SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2972434472> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W2972434472 abstract "Abstract Hydrothermal vents release reduced compounds and small organic carbons into surrounding seawaters, providing essential substrates for microbial-derived biosynthesis and bioenergy transformations. Despite the wide distribution of Marine Benthic Group-E archaea (referred to as Hydrothermarchaeota) in hydrothermal environments, little is known on their genome blueprints and ecofunctions. Here, we studied four relatively high-completeness (> 80%) metagenome-assembled genomes (MAGs) from a black smoker chimney and surrounding sulfide sediments in the Mid-Atlantic Ridge of the South Atlantic Ocean (BSmoChi-MAR) as well as publicly available datasets. Comparative genomics suggest that Hydrothermarchaeota members have versatile carbon metabolism, including assimilating proteins, lactate and acetate, degrading aromatics anaerobically, oxidizing C 1 compounds (CO, formate, and formaldehyde), utilizing methyl-compounds, and incorporating CO 2 by tetrahydromethanopterin-based Wood–Ljungdahl (WL) pathway and Calvin–Benson–Bassham (CBB) cycle with type III Ribulose-1,5-bisphosphate carboxylase/oxygenase (RubisCO). They could oxidize sulfur, arsenic, and hydrogen, and respire anaerobically via sulfate reduction and denitrification based on genomic evidence. The redundancy of carbon utilizing and element cycling functions, and the interactive processes of syntrophic and sequential utilization of substrates from community-level metabolic prediction, enable wide accessibility of carbon and energy sources to microorganisms. Hydrothermarchaeota members derived important functional components from the community through lateral gene transfer, and became clade-distinctive on genome content, which might serve as a niche-adaptive strategy to metabolize potential heavy metals, C 1 compounds, and reduced sulfur compounds. Importance This study provides comprehensive metabolic insights on Hydrothermarchaeota from comparative genomics, evolution and community-level aspects. Hydrothermarchaeota synergistically participates in a wide range of carbon utilizing and element cycling processes with other microbes in the community. We expand the current understanding of community interactions within hydrothermal sediment environments, suggesting that microbial interactions driven by functions are essential to nutrient and element cycling." @default.
W2972434472 created "2019-09-19" @default.
W2972434472 creator A5010670327 @default.
W2972434472 creator A5013547621 @default.
W2972434472 creator A5023363049 @default.
W2972434472 creator A5042464840 @default.
W2972434472 creator A5058899986 @default.
W2972434472 creator A5087592842 @default.
W2972434472 date "2019-09-14" @default.
W2972434472 modified "2023-09-26" @default.
W2972434472 title "Genome and community-level interaction insights on wide carbon utilizing and element cycling function of Hydrothermarchaeota from hydrothermal sediment" @default.
W2972434472 cites W1584790813 @default.
W2972434472 cites W1900937478 @default.
W2972434472 cites W1953569147 @default.
W2972434472 cites W1958058086 @default.
W2972434472 cites W1987110404 @default.
W2972434472 cites W2025118032 @default.
W2972434472 cites W2028302194 @default.
W2972434472 cites W2034285706 @default.
W2972434472 cites W2045204781 @default.
W2972434472 cites W2045527160 @default.
W2972434472 cites W2048687101 @default.
W2972434472 cites W2055126341 @default.
W2972434472 cites W2061727835 @default.
W2972434472 cites W2077875794 @default.
W2972434472 cites W2084595272 @default.
W2972434472 cites W2088227558 @default.
W2972434472 cites W2094596285 @default.
W2972434472 cites W2101291993 @default.
W2972434472 cites W2102508256 @default.
W2972434472 cites W2103539617 @default.
W2972434472 cites W2105565847 @default.
W2972434472 cites W2107339809 @default.
W2972434472 cites W2107991904 @default.
W2972434472 cites W2108718991 @default.
W2972434472 cites W2111647009 @default.
W2972434472 cites W2112364185 @default.
W2972434472 cites W2113679889 @default.
W2972434472 cites W2114392707 @default.
W2972434472 cites W2123186393 @default.
W2972434472 cites W2124088653 @default.
W2972434472 cites W2124967403 @default.
W2972434472 cites W2125439893 @default.
W2972434472 cites W2131272473 @default.
W2972434472 cites W2133579817 @default.
W2972434472 cites W2135191113 @default.
W2972434472 cites W2139134537 @default.
W2972434472 cites W2141052558 @default.
W2972434472 cites W2141920662 @default.
W2972434472 cites W2145206794 @default.
W2972434472 cites W2146281049 @default.
W2972434472 cites W2152418086 @default.
W2972434472 cites W2153546193 @default.
W2972434472 cites W2154816542 @default.
W2972434472 cites W2155806125 @default.
W2972434472 cites W2162792752 @default.
W2972434472 cites W2170089054 @default.
W2972434472 cites W2170551349 @default.
W2972434472 cites W2178043251 @default.
W2972434472 cites W2180241261 @default.
W2972434472 cites W2206071891 @default.
W2972434472 cites W2223752691 @default.
W2972434472 cites W2315521535 @default.
W2972434472 cites W2527684409 @default.
W2972434472 cites W2529052809 @default.
W2972434472 cites W2533015169 @default.
W2972434472 cites W2557371103 @default.
W2972434472 cites W2605119622 @default.
W2972434472 cites W2745448799 @default.
W2972434472 cites W2753961085 @default.
W2972434472 cites W2789511815 @default.
W2972434472 cites W2902645923 @default.
W2972434472 cites W2912797925 @default.
W2972434472 cites W2950785362 @default.
W2972434472 cites W2965788528 @default.
W2972434472 cites W4294216483 @default.
W2972434472 doi "https://doi.org/10.1101/768564" @default.
W2972434472 hasPublicationYear "2019" @default.
W2972434472 type Work @default.
W2972434472 sameAs 2972434472 @default.
W2972434472 citedByCount "0" @default.
W2972434472 crossrefType "posted-content" @default.
W2972434472 hasAuthorship W2972434472A5010670327 @default.
W2972434472 hasAuthorship W2972434472A5013547621 @default.
W2972434472 hasAuthorship W2972434472A5023363049 @default.
W2972434472 hasAuthorship W2972434472A5042464840 @default.
W2972434472 hasAuthorship W2972434472A5058899986 @default.
W2972434472 hasAuthorship W2972434472A5087592842 @default.
W2972434472 hasBestOaLocation W29724344721 @default.
W2972434472 hasConcept C104317684 @default.
W2972434472 hasConcept C107872376 @default.
W2972434472 hasConcept C15151743 @default.
W2972434472 hasConcept C151730666 @default.
W2972434472 hasConcept C156622251 @default.
W2972434472 hasConcept C183688256 @default.
W2972434472 hasConcept C185592680 @default.
W2972434472 hasConcept C1898230 @default.
W2972434472 hasConcept C199873434 @default.
W2972434472 hasConcept C50212798 @default.
W2972434472 hasConcept C550995028 @default.