Results 121 to 130 of about 419 (158)
Assessment of the in situ biomethanation potential of a deep aquifer used for natural gas storage. [PDF]
FEMS Microbiol EcolRanchou-Peyruse M +5 more
europepmc +1 more source
Some of the next articles are maybe not open access.
Related searches:
Related searches:
The biotechnological potential of piezophiles
Trends in Biotechnology, 2001Microorganisms that prefer high-pressure conditions are termed piezophiles (previously termed barophiles). The molecular basis of piezophily is now being investigated extensively focusing on aspects of gene regulation and the function of certain proteins in deep-sea isolates.
F, Abe, K, Horikoshi
openaire +2 more sources
Insights into the molecular basis of piezophilic adaptation: Extraction of piezophilic signatures
Journal of Theoretical Biology, 2016Piezophiles are the organisms which can successfully survive at extreme pressure conditions. However, the molecular basis of piezophilic adaptation is still poorly understood. Analysis of the protein sequence adjustments that had taken place during evolution can help to reveal the sequence adaptation parameters responsible for protein functional and ...
Abhigyan Nath, Karthikeyan Subbiah
openaire +2 more sources
Piezophilic adaptation: a genomic point of view
Journal of Biotechnology, 2006Two-thirds of Earth's surface is covered by oceans, yet the study of this massive integrated living system is still in its infancy. Various environmental variables, such as high salinity, low and changeable nutrient availability and depth-correlated gradients of light, temperature, nutrients and pressure shape the diversity, physiology and ecology of ...
SIMONATO, FRANCESCA +7 more
openaire +4 more sources
Piezophiles: Quiddity of Extreme Pressure Devotees
2023 Piezophiles are a sort of extremophilic organisms that nurture and survive under extreme hydrostatic pressures up to 10 MPa (1450 psi = 99 atm). The diversity of piezophilic organisms can be studied by swotting deep-sea environments that are inhabited by diverse piezophiles from all three domains of life.
Janki Ruparelia +4 more
openaire +1 more source
Deep-sea piezosphere and piezophiles: geomicrobiology and biogeochemistry
Trends in Microbiology, 2010The deep-sea piezosphere accounts for approximately 75% of the total ocean volume and hosts active and diverse biological communities. Evidence obtained thus far suggests that the microbial biomass present in the piezosphere is significant. Continued international interest in exploring the deep ocean provides impetus to increase our understanding of ...
Jiasong, Fang +2 more
openaire +2 more sources
Phospholipid FA of piezophilic bacteria from the deep sea
Lipids, 2003AbstractPhospholipid FA (PLFA) profiles were determined on four piezophilic bacteria from the deep sea: Moritella japonica DSK1, Shewanella violacea DSS12, S. benthica DB6705, and S. benthica DB21MT‐2. The total concentrations of PLFA were higher in strains grown at low pressure (DSK1, 10 MPa, 27.0 mg/g dry wt cells; DSS12, 50 MPa, 24.0 mg/g), and ...
Jiasong, Fang +5 more
openaire +2 more sources
Genetic tools for the piezophilic hyperthermophilic archaeon Pyrococcus yayanosii
Extremophiles, 2014The hyperthermophile Pyrococcus yayanosii CH1 is the only high-pressure-requiring microorganism obtained thus far within the archaea domain or among all non-psychrophiles in any domain. In this study, we developed a genetic manipulation system for P. yayanosii after first isolating a facultatively piezophilic derivative strain, designated P.
Xuegong, Li +5 more
openaire +2 more sources
2001
Publisher Summary The chapter discusses deep-sea piezophillic bacteria. Hyperpiezopsychrophiles are psychrophilic microorganisms having a maximum growth rate at a pressure greater than 50 MPa and grow poorly, if at all, at atmospheric pressure. They are the most pressure adapted bacteria known.
openaire +1 more source
Publisher Summary The chapter discusses deep-sea piezophillic bacteria. Hyperpiezopsychrophiles are psychrophilic microorganisms having a maximum growth rate at a pressure greater than 50 MPa and grow poorly, if at all, at atmospheric pressure. They are the most pressure adapted bacteria known.
openaire +1 more source