Membrane Hydration

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Cover of 'Membrane Hydration'

Table of Contents

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Book Overview
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Chapter 1 Membrane Hydration: A Hint to a New Model for Biomembranes.
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Chapter 2 Use of X-Ray and Neutron Scattering Methods with Volume Measurements to Determine Lipid Bilayer Structure and Number of Water Molecules/Lipid.
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Chapter 3 Water and Lipid Bilayers.
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Chapter 4 Hydration Forces Between Lipid Bilayers: A Theoretical Overview and a Look on Methods Exploring Dehydration.
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Chapter 5 Monitoring Membrane Hydration with 2-(Dimethylamino)-6-Acylnaphtalenes Fluorescent Probes.
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Chapter 6 Long-Range Lipid-Water Interaction as Observed by ATR-FTIR Spectroscopy.
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Chapter 7 Hydration and Nanoconfined Water: Insights from Computer Simulations.
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Chapter 8 Aquaphotomics: Near Infrared Spectroscopy and Water States in Biological Systems.
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Chapter 9 Hydration in Lipid Monolayers: Correlation of Water Activity and Surface Pressure.
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Chapter 10 Water at Biological Phase Boundaries: Its Role in Interfacial Activation of Enzymes and Metabolic Pathways.
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Chapter 11 Anhydrobiosis: An Unsolved Problem with Applications in Human Welfare.

Attention for Chapter 11: Anhydrobiosis: An Unsolved Problem with Applications in Human Welfare.

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Citations

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mendeley: 25 Mendeley

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Chapter title	Anhydrobiosis: An Unsolved Problem with Applications in Human Welfare.
Chapter number	11
Book title	Membrane Hydration
Published in	Sub cellular biochemistry, January 2015
DOI	10.1007/978-3-319-19060-0_11
Pubmed ID	26438269
Book ISBNs	978-3-31-919059-4, 978-3-31-919060-0
Authors	John H. Crowe
Editors	E. Anibal Disalvo
Abstract	Anhydrobiosis (Life Without Water) has been known for millennia, but the underlying mechanisms have not been understood until recent decades, and we have achieved only a partial understanding. One of the chief sites of damage from dehydration is membranes, and we and others have provided evidence that this damage may be obviated by the production of certain sugars, particularly trehalose. The sugar stabilizes membranes by preventing fusion and fluidizing the dry bilayers. The mechanism by which this is accomplished has been controversial, and I review that controversy here. In the past decade evidence is accumulating for a role of stress proteins in addition to or as a substitute for trehalose. Genomic studies on anhydrobiotes are yielding rapid progress. Also in the past decade, numerous uses for trehalose in treating human diseases have been proposed, some of which are in clinical testing. I conclude that the mechanisms underlying anhydrobiosis are more complex than we thought 20 years ago, but progress is being made towards elucidating those mechanisms.

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Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 25 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country	Count	As %
Unknown	25	100%

Demographic breakdown

Readers by professional status	Count	As %
Student > Bachelor	6	24%
Researcher	6	24%
Student > Ph. D. Student	5	20%
Student > Doctoral Student	1	4%
Professor	1	4%
Other	2	8%
Unknown	4	16%

Readers by discipline	Count	As %
Biochemistry, Genetics and Molecular Biology	10	40%
Agricultural and Biological Sciences	5	20%
Chemistry	3	12%
Engineering	2	8%
Materials Science	1	4%
Other	1	4%
Unknown	3	12%