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Pressure Perturbation Approach in Biochemistry and Structural Biology. In memoriam of Dr. Gaston Hui Bon Hoa
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This Special Issue focuses on the effects of hydrostatic pressure on biological systems and the use of these effects for exploring the structure, function, and molecular dynamics of biological macromolecules and their ensembles. Here, we present a selection of papers highlighting new experimental findings and new theoretical concepts in high-pressure biosciences. In these studies, the authors combine pressure perturbation approaches with NMR and optical spectroscopy, kinetic and thermodynamic techniques, functional genomics and transcriptomics, and molecular dynamics simulations to gain new insights into the conformational dynamics of proteins and nucleic acids and to better understand the mechanisms of high-pressure adaptation in piezophiles. The articles collected in this issue demonstrate the unique exploratory potential of the pressure perturbation approach for biochemistry, biophysics, mechanistic enzymology, and evolutionary biology.
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Keywords
- 1H NMR spectroscopy
- Anfinsen’s dogma
- ANS
- atomic force microscopy
- Biochemistry
- Biology, Life Sciences
- BSA
- cavities
- circular dichroism
- compressibility
- conformational change
- cytochrome P450 reductase
- deep-sea adaptations
- DNA
- fibril state F
- FRET
- FTIR
- G-quadruplex
- genetic manipulation
- hen lysozyme
- hepatitis B
- high hydrostatic pressure
- high pressure
- high-pressure response
- hydrostatic pressure
- i-motif
- Martian salts
- Mathematics & science
- n/a
- native state N
- NMR
- oligo
- perchlorate
- piezophysiology
- potential energy landscape
- pressure
- pressure-perturbation spectroscopy
- pressure-temperature phase diagram
- Protein Folding
- protein hydration
- protein–ligand binding
- protofibrils
- reduction kinetics
- Reference, information & interdisciplinary subjects
- Research & information: general
- RNA World
- Saccharomyces cerevisiae
- Sorghum bicolor
- spectroscopy
- stop-flow spectroscopy
- structure–activity relationship
- temperature
- thermodynamic stability
- Thermodynamics
- TMPyP4
- Transcriptomics
- unfolded state U
- viroid
- volume change
- volumetric properties
- Yeast
Links
DOI: 10.3390/books978-3-0365-4672-8Editions