Title | Mathematical Approaches to Biomolecular Structure and Dynamics [electronic resource] / edited by Jill P. Mesirov, Klaus Schulten, De Witt Sumners |
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Imprint | New York, NY : Springer New York, 1996 |

Connect to | http://dx.doi.org/10.1007/978-1-4612-4066-2 |

Descript | X, 254 p. online resource |

SUMMARY

This IMA Volume in Mathematics and its Applications MATHEMATICAL APPROACHES TO BIOMOLECULAR STRUCTURE AND DYNAMICS is one of the two volumes based on the proceedings of the 1994 IMA Sumยญ mer Program on "Molecular Biology" and comprises Weeks 3 and 4 of the four-week program. Weeks 1 and 2 appeared as Volume 81: Genetic Mapping and DNA Sequencing. We thank Jill P. Mesirov, Klaus Schulten, and De Witt Sumners for organizing Weeks 3 and 4 of the workshop and for editing the proceedings. We also take this opportunity to thank the National Institutes of Health (NIH) (National Center for Human Genome Research), the National Science Foundation (NSF) (Biological Instrumenยญ tation and Resources), and the Department of Energy (DOE), whose fiยญ nancial support made the summer program possible. A vner Friedman Robert Gulliver v PREFACE The revolutionary progress in molecular biology within the last 30 years opens the way to full understanding of the molecular structures and mechยญ anisms of living organisms. Interdisciplinary research in mathematics and molecular biology is driven by ever growing experimental, theoretical and computational power. The mathematical sciences accompany and support much of the progress achieved by experiment and computation as well as provide insight into geometric and topological properties of biomolecular structure and processes. This volume consists of a representative sample of the papers presented during the last two weeks of the month-long Institute for Mathematics and Its Applications Summer 1994 Program in Molecular Biology

CONTENT

I. Biomolecular Topology -- Tangle complexity and the topology of the Chinese rings -- Lattice invariants for knots -- Topology and geometry of biopolymers -- Energy functions for knots: beginning to predict physical behavior -- II. Biomolecular Structure and Dynamics: Theory -- The elastic rod provides a model for DNA and its functions -- Hamiltonian formulations and symmetries in rod mechanics -- Statistical mechanics of supercoiled DNA -- Determination of the DNA helical repeat and of the structure of supercoiled DNA by cryo-electron microscopy -- Dynamics of twist and writhe and the modeling of bacterial fibers -- III. Biomolecular Structure and Dynamics: Computation -- Integration methods for molecular dynamics -- On the parallelization of CHARMM on the CM-5/5E -- Computational studies of spatially constrained DNA -- Pursuing Laplaceโ{128}{153}s vision on modern computers

Chemistry
Chemometrics
Biomathematics
Chemistry
Math. Applications in Chemistry
Mathematical and Computational Biology