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|Additional Physical Format:||Print version:
Jena, Bhanu P.
NanoCellBiology of secretion.
New York : Springer, 2012
|Material Type:||Document, Internet resource|
|Document Type:||Internet Resource, Computer File|
|All Authors / Contributors:||
Bhanu P Jena; Lloyd L Anderson
|Description:||1 online resource (xii, 70 p.) : ill. (chiefly col.)|
|Contents:||Understanding live cells at the single molecule level is the most important and single major challenge facing biology and medicine today. Over the past 15 years, there has been a renewed understanding of living cells at the molecular level. Atomic Force Microscopy, Laser Force Microscopy, single secretory vesicle patch clamp studies, highresolution electron microscopy, and x-ray diffraction, are some of the tools now being used to unravel the intricacies of a living cell at the molecular level. Opening with an explanation of Materials and Methods, NanoCellBiology then moves through discussions of porosome discovery, calcium and SNARE-induced fusion, and vesicle swelling before winding up in a final chapter of conclusions and future studies. Succinctly packaged as SpringerBrief, this book is a must for those studying or conducting research in cell biology, biochemistry or nanobiology/nanotechnology. This book will be invaluable to faculty & graduate students involved in Nano Courses; Cell Biology Courses; Biophysics Courses; and Biochemistry Courses as well as practicing Cell Biologists, Biochemists and BioPhysicists. Table of contetns: Introduction.- Materials & Methods.- Porosome Discovery.- Calcium & SNARE-Induced Membrane Fusion.- SNAREs need to reside in opposing membrane.- Membrane curvature dictates SNARE size.- Disassembly of membrane-associated SNARE complex.- CD spectroscopy confirm membrane requirement for t-/v-SNARE assembly.- SNAREs bring opposing bilayers closer for calcium bridging.- Membrane lipids influence SNARE complex assembly-disassembly.- Vesicle swelling and content expulsion during cell secretion.- Secretory vesicle swelling is required for intravesicular content expulsion.- Molecular mechanism of secretory vesicle swelling.- Presence of beta receptors at the secretory vesicle membrane.- Conclusion and future studies.|
|Series Title:||SpringerBriefs in biological imaging.|
|Other Titles:||Nano cell biology of secretion|
|Responsibility:||Bhanu P. Jena ; foreword by Lloyd L. Anderson.|