Last edited by Nern
Thursday, November 12, 2020 | History

5 edition of Molecular dynamics in biological membranes found in the catalog.

# Molecular dynamics in biological membranes

Written in English

Subjects:
• Membranes (Biology),
• Molecular biology.,
• Molecular biology.,
• Cell membrane -- Physiology.,
• Perception.,
• Metabolism.,
• Biological transport.

• Edition Notes

Includes bibliographies and index.

Classifications The Physical Object Statement Milton H. Saier, Jr., Charles D. Stiles. Series Heidelberg science library ;, v. 22 Contributions Stiles, Charles D., joint author. LC Classifications QH601 .S24 Pagination x, 129 p. : Number of Pages 129 Open Library OL5192159M ISBN 10 0387901426 LC Control Number 75012923

You can write a book review and share your experiences. Other readers will always be interested in your opinion of the books you've read. Whether you've loved the book or not, if you give your honest and detailed thoughts then people will find new books that are right for them. Center for Structural Molecular Biology; National Transportation Research Center; Science and Discovery ___ Characterization of Biological Membranes: Structure and Dynamics. Book Publication Date July, Publisher Name De Gruyter Publisher Location Berlin/Boston, Massachusetts, United States of America.   The main components of biological membranes are proteins, lipids, and carbohydrates in variable proportions. Carbohydrates account for less than 10% of the mass of most membranes and are generally bound either to the lipid or protein components. Myelin has few functions and is made up almost entirely of by:

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### Molecular dynamics in biological membranes by Saier, Milton H. Download PDF EPUB FB2

Molecular Dynamics in Biological Membranes. Authors (view affiliations) Milton H. Saier Jr. Charles D. Stiles; Textbook. About this book. Keywords. Membranes dynamics escherichia coli proteins regulation.

Authors and affiliations. Molecular dynamics in biological membranes. New York: Springer-Verlag, (OCoLC) Material Type: Internet resource: Document Type: Book, Internet Resource: All Authors / Contributors: Milton H Saier; Charles D Stiles. Molecular Dynamics in Biological Membranes.

Authors: Saier, MiltonStiles, Charles D. Free Preview. Buy this book eB40 *immediately available upon purchase as print book shipments may be delayed due to the COVID crisis. ebook access is temporary and does not include ownership of the ebook. Only valid for books with an ebook Brand: Springer-Verlag New York.

Molecular dynamics simulations of biological membranes and membrane proteins using enhanced conformational sampling algorithms Mixed lipid systems are the major structural component of biological membranes. They are involved in a number of cellular processes like signal transduction, membrane trafficking, and immune by: Molecular dynamics (MD) is a computer simulation method for analyzing the physical movements of atoms and atoms and molecules are allowed to interact for a fixed period of time, giving a view of the dynamic "evolution" of the system.

In the most common version, the trajectories of atoms and molecules are determined by numerically solving Newton's equations. The interface between a living cell and the surrounding world plays a critical role in numerous complex biological processes.

Sperm/egg fusion, virus/cell fusion, exocytosis, endocytosis, and ion permeation are a few examples of processes involving membranes. ISBN: X: OCLC Number: Reproduction Notes: Electronic reproduction. [S.l.]: HathiTrust Digital Library, MiAaHDL.

Buy Molecular Dynamics in Biological Membranes (Heidelberg Science Library) on FREE SHIPPING on qualified orders Molecular Dynamics in Biological Membranes (Heidelberg Science Library): Milton Saier, Charles D.

Stiles: : BooksCited by: The interface between a living cell and the surrounding world plays a critical role in numerous complex biological processes. Sperm/egg fusion, virus/cell fusion, exocytosis, endocytosis, and ion permeation are a few examples of processes involving membranes. In Brand: Birkhäuser Basel.

An Introduction to Biological Membranes: From Bilayers to Rafts covers many aspects of membrane structure/function that bridges membrane biophysics and cell biology. Offering cohesive, foundational information, this publication is valuable for advanced undergraduate students, graduate students and membranologists who seek a broad overview of.

Biological Membranes e l ac sem•Ti • Inhomogeneity of biological membranes 60 x 60 Å Pure POPE 5 ns ~, atoms by: J. Siewert-Jan Marrink and Prof. Alan E. Mark, University of Groningen, The Netherlands Coarse grain modeling of lipids 9 particles. particlesFile Size: KB. The book also addresses the manifold methods that are used to measure the rate of transmembrane movement of lipids in biological and model systems.

The only guide to new discoveries regarding lipids in cell membranes, Transmembrane Dynamics of Lipids is designed to appeal to biophysicists, biochemists, and cellular and molecular biologists.

The next parts contain collection of articles, which illustrate the computer experiments using molecular dynamics simulations in the studies of synthetic and biological macromolecules.

The topics covered of this book include: molecular dynamics simulations of biological membranes, proteins, polymers, peptides, and nanotubes. About this book Covering interface science from a novel surface science perspective, this seven-volume handbook offers a comprehensive overview of both these and numerous other topics.

Learn about the state of the art in building artificial membranes and synthetic biological devices, and in constructing mathematical models for their dynamics at multiple time and spatial scales with this comprehensive book.

Drawing on recent advances in bioengineering and biochemistry, it Author: William Hoiles, Vikram Krishnamurthy, Bruce Cornell. Biological membranes allow life as we know it to exist. They form cells and enable separation between the inside and outside of an organism, controlling by Author: Helen Watson.

The LibreTexts libraries are Powered by MindTouch ® and are supported by the Department of Education Open Textbook Pilot Project, the UC Davis Office of the Provost, the UC Davis Library, the California State University Affordable Learning Solutions Program, and Merlot.

We also acknowledge previous National Science Foundation support under grant numbers. In pharmaceutical formulations and drug delivery systems, insight into the molecular interactions of the drug with water and excipients gives valuable information on the properties of the formulation, or studying the dynamics and interactions of biological lipid bilayers can give understanding to many important biological processes.

Molecular Dynamics is a two-volume compendium of the ever-growing applications of molecular dynamics simulations to solve a wider range of scientific and engineering challenges. The contents illustrate the rapid progress on molecular dynamics simulations in many fields of science and technology, such as nanotechnology, energy research, and biology, due to the advances Cited by: Book Description.

Cell Membranes offers a solid foundation for understanding the structure and function of biological membranes. The book explores the composition and dynamics of cell membranes—discussing the molecular and biological diversity of its lipid and protein components and how the combinatorial richness of both components explains the chemical, mechanical.

Simulations of biological ion channels by molecular dynamics Article in Journal of Optoelectronics and Advanced Materials 8(1) March with 10 Reads How we measure 'reads'. The Structure of Biological Membranes, Third Edition provides readers with an understanding of membrane structure and function that is rooted in the history of the field and brought to the forefront of current knowledge.

The first part of the book focuses on the fundamentals of lipid bilayers and membrane proteins. The book explores the composition and dynamics of cell membranes—discussing the molecular and biological diversity of its lipid and protein components and how the combinatorial richness of both components explains the chemical, mechanical, and self-renewing properties of cell membranes.

Cell Membranes is a valuable resource for advanced. Molecular dynamics simulations calculate the motion of the atoms in a molecular assembly using Newtonian dynamics to determine the net force and acceleration experienced by each atom. Each atom i at position r i, is treated as a point with a mass m i and a fixed charge q i.

Guan, X. et al. Functional interactions between sphingolipids and sterols in biological membranes regulating cell physiology. Mol. Biol. C – ().A systematic lipidomic Cited by: subjects of molecular; cell; and membrane biophysics, optical spectroscopy, and fluorescence microscopy.

He is the author of more than two hundred scientific papers focusing on lipid dynamics in biological membranes and molecular mechanisms of virus infection. SERIES Wiley Series in Protein and Peptide Science. Introduction to Biological Membranes: Composition, Structure and Function, Second Edition is a greatly expanded revision of the first edition that integrates many aspects of complex biological membrane functions with their composition and structure.

A single membrane is composed of hundreds of proteins and thousands of lipids, all in constant flux. One of the principal tools in the theoretical study of biological molecules is the method of molecular dynamics simulations (MD).

This computational method calculates the time dependent behavior of a molecular system. MD simulations have provided detailed information on the fluctuations and conformational changes of proteins and nucleic acids. Membranes are the most important biological interface and their interaction with molecules plays a key role in the pathology of many diseases.

The determination of molecular structure and dynamics of biological membranes is one of the greatest challenges in modern biophysics.

Because membranes are thin structures (typically $$\times 10^{-9}$$ to $$10 \times 10^{-9}$$ m across) diffusion rates through them can be high. Diffusion through membranes is an important method of transport. Membranes are generally selectively permeable, or semipermeable.

(See Figure.) One type of semipermeable membrane has small pores. Krishnamurthy publishes new book, “Dynamics of Engineered Artificial Membranes and Biosensors” J ECE Professor Vikram Krishnamurthy has a new book entitled, “Dynamics of Engineered Artificial Membranes and Biosensors,” published by Cambridge University Press.

An Introduction to Biological Membranes Review by Nikhat S. on 15 May review stating An Introduction to Biological Membranes It is a very good book for the post graduate students and cover all the aspects of biological membranes.

A biological membrane or biomembrane is an enclosing or separating membrane that acts as a selectively permeable barrier within living ical membranes, in the form of eukaryotic cell membranes, consist of a phospholipid bilayer with embedded, integral and peripheral proteins used in communication and transportation of chemicals and bulk of lipid in a cell.

Vectorial proton translocation through membranes is a fundamental energy conversion process in biological cells. Bacteriorhodopsin (bR) is a membrane protein that acts as a light-driven, voltage-sensitive proton pump in the purple membrane (PM) of Halobacterium salinarum and achieves its biological function by cycling through a reaction sequence that includes ultrafast (∼ fs) Cited by: C1: Dynamics of Membranes Molecules are not static, but rather are dynamic.

This also applies to molecular aggregates. In the first part of the section, we will discuss the rigid movement of whole lipid molecules in a bilayer, within a leaftlet and between leaflets.

A molecular machine, nanite, or nanomachine, is a molecular component that produces quasi-mechanical movements (output) in response to specific stimuli (input). In biology, macromolecular machines frequently perform tasks essential for life such as DNA replication and ATP expression is often more generally applied to molecules that simply mimic.

The book is organized in three parts, the first of which deals with membrane probes and model membranes. The second part describes the use of advanced quantitative and high-resolution techniques to explore the properties of biological membranes, illustrating the key progress made regarding membrane organization, dynamics and interactions.

The book also addresses the manifold methods that are used to measure the rate of transmembrane movement of lipids in biological and model systems.

The only guide to new discoveries regarding lipids in cell membranes, Transmembrane Dynamics of Lipids is designed to appeal to biophysicists, biochemists, and cellular and molecular biologists.

An artist’s rendition of the interior of a eukaryotic cell. Depicting a cell’s interior is difficult because electron micrographs provide detailed pictures of only a thin slice of a cell, while the cell itself is a three-dimensional object with a very complex interior structure.

Thus an artist can create a special sense of the cell’s inner workings by using color and by: 8. Introduction. Cholesterol plays a pivotal role in eukaryotic cellular membranes both structurally and functionally (1,– 3).Besides its involvement in signaling (4,– 8), it considerably shapes the molecular architecture of the plasma membrane (9, 10).However, due to the challenge of performing high resolution measurements on small and fast molecules in cells, molecular Cited by: 3.

Biophysics Genomics and Computational Biology. This note covers the following topics: Minimal Biosystems, Optimal BioSystems, DNA: Genotyping and Biome sequencing, RNA: Quantitation concepts and Clustering by gene or condition and other regulon data sources, Protein: 3D structural genomics, homology, catalytic and regulatory dynamics, function and drug design.

Proton transfer and local structures in 3M (EW ) and Nafion (EW ) membranes are investigated in this study by both standard nonreactive molecular dynamics and the self-consistent iterative multistate empirical valence bond method, which is capable of simulating multiple reactive protons and accounting for the Grotthuss mechanism of proton transport.ported through membranes, enzymes trigger cascades of biological systems, computer methods have become increasingly important in the life sciences.

With faster and more powerful computers larger and more complex systems may be explored using computer modelling or computersimulations.

Limitations of Molecular Dynamics. Molecular Modeller File Size: KB.