
Software engineering.
Mathematics.
Applied mathematics.
Engineering mathematics.
Algorithms.
Mathematical models.
Mathematical optimization.
Computer Science.
Software Engineering/Programming and Operating Systems.
Optimization.
Applications of Mathematics.
Algorithms.
Mathematical Modeling and Industrial Mathematics.
Mathematics, general.
Floudas, C. A. editor.
Pardalos, P. M. editor.
SpringerLink (Online service)
Optimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches /
description Optimization in Computational Chemistry and Molecular Biology: Local and Global Approaches covers recent developments in optimization techniques for addressing several computational chemistry and biology problems. A tantalizing problem that cuts across the fields of computational chemistry, biology, medicine, engineering and applied mathematics is how proteins fold. Global and local optimization provide a systematic framework of conformational searches for the prediction of three-dimensional protein structures that represent the global minimum free energy, as well as low-energy biomolecular conformations. Each contribution in the book is essentially expository in nature, but of scholarly treatment. The topics covered include advances in local and global optimization approaches for molecular dynamics and modeling, distance geometry, protein folding, molecular structure refinement, protein and drug design, and molecular and peptide docking. Audience: The book is addressed not only to researchers in mathematical programming, but to all scientists in various disciplines who use optimization methods in solving problems in computational chemistry and biology.
format Texto
topic_facet Computer science.
Software engineering.
Mathematics.
Applied mathematics.
Engineering mathematics.
Algorithms.
Mathematical models.
Mathematical optimization.
Computer Science.
Software Engineering/Programming and Operating Systems.
Optimization.
Applications of Mathematics.
Algorithms.
Mathematical Modeling and Industrial Mathematics.
Mathematics, general.
author Floudas, C. A. editor.
Pardalos, P. M. editor.
SpringerLink (Online service)
author_facet Floudas, C. A. editor.
Pardalos, P. M. editor.
SpringerLink (Online service)
author_sort Floudas, C. A. editor.
title Optimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches /
title_short Optimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches /
title_full Optimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches /
title_fullStr Optimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches /
title_full_unstemmed Optimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches /
title_sort optimization in computational chemistry and molecular biology [electronic resource] : local and global approaches /
publisher Boston, MA : Springer US : Imprint: Springer,
publishDate 2000
url http://dx.doi.org/10.1007/978-1-4757-3218-4
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spelling KOHA-OAI-TEST:1947342018-07-30T23:20:10ZOptimization in Computational Chemistry and Molecular Biology [electronic resource] : Local and Global Approaches / Floudas, C. A. editor. Pardalos, P. M. editor. SpringerLink (Online service) textBoston, MA : Springer US : Imprint: Springer,2000.engOptimization in Computational Chemistry and Molecular Biology: Local and Global Approaches covers recent developments in optimization techniques for addressing several computational chemistry and biology problems. A tantalizing problem that cuts across the fields of computational chemistry, biology, medicine, engineering and applied mathematics is how proteins fold. Global and local optimization provide a systematic framework of conformational searches for the prediction of three-dimensional protein structures that represent the global minimum free energy, as well as low-energy biomolecular conformations. Each contribution in the book is essentially expository in nature, but of scholarly treatment. The topics covered include advances in local and global optimization approaches for molecular dynamics and modeling, distance geometry, protein folding, molecular structure refinement, protein and drug design, and molecular and peptide docking. Audience: The book is addressed not only to researchers in mathematical programming, but to all scientists in various disciplines who use optimization methods in solving problems in computational chemistry and biology.Predicting Protein Tertiary Structure using a Global Optimization Algorithm with Smoothing -- Methodology for Elucidating the Folding Dynamics of Peptides: Met-enkephalin Case Study -- Energy Landscape Projections of Molecular Potential Functions -- Global Optimization and Sampling in the Context of Tertiary Structure Prediction: A Comparison of Two Algorithms -- Protein Folding Simulations by Monte Carlo Simulated Annealing and Multicanonical Algorithm -- Thermodynamics of Protein Folding — The Generalized-Ensemble Approach -- An approach to detect the dominant folds of proteinlike heteropolymers from the statistics of a homopolymeric chain -- Gene Sequences are Locally Optimized for Global mRNA Folding -- Structure Calculations of Symmetric Dimers using Molecular Dynamics/Simulated Annealing and NMR Restraints: The Case of the RII? Subunit of Protein Kinase A -- Structure Prediction of Binding Sites of MHC Class II Molecules based on the Crystal of HLA-DRB1 and Global Optimization -- A Coupled Scanning and Optimization Scheme for Analyzing Molecular Interactions -- Improved Evolutionary Hybrids for Flexible Ligand Docking in AutoDock -- Electrostatic Optimization in Ligand Complementarity and Design -- Exploring potential solvation sites of proteins by multistart local minimization -- On relative position of two biopolymer molecules minimizing the weighted sum of interatomic distances squared -- Visualization of Chemical Databases Using the Singular Value Decomposition and Truncated-Newton Minimization -- Optimization of Carbon and Silicon Cluster Geometry for Tersoff Potential using Differential Evolution -- D.C. Programming Approach for Large-Scale Molecular Optimization via the General Distance Geometry Problem.Optimization in Computational Chemistry and Molecular Biology: Local and Global Approaches covers recent developments in optimization techniques for addressing several computational chemistry and biology problems. A tantalizing problem that cuts across the fields of computational chemistry, biology, medicine, engineering and applied mathematics is how proteins fold. Global and local optimization provide a systematic framework of conformational searches for the prediction of three-dimensional protein structures that represent the global minimum free energy, as well as low-energy biomolecular conformations. Each contribution in the book is essentially expository in nature, but of scholarly treatment. The topics covered include advances in local and global optimization approaches for molecular dynamics and modeling, distance geometry, protein folding, molecular structure refinement, protein and drug design, and molecular and peptide docking. Audience: The book is addressed not only to researchers in mathematical programming, but to all scientists in various disciplines who use optimization methods in solving problems in computational chemistry and biology.Computer science.Software engineering.Mathematics.Applied mathematics.Engineering mathematics.Algorithms.Mathematical models.Mathematical optimization.Computer Science.Software Engineering/Programming and Operating Systems.Optimization.Applications of Mathematics.Algorithms.Mathematical Modeling and Industrial Mathematics.Mathematics, general.Springer eBookshttp://dx.doi.org/10.1007/978-1-4757-3218-4URN:ISBN:9781475732184

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