Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Membrane Microdomain Signaling PDF full book. Access full book title Membrane Microdomain Signaling by Mark P. Mattson. Download full books in PDF and EPUB format.
Author: Mark P. Mattson Publisher: Springer Science & Business Media ISBN: 1588293548 Category : Medical Languages : en Pages : 219
Book Description
From intramolecular asymmetries to raft assemblies: a short guide for the puzzled in lipidomics / Ephraim Yavin and Annette Brand -- Regulatory aspects of membrane microdomain (raft) dynamics in live cells: a biophysical approach / János Matkó and János Szöllosi -- Lipid raft membrane skeletons / Elizabeth J. Luna ... [et al.] -- Role of cholesterol in membrane microdomain signaling / Christopher J. Fielding -- Raft lipid metabolism in relation to alkyl-lysophospholipid-induced apoptosis / Arnold H. van der Luit, Marcel Verheij, and Wim J. van Blitterswijk -- Role of lipid rafts in signal transduction and synaptic plasticity of neural cells / Markus Delling and Melitta Schachner -- Role of rafts in virus fusion and budding / Wu Ou and Jonathan Silver -- Alterations in raft lipid metabolism in aging and neurodegenerative disorders / Mark P. Mattson, Roy G. Cutler, and Norman J. Haughey -- Caveolin and cancer: a complex relationship / Mordechai Liscovitch ... [et al.] -- Dietary modulation of lipid rafts: implications for disease prevention and treatment / Mark P. Mattson.
Author: Mark P. Mattson Publisher: Springer Science & Business Media ISBN: 1588293548 Category : Medical Languages : en Pages : 219
Book Description
From intramolecular asymmetries to raft assemblies: a short guide for the puzzled in lipidomics / Ephraim Yavin and Annette Brand -- Regulatory aspects of membrane microdomain (raft) dynamics in live cells: a biophysical approach / János Matkó and János Szöllosi -- Lipid raft membrane skeletons / Elizabeth J. Luna ... [et al.] -- Role of cholesterol in membrane microdomain signaling / Christopher J. Fielding -- Raft lipid metabolism in relation to alkyl-lysophospholipid-induced apoptosis / Arnold H. van der Luit, Marcel Verheij, and Wim J. van Blitterswijk -- Role of lipid rafts in signal transduction and synaptic plasticity of neural cells / Markus Delling and Melitta Schachner -- Role of rafts in virus fusion and budding / Wu Ou and Jonathan Silver -- Alterations in raft lipid metabolism in aging and neurodegenerative disorders / Mark P. Mattson, Roy G. Cutler, and Norman J. Haughey -- Caveolin and cancer: a complex relationship / Mordechai Liscovitch ... [et al.] -- Dietary modulation of lipid rafts: implications for disease prevention and treatment / Mark P. Mattson.
Author: Peter J. Quinn Publisher: Springer Science & Business Media ISBN: 1475758065 Category : Science Languages : en Pages : 502
Book Description
The fluid-mosaic model of membrane structure formulated by Singer and Nicolson in the early 1970s has proven to be a durable concept in terms of the principles governing the organization of the constituent lipids and proteins. During the past 30 or so years a great deal of information has accumulated on the composition of various cell membranes and how this is related to the dif ferent functions that membranes perform. Nevertheless, the task of explaining particular functions at the molecular level has been hampered by lack of struc tural detail at the atomic level. The reason for this is primarily the difficulty of crystallizing membrane proteins which require strategies that differ from those used to crystallize soluble proteins. The unique exception is bacteriorhodopsin of the purple membrane of Halobacterium halobium which is interpolated into a membrane that is neither fluid nor in a mosaic configuration. To date only 50 or so membrane proteins have been characterised to atomic resolution by diffraction methods, in contrast to the vast data accumulated on soluble proteins. Another factor that has been difficult to explain is the reason why the lipid compliment of membranes is often extremely complex. Many hundreds of different molecular species of lipid can be identified in some membranes. Remarkably, the particular composition of each membrane appears to be main tained within relatively narrow limits and its identity distinguished from other morphologically-distinct membranes.
Author: Dr. Ron Wallace Publisher: ISBN: Category : Medical Languages : en Pages : 112
Book Description
The rapid pace of discovery in membrane molecular biology is revealing unexpected complexity at the boundary of the cell. The membrane appears to be more than a thin film separating aqueous compartments or an anchoring site for proteins. Indeed, it shows many indications of being a dynamic, regulatory structure composed of transient lipid ensembles known as rafts or microdomains. These appear to regulate the membrane-protein kinetics which is the basis of many cellular functions. This book describes those regulatory features in detail and presents evidence that they operate in the neuron.
Author: Jens Tilsner Publisher: Frontiers E-books ISBN: 2889193683 Category : Botany Languages : en Pages : 173
Book Description
Plasmodesmata (PD) are plant-specific intercellular nanopores defined by specialised domains of the plasma membrane (PM) and the endoplasmic reticulum (ER), both of which contain unique proteins, and probably different lipid compositions than the surrounding bulk membranes. The PD membranes form concentric tubules with a minimal outer diameter of only 50 nm, and the central ER strand constricted to ~10-15 nm, representing one of the narrowest stable membrane tubules in nature. This unique membrane architecture poses many biophysical, structural and functional questions. PM continuity across PD raises the question as to how a locally confined membrane site is established and maintained at PD. There is increasing evidence that the PM within PD may be enriched in membrane ‘rafts’ or TET web domains. Lipid rafts often function as signalling platforms, in line with the emerging view of PD as central players in plant defense responses. Lipid-lipid immiscibility could also provide a mechanism for membrane sub- compartmentalisation at PD. Intricate connections of the PM to the wall and the underlying cytoskeleton and ER may anchor the specialised domains locally. The ER within PD is even more strongly modified. Its extreme curvature suggests that it is stabilised by densely packed proteins, potentially members of the reticulon family that tubulate the cortical ER. The diameter of the constricted ER within PD is similar to membrane stalks in dynamin-mediated membrane fission during endocytosis and may need to be stabilised against spontaneous rupture. The function of this extreme membrane constriction, and the reasons why the ER is connected between plant cells remain unknown. Whilst the technically challenging search for the protein components of PD is ongoing, there has been significant recent progress in research on biological membranes that could benefit our understanding of PD function. With this Research Topic, we therefore aim to bring together researchers in the PD field and those in related areas, such as membrane biophysics, membrane composition and fluidity, protein-lipid interactions, lateral membrane heterogeneity, lipid rafts, membrane curvature, and membrane fusion/fission. We wish to address questions such as: - What mechanisms restrict lateral mobility of proteins and lipids along the PD membranes? - How can specific proteins be targeted to and turned over from membrane domains with restricted lateral access? - What elements (lipids, proteins, membrane curvature, packing order, thickness etc.) may contribute to the identity of PD membranes? - How do the structural and functional features of PD compare to other ER-PM contact sites? - How is the high curvature of the PD ER stabilised and what are possible functions of such a tightly constricted membrane tubule? - Do PD need to be prevented from spontaneous collapse and sealing? - What technologies are available to address these questions that can underpin PD research? We welcome interested individuals to contribute their expertise and develop new hypotheses on the particular biological and biophysical questions posed by PD. We are particularly looking for articles (Original Research Articles, Technical Advances and State-of-the-Art reviews) that would expand on or challenge current perceptions of PD and stimulate discussion.
Author: Juliusz Ashot Kozak Publisher: CRC Press ISBN: 149875273X Category : Science Languages : en Pages : 343
Book Description
Calcium Entry Channels in Non-Excitable Cells focuses on methods of investigating the structure and function of non-voltage gated calcium channels. Each chapter presents important discoveries in calcium entry pathways, specifically dealing with the molecular identification of store-operated calcium channels which were reviewed by earlier volumes in the Methods in Signal Transduction series. Crystallographic and pharmacological approaches to the study of calcium channels of epithelial cells are also discussed. Calcium ion is a messenger in most cell types. Whereas voltage gated calcium channels have been studied extensively, the non-voltage gated calcium entry channel genes have only been identified relatively recently. The book will fill this important niche.
Author: Christopher J. Fielding Publisher: John Wiley & Sons ISBN: 3527607501 Category : Science Languages : en Pages : 294
Book Description
This keenly awaited first overview of the field represents a complete guide to the structure and function of the most important mammalian cell membrane organelles. Filling a huge gap in the primary literature, this book is the first to cover the subject in detail. Following an introduction by Kai Simons, the discoverer of lipid rafts and the most prominent scientist in the field, chapters include: Historical background Distinct structures and functions Structural basis Signaling Viral entry and virion budding Cholesterol transport Caveolins Lipid shells Cell polarity and intracellular trafficking Cancer cells Of prime importance to molecular and cell biologists, biochemists, membrane scientists, cancer researchers, and virologists.
Author: Viacheslav Nikolaev Publisher: Springer ISBN: 3319545795 Category : Medical Languages : en Pages : 383
Book Description
The book comprehensively presents new findings in cardiovascular research related to signaling microdomains in health and disease. Important second messengers such as cAMP, cGMP, calcium and their role in microdomain signaling are discussed. The book offers and explains methodical approaches and technical ways how to successfully analyze microdomain signaling, also in the context of disease. It further provides scientific perspectives and strategies that are based on the concept of signaling within microdomains and that can revolutionize pharmacology and eventually lead to the effective treatment of cardiovascular diseases in future.This book is written for scientists in cardiovascular research, pharmacology, molecular and cellular biology as well as medical doctors in cardiology, angiology and nephrology.
Author: Jacques Fantini Publisher: Academic Press ISBN: 0128004924 Category : Science Languages : en Pages : 398
Book Description
Lipids are the most abundant organic compounds found in the brain, accounting for up to 50% of its dry weight. The brain lipidome includes several thousands of distinct biochemical structures whose expression may greatly vary according to age, gender, brain region, cell type, as well as subcellular localization. In synaptic membranes, brain lipids specifically interact with neurotransmitter receptors and control their activity. Moreover, brain lipids play a key role in the generation and neurotoxicity of amyloidogenic proteins involved in the pathophysiology of neurological diseases. The aim of this book is to provide for the first time a comprehensive overview of brain lipid structures, and to explain the roles of these lipids in synaptic function, and in neurodegenerative diseases, including Alzheimer’s, Creutzfeldt-Jakob’s and Parkinson’s. To conclude the book, the authors present new ideas that can drive innovative therapeutic strategies based on the knowledge of the role of lipids in brain disorders. Written to provide a "hands-on" approach for readers Biochemical structures explained with molecular models, and molecular mechanisms explained with simple drawings Step-by-step guide to memorize and draw lipid structures Each chapter features a content summary, up-to-date references for additional study, and a key experiment with an explanation of the technique
Author: Mark P. Mattson
Author: Mark P. Mattson
Author: Peter J. Quinn
Author: Bruce Alberts
Author: Dr. Ron Wallace
Author: Jens Tilsner
Author: Juliusz Ashot Kozak
Author: Ron Wallace
Author: Christopher J. Fielding
Author: Viacheslav Nikolaev
Author: Jacques Fantini