Results 141 to 150 of about 2,979 (183)
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Prediction strategy for screening functional Haloarchaea strains with qPCR assays
Journal of Microbiological MethodsAs an extremophile resource, functional Haloarchaea strains are extremely time-consuming to screen. Here, taking the screening of low-salt-tolerant strains as an example, based on the qPCR assays that shortened time by 4-7 times and achieved 100 ...
Xiang Xiao, Xiangru Xu
exaly +2 more sources
Proteolytic Activity Assays in Haloarchaea.
Methods in molecular biology, 2022Extreme halophilic archaea (haloarchaea) have adapted their physiology and biomolecules to thrive in saline environments (>2 M NaCl). Many haloarchaea produce extracellular hydrolases (including proteases) with potential biotechnological applications, which require unusual high salt concentrations to attain their function and maintain their stability ...
R. Paggi +2 more
semanticscholar +3 more sources
Haloarchaea: A Promising Biosource for Carotenoid Production
Advances in Experimental Medicine and Biology, 2021Haloarchaea are halophilic microorganisms belonging to the Archaea domain that inhabit salty environments (mainly soils and water) all around the world. Most of the genera included in this group are able to produce carotenoids at significant concentrations (even wild-type strains).
Javier Torregrosa-Crespo +2 more
exaly +3 more sources
Toxic heavy metal/oxyanion tolerance in haloarchaea from some saline and hypersaline ecosystems
Journal of Basic Microbiology, 2023Toxic heavy metal/oxyanion contamination has increased severely through the last decades. In this study, 169 native haloarchaeal strains were isolated from different saline and hypersaline econiches of Iran.
Nazanin Tavoosi +3 more
semanticscholar +1 more source
A Methylaspartate Cycle in Haloarchaea
Science, 2011Salt-loving microbes have patched together an alternative carbon assimilation cycle.
Khomyakova, M. +4 more
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Biofilm formation by haloarchaea
Environmental Microbiology, 2012Summary A fluorescence‐based live‐cell adhesion assay was used to examine biofilm formation by 20 different haloarchaea, including species of H alobacterium , H
Sabrina, Fröls +2 more
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Lipidomic Chemotaxonomy Aligned with Phylogeny of Haloarchaea
IMOG 2023, 2023W. Yao +7 more
semanticscholar +2 more sources
Carotenoids from Haloarchaea: Extraction, Fractionation, and Characterization.
Methods in molecular biology, 2022Carotenoids are bioactive molecules known to promote human health. Many extreme halophilic archaea synthesize carotenoids, mainly represented by C50 bacterioruberin (BR) and its derivatives. BR has a potent antioxidant capacity, even higher than that of β-carotene, thus, there is an increasing interest to advance the study of its biological properties ...
M. S. Churio +2 more
semanticscholar +4 more sources
Genomics and functional genomics with haloarchaea
Archives of Microbiology, 2008The first haloarchaeal genome was published in 2000 and today five genome sequences are available. Transcriptome and proteome analyses have been established for two and three haloarchaeal species, respectively, and more than 20 studies using these functional genomic approaches have been published in the last two years.
J, Soppa +5 more
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Systematics of haloarchaea and biotechnological potential of their hydrolytic enzymes
Microbiology (United Kingdom), 2017 Halophilic archaea, also referred to as haloarchaea, dominate hypersaline environments. To survive under such extreme conditions, haloarchaea and their enzymes have evolved to function optimally in environments with high salt concentrations and, sometimes, with extreme pH and temperatures.
Mohammad Ali Amoozegar +2 more
exaly +3 more sources