Add to ORKGThe complexity and dynamics of microbial metagenomes may be evaluated by genome size, gene duplication and the disruption rate between lineages. In this study, we pyrosequenced the metagenomes of microbes obtained from the brine and sediment of a deep-sea brine pool in the Red Sea to explore the possible genomic adaptations of the microbes in response to environmental changes. The microbes from the brine and sediments (both surface and deep layers) of the Atlantis II Deep brine pool had similar communities whereas the effective genome size varied from 7.4 Mb in the brine to more than 9 Mb in the sediment. This genome expansion in the sediment samples was due to gene duplication as evidenced by enrichment of the homologs. The duplicated gene...
Thesis (Ph.D.)--University of Washington, 2015-12Abundant and evolutionarily diverse populations of ...
<div><p>The seafloor is a unique environment, which allows insights into how geochemical processes a...
Marine sediments cover around 65% of the Earth’s surface and microorganisms inhabiting these environ...
The complexity and dynamics of microbial metagenomes may be evaluated by genome size, gene duplicati...
© The Author(s) 2016. The central rift of the Red Sea has 25 brine pools with different physical and...
Beneath the seafloor, microbial life subsists in isolation from the surface world under persistent e...
To understand the metabolic pathway, physiological process, genomic structure, and adaptation of mic...
Graduation date: 2007Candidatus Pelagibacter ubique is the first cultured representative of the SAR1...
Earth is expected to continue warming and the Red Sea is a model environment for understanding the e...
Phylogenetic surveys based on cultivation-independent methods have revealed that tidal flat sediment...
The bottom of the Red Sea harbors over 25 deep hypersaline anoxic basins that are geochemically dist...
The seafloor is a unique environment, which allows insights into how geochemical processes affect th...
Background: Microbes are main drivers of biogeochemical cycles in oceans and lakes. Although the gen...
BACKGROUND: Metagenomics is emerging as a powerful method to study the function and physiology of th...
Adaptation to life in the deep-sea can be dramatic, with fish displaying behaviors and appearances u...
Thesis (Ph.D.)--University of Washington, 2015-12Abundant and evolutionarily diverse populations of ...
<div><p>The seafloor is a unique environment, which allows insights into how geochemical processes a...
Marine sediments cover around 65% of the Earth’s surface and microorganisms inhabiting these environ...
The complexity and dynamics of microbial metagenomes may be evaluated by genome size, gene duplicati...
© The Author(s) 2016. The central rift of the Red Sea has 25 brine pools with different physical and...
Beneath the seafloor, microbial life subsists in isolation from the surface world under persistent e...
To understand the metabolic pathway, physiological process, genomic structure, and adaptation of mic...
Graduation date: 2007Candidatus Pelagibacter ubique is the first cultured representative of the SAR1...
Earth is expected to continue warming and the Red Sea is a model environment for understanding the e...
Phylogenetic surveys based on cultivation-independent methods have revealed that tidal flat sediment...
The bottom of the Red Sea harbors over 25 deep hypersaline anoxic basins that are geochemically dist...
The seafloor is a unique environment, which allows insights into how geochemical processes affect th...
Background: Microbes are main drivers of biogeochemical cycles in oceans and lakes. Although the gen...
BACKGROUND: Metagenomics is emerging as a powerful method to study the function and physiology of th...
Adaptation to life in the deep-sea can be dramatic, with fish displaying behaviors and appearances u...
Thesis (Ph.D.)--University of Washington, 2015-12Abundant and evolutionarily diverse populations of ...
<div><p>The seafloor is a unique environment, which allows insights into how geochemical processes a...
Marine sediments cover around 65% of the Earth’s surface and microorganisms inhabiting these environ...