Genetic Potential of Dissulfurimicrobium hydrothermale, an Obligate Sulfur-Disproportionating Thermophilic Microorganism

International audience The biochemical pathways of anaerobic sulfur disproportionation are only partially deciphered, and the mechanisms involved in the first step of S0-disproportionation remain unknown. Here, we present the results of sequencing and analysis of the complete genome of Dissulfurimic...

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Bibliographic Details
Published in:Microorganisms
Main Authors: Yvenou, Stéven, Allioux, Maxime, Slobodkin, Alexander, Slobodkina, Galina, Jebbar, Mohamed, Alain, Karine
Other Authors: Biologie et Ecologie des Ecosystèmes marins Profonds UMR6197 (BEEP), BEEP Biologie et Ecologie des Ecosystèmes marins Profonds UMR6197 CNRS-Univ Brest-Ifremer (BEEP), Biologie et Ecologie des Ecosystèmes marins Profonds UMR6197 CNRS-Univ Brest_Ifremer (BEEP), Biologie et Ecologie des Ecosystèmes marins Profonds UMR6197 CNRS-Univ Brest-Ifremer- (BEEP)
Format: Article in Journal/Newspaper
Language:English
Published: HAL CCSD 2021
Subjects:
G
Sulfur-Disproportionating
hydrothermal vent
genomics
thermophile
envir
geo
Kamchatka
Online Access:https://doi.org/10.3390/microorganisms10010060
https://hal.archives-ouvertes.fr/hal-03504518/file/Yvenou_2021_Dissulfurimicrobium_hydrothermale.pdf
https://hal.archives-ouvertes.fr/hal-03504518
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Summary:International audience The biochemical pathways of anaerobic sulfur disproportionation are only partially deciphered, and the mechanisms involved in the first step of S0-disproportionation remain unknown. Here, we present the results of sequencing and analysis of the complete genome of Dissulfurimicrobium hydrothermale strain Sh68T, one of two strains isolated to date known to grow exclusively by anaerobic disproportionation of inorganic sulfur compounds. Dissulfurimicrobium hydrothermale Sh68T is a motile, thermophilic, anaerobic, chemolithoautotrophic microorganism isolated from a hydrothermal pond at Uzon caldera, Kamchatka, Russia. It is able to produce energy and grow by disproportionation of elemental sulfur, sulfite and thiosulfate. Its genome consists of a circular chromosome of 2,025,450 base pairs, has a G + C content of 49.66% and a completion of 97.6%. Genomic data suggest that CO2 assimilation is carried out by the Wood–Ljungdhal pathway and that central anabolism involves the gluconeogenesis pathway. The genome of strain Sh68T encodes the complete gene set of the dissimilatory sulfate reduction pathway, some of which are likely to be involved in sulfur disproportionation. A short sequence protein of unknown function present in the genome of strain Sh68T is conserved in the genomes of a large panel of other S0-disproportionating bacteria and was absent from the genomes of microorganisms incapable of elemental sulfur disproportionation. We propose that this protein may be involved in the first step of elemental sulfur disproportionation, as S0 is poorly soluble and unable to cross the cytoplasmic membrane in this form

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