» » Molecular Biophysics: Structures in Motion
hotellemcasadeicervia.it
ePub 1509 kb. | Fb2 1173 kb. | DJVU: 1744 kb.
Math

Molecular Biophysics: Structures in Motion epub ebook

by W. J. Duffin,David Blow,Michel Daune

Molecular Biophysics: Structures in Motion epub ebook

Author: W. J. Duffin,David Blow,Michel Daune
Category: Biological Sciences
Language: English
Publisher: Oxford University Press (April 1, 1999)
Pages: 528 pages
ISBN: 0198577834
ISBN13: 978-0198577836
Rating: 4.9
Votes: 251
Other formats: azw mobi docx rtf


Molecular Biophysics book. Goodreads helps you keep track of books you want to read. Start by marking Molecular Biophysics: Structures in Motion as Want to Read: Want to Read savin. ant to Read.

Molecular Biophysics book.

Items related to Molecular Biophysics: Structures in Motion. Michel Daune is Honorary Professor, University of Strasbourg, France, and was formerly Director of the Centre for Molecular Biophysics, Orleans. Daune, Michel Molecular Biophysics: Structures in Motion. ISBN 13: 9780198577829. Molecular Biophysics: Structures in Motion.

Molecular biophysics : structures in motion, Michel Daune ; Translated from the French by . Duffin ; With a foreword by David Blow. Loc publicare: Oxford ; New York, 1999, Oxford University Press : Daune, Michel : Duffin, W. J. : Blow, David . - XXII, 499 p. : fig. : Carte tipărită. Molecular biophysics : structures in motion. Michel Daune ; Translated from the French by .

Molecular Biophysics: Structures in Motion by Michel Daune and the late David Blow. If any more book needs to be added to the list of best books on Molecular Biophysics Subject, please let us know. 9. Introduction to Molecular Biophysics (Pure and Applied Physics) by Jack A Tuszynski and Michal Kurzynski. 10. Methods in Molecular Biophysics: Structure, Dynamics, Function for Biology and Medicine by Nathan R Zaccai and Joseph Zaccai. Sanfoundry Global Education & Learning Series – Best Reference Books! advertisement. Prev Page - Best Reference Books – Methods in Theoretical Physics.

Methods in Molecular Biophysics provides an up-to-date view of classical biophysics . Not long after, Max Perutz, Francis Crick and then David Blow, the youngest of the early protein crystallographers, passed away.

Methods in Molecular Biophysics provides an up-to-date view of classical biophysics, theory and practice of modern chemical biology and represents an essential text for the interdisciplinary scientist of the 21st Century. Two interrelated ideas that biophysicists employ are the structure-function hypothesis and evolution. The period marked the gradual closing of the era in which molecular biology was born and the opening of a new era.

It seeks to understand biomolecular systems and explain biological function in terms of molecular structure, structural organization, and dynamic behaviour at various levels of complexity (from single molecules to supramolecular structures, viruses and small living systems).

Molecular Biophysics: Structures in Motion. This new textbook offers a comprehensive introduction to the molecular physics of biological systems: it seeks to explain how the laws and concepts of physics apply to the living world at th. More). The exclusion model of binding was refined by introductin.

Daune, . Duffin, . Reprints and Permissions. Personalised recommendations. Oxford University Press (1999)Google Scholar. Normal basilar artery structure and biaxial mechanical behaviour. Introduction to Molecular Biophysics. New York: Taylor and Francis. New York: Oxford University Press. Textbook of Structural Biology. New York: Wiley-Blackwell. Lijas, . . Lijas and . Piskur. Singapore: World Scientific. Tuszynski, J. A. and . Kurzynski.

Discover Book Depository's huge selection of Formerly Head Of Molecular Biophysics David Blow books online. Free delivery worldwide on over 20 million titles.

This new textbook offers a comprehensive introduction to the molecular physics of biological systems: it seeks to explain how the laws and concepts of physics apply to the living world at the molecular and subcellular level, with an emphasis on electrical and dynamical behaviour. The book is organized into five parts: * conformation of biopolymers * dynamics of biopolymers * hydration of biopolymers * biopolymers as polyelectrolytes *association between molecules The author adopts a multi-disciplinary approach and limits mathematics only to what is strictly necessary for the development of the subject. The text should be suitable for students from a wide range of backgrounds in biology, physics or chemistry taking advanced courses in molecular biophysics orbiophysical chemistry.
Reviews (2)
Taun
This is a very comprehensive book (about 500 pages!) dealing with the molecular physics of biopolymers. It is divided in five parts, namely (I.) Conformation of biopolymers, (II.) Dynamics of biopolymers, (III.) Hydration of biopolymers, (IV.) Biopolymers as polyelectrolytes, and (V.) Association between molecules, along with a 20-pages mathematical appendix. At the end of each part you will find a 1-page conclusion and 1-2 pages of references and material for further reading. Each referenced paper is provided with its full, original title, thereby simplifying the selection process. Important topics and/or proofs of mathematical formulae and models are given in dark boxes throughout the book. This facilitates both reading and learning. A note about figures. Graphs are clear and look good but the same cannot be said about most of the figures displaying molecular structures. This, perhaps, is due to the fact that several figures have been reprinted from the original papers. Also, the book does not contain colored figures. This, in general, is not a big problem exept when a calculated property such as the electrostatic potential is being depicted (see, for example Fig. 19.7 at p. 370). For this reason I rated this book with four stars only. In summary, Professor Daune has done a good job and his book could be well used in teaching an advanced course of molecular biophysics, perhaps complemented with Dr. Glaser's "Biophysics".

Nalmezar
I find this book useful from the perspective of the title of the review. It is not a general biophysics book. It even lacks to a degree in the above field, e.g., a general treatment of the biophysics of electrophoresis or centrifugation; these are very important topics that often receive scant coverage and I usually give my own coverage in the 1st general (algebra/trig) College Physics course based on treatment from my original Biophysics notes from graduate school and Barrow's Physical Chemistry text's excellent coverage (centrifugation). This would be quite appropriate in such a book which is heavily weighted toward molecular topics. I find this book quite complementary with Glaser's book "Biophysics", which is an excellent translation from the original German (Deutch) plus some new material, which also has only black and white illustrations (this is not a drawback). I do not have the privilege of teaching a course in Biophysics, but do use materials from these books in teaching General Physics to Pre-Professional and Biology Majors as well as my Special Topics Course in Neurophysics with the latter having no suitable text for its particular audience. I do, however, recommend this text to those with a good thermodynamics (chemical physics or physical chemistry) background and interest in pursuing study of the molecular biophysics of nucleic acids, in particular. Hopefully, future editions will have treatments of more proteins such as the various collagens (I specifically have looked for these) and keratin, among others.

2016-2020 © www.hotellemcasadeicervia.it
All rights reserved