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First Insights Into the Biological and Physical-Chemical Diversity of Various Salt Ponds of Trapani, Sicily. [PDF]
Environ Microbiol RepCusenza BS +6 more
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Changes in the intestinal microbiota of broiler chicken induced by dietary supplementation of the diatomite-bentonite mixture. [PDF]
BMC Vet ResWęsierska E +11 more
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2022
Halophiles are extremophilic salt-loving microorganisms that can survive in an extremely high level of salinity (10-30% NaCl). They belong to all three groups (i.e., bacteria, archaea, and eukaryotes). Halophiles tolerate high salt concentration due to unique cellular adaptations like salt-in strategy, compatible solute strategy, and enzyme adaptations.
Aparna Baban Gunjal +1 more
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Halophiles are extremophilic salt-loving microorganisms that can survive in an extremely high level of salinity (10-30% NaCl). They belong to all three groups (i.e., bacteria, archaea, and eukaryotes). Halophiles tolerate high salt concentration due to unique cellular adaptations like salt-in strategy, compatible solute strategy, and enzyme adaptations.
Aparna Baban Gunjal +1 more
openaire +1 more source
Southern Medical Journal, 1980
We have described a patient with fulminant sepsis and bullous skin lesions due to L + Vibrio. The histologic features of these lesions as well as the rapid onset of refractory shock and complete heart block at least suggest that potent bacterial toxins are involved in the pathogenesis of disease caused by this "unnamed lactose-positive marine Vibrio."
D B, Craig, D L, Stevens
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We have described a patient with fulminant sepsis and bullous skin lesions due to L + Vibrio. The histologic features of these lesions as well as the rapid onset of refractory shock and complete heart block at least suggest that potent bacterial toxins are involved in the pathogenesis of disease caused by this "unnamed lactose-positive marine Vibrio."
D B, Craig, D L, Stevens
openaire +2 more sources
Halotolerant and halophilic fungi
Mycological Research, 2009Extreme environments have for long been considered to be populated almost exclusively by prokaryotic organisms and therefore monopolized by bacteriologists. Solar salterns are natural hypersaline environments characterized by extreme concentrations of NaCl, often high concentrations of other ions, high uv irradiation and in some cases extremes in pH ...
Nina, Gunde-Cimerman +2 more
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Halophilic anaerobic fermentative bacteria
Journal of Biotechnology, 2011In hypersaline environments bacteria are exposed to a high osmotic pressure caused by the surrounding high salt concentrations. Halophilic microorganisms have specific strategies for balancing the osmotic pressure and surviving in these extreme conditions.
Anniina T, Kivistö, Matti T, Karp
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Proteomics of Halophilic archaea
Journal of Chromatography B, 2005Halophilic archaea is a member of the Halobacteriacea family, the only family in the Halobacteriales order. Most Halophilic archaea require 1.5M NaCl both to grow and retain the structural integrity of the cells. The proteins of these organisms have thus been adapted to be active and stable in the hypersaline condition.
Won-A, Joo, Chan-Wha, Kim
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Halophilic adaptation of enzymes
Extremophiles, 2000It is now clear that the understanding of halophilic adaptation at a molecular level requires a strategy of complementary experiments, combining molecular biology, biochemistry, and cellular approaches with physical chemistry and thermodynamics. In this review, after a discussion of the definition and composition of halophilic enzymes, the effects of ...
D, Madern, C, Ebel, G, Zaccai
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