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High Pressure Bioscience : Basic Concepts, Applications and Frontiers

Overview of attention for book
Cover of 'High Pressure Bioscience : Basic Concepts, Applications and Frontiers'

Table of Contents

  1. Altmetric Badge
    Book Overview
  2. Altmetric Badge
    Chapter 1 Early Days of Pressure Denaturation Studies of Proteins
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    Chapter 2 Protein Denaturation on p - T Axes – Thermodynamics and Analysis
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    Chapter 3 Driving Forces in Pressure-Induced Protein Transitions
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    Chapter 4 Why and How Does Pressure Unfold Proteins?
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    Chapter 5 Volume and Compressibility of Proteins
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    Chapter 6 High Pressure Bioscience
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    Chapter 7 Water Turns the “Non-biological” Fluctuation of Protein into “Biological” One
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    Chapter 8 Pressure Effects on the Intermolecular Interaction Potential of Condensed Protein Solutions
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    Chapter 9 High Pressure NMR Methods for Characterizing Functional Substates of Proteins
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    Chapter 10 High-Pressure NMR Spectroscopy Reveals Functional Sub-states of Ubiquitin and Ubiquitin-Like Proteins
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    Chapter 11 Functional Sub-states by High-pressure Macromolecular Crystallography
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    Chapter 12 Cavities and Excited States in Proteins
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    Chapter 13 Exploring the Protein Folding Pathway with High-Pressure NMR: Steady-State and Kinetics Studies
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    Chapter 14 Basic Equations in Statics and Kinetics of Protein Polymerization and the Mechanism of the Formation and Dissociation of Amyloid Fibrils Revealed by Pressure Perturbation
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    Chapter 15 Pressure-Inactivated Virus: A Promising Alternative for Vaccine Production
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    Chapter 16 How Do Membranes Respond to Pressure?
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    Chapter 17 Pressure Effects on Artificial and Cellular Membranes
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    Chapter 18 Effects of High Hydrostatic Pressure on Microbial Cell Membranes: Structural and Functional Perspectives.
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    Chapter 19 Homeoviscous Adaptation of Membranes in Archaea.
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    Chapter 20 Pressure-Dependent Gene Activation in Yeast Cells.
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    Chapter 21 Environmental Adaptation of Dihydrofolate Reductase from Deep-Sea Bacteria.
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    Chapter 22 Moss Spores Can Tolerate Ultra-high Pressure.
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    Chapter 23 Pressure-Based Strategy for the Inactivation of Spores
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    Chapter 24 Use of Pressure Activation in Food Quality Improvement
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    Chapter 25 Use of Pressure for Improving Storage Quality of Fresh-Cut Produce.
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    Chapter 26 Application of High-Pressure Treatment to Enhancement of Functional Components in Agricultural Products and Development of Sterilized Foods
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    Chapter 27 High-Pressure Microscopy for Studying Molecular Motors.
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    Chapter 28 Ion Channels Activated by Mechanical Forces in Bacterial and Eukaryotic Cells
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    Chapter 29 Gravitational Effects on Human Physiology.
  31. Altmetric Badge
    Chapter 30 High Pressure Small-Angle X-Ray Scattering
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    Chapter 31 High Pressure Macromolecular Crystallography
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    Chapter 32 High-Pressure Fluorescence Spectroscopy.
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    Chapter 33 High Pressure NMR Spectroscopy
  35. Altmetric Badge
    Chapter 34 Erratum
Attention for Chapter 19: Homeoviscous Adaptation of Membranes in Archaea.
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  • Good Attention Score compared to outputs of the same age and source (76th percentile)

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Chapter title
Homeoviscous Adaptation of Membranes in Archaea.
Chapter number 19
Book title
High Pressure Bioscience
Published in
Sub cellular biochemistry, January 2015
DOI 10.1007/978-94-017-9918-8_19
Pubmed ID
26174392
Book ISBNs
978-9-40-179917-1, 978-9-40-179918-8
Authors

Oger, Philippe M, Philippe M. Oger, Oger, Philippe M.

Abstract

Because membranes play a central role in regulating fluxes inward and outward from the cells, maintaining the appropriate structure of the membrane is crucial to maintain cellular integrity and functions. Microbes often face contrasted and fluctuating environmental conditions, to which they need to adapt or die. Membrane adaptation is achieved by a modification of the membrane lipid composition, a strategy termed homeoviscous adaptation. Homeoviscous adaptation in archaea involves strategies similar to that observed in bacteria and eucarya, such as the regulation of lipid chain length or saturation levels, as well as strategies specific to archaea, such as the regulation of the number of cycles along the isoprenoid chains or the regulation of the ratio between mono and bipolar lipids. Although not described yet described in hyperthermophilic bacteria, it is possible that these two strategies also apply to these latter organisms.

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X Demographics

X Demographics

The data shown below were collected from the profiles of 3 X users who shared this research output. Click here to find out more about how the information was compiled.
 Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 8 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 8 100%

Demographic breakdown

Readers by professional status Count As %
Student > Doctoral Student 2 25%
Student > Postgraduate 1 13%
Professor 1 13%
Student > Ph. D. Student 1 13%
Student > Master 1 13%
Other 1 13%
Unknown 1 13%
Readers by discipline Count As %
Biochemistry, Genetics and Molecular Biology 4 50%
Agricultural and Biological Sciences 2 25%
Earth and Planetary Sciences 1 13%
Unknown 1 13%
Attention Score in Context

Attention Score in Context

This research output has an Altmetric Attention Score of 2. This is our high-level measure of the quality and quantity of online attention that it has received. This Attention Score, as well as the ranking and number of research outputs shown below, was calculated when the research output was last mentioned on 18 July 2015.
All research outputs
#14,231,810
of 22,817,213 outputs
Outputs from Sub cellular biochemistry
#164
of 361 outputs
Outputs of similar age
#186,767
of 353,112 outputs
Outputs of similar age from Sub cellular biochemistry
#6
of 26 outputs
Altmetric has tracked 22,817,213 research outputs across all sources so far. This one is in the 35th percentile – i.e., 35% of other outputs scored the same or lower than it.
So far Altmetric has tracked 361 research outputs from this source. They receive a mean Attention Score of 4.6. This one has gotten more attention than average, scoring higher than 52% of its peers.
Older research outputs will score higher simply because they've had more time to accumulate mentions. To account for age we can compare this Altmetric Attention Score to the 353,112 tracked outputs that were published within six weeks on either side of this one in any source. This one is in the 44th percentile – i.e., 44% of its contemporaries scored the same or lower than it.
We're also able to compare this research output to 26 others from the same source and published within six weeks on either side of this one. This one has done well, scoring higher than 76% of its contemporaries.

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