SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017118844> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W2017118844 endingPage "e99417" @default.
W2017118844 startingPage "e99417" @default.
W2017118844 abstract "The genus Sulfobacillus is a cohort of mildly thermophilic or thermotolerant acidophiles within the phylum Firmicutes and requires extremely acidic environments and hypersalinity for optimal growth. However, our understanding of them is still preliminary partly because few genome sequences are available. Here, the draft genome of Sulfobacillus thermosulfidooxidans strain ST was deciphered to obtain a comprehensive insight into the genetic content and to understand the cellular mechanisms necessary for its survival. Furthermore, the expressions of key genes related with iron and sulfur oxidation were verified by semi-quantitative RT-PCR analysis. The draft genome sequence of Sulfobacillus thermosulfidooxidans strain ST, which encodes 3225 predicted coding genes on a total length of 3,333,554 bp and a 48.35% G+C, revealed the high degree of heterogeneity with other Sulfobacillus species. The presence of numerous transposases, genomic islands and complete CRISPR/Cas defence systems testifies to its dynamic evolution consistent with the genome heterogeneity. As expected, S. thermosulfidooxidans encodes a suit of conserved enzymes required for the oxidation of inorganic sulfur compounds (ISCs). The model of sulfur oxidation in S. thermosulfidooxidans was proposed, which showed some different characteristics from the sulfur oxidation of Gram-negative A. ferrooxidans. Sulfur oxygenase reductase and heterodisulfide reductase were suggested to play important roles in the sulfur oxidation. Although the iron oxidation ability was observed, some key proteins cannot be identified in S. thermosulfidooxidans. Unexpectedly, a predicted sulfocyanin is proposed to transfer electrons in the iron oxidation. Furthermore, its carbon metabolism is rather flexible, can perform the transformation of pentose through the oxidative and non-oxidative pentose phosphate pathways and has the ability to take up small organic compounds. It encodes a multitude of heavy metal resistance systems to adapt the heavy metal-containing environments." @default.
W2017118844 created "2016-06-24" @default.
W2017118844 creator A5002869010 @default.
W2017118844 creator A5019558813 @default.
W2017118844 creator A5028888316 @default.
W2017118844 creator A5062806453 @default.
W2017118844 creator A5070804547 @default.
W2017118844 creator A5074999356 @default.
W2017118844 creator A5077637811 @default.
W2017118844 creator A5079278618 @default.
W2017118844 creator A5084660488 @default.
W2017118844 creator A5085604566 @default.
W2017118844 date "2014-06-18" @default.
W2017118844 modified "2023-10-14" @default.
W2017118844 title "Comparative Genome Analysis Reveals Metabolic Versatility and Environmental Adaptations of Sulfobacillus thermosulfidooxidans Strain ST" @default.
W2017118844 cites W1251007765 @default.
W2017118844 cites W1500509809 @default.
W2017118844 cites W1512092650 @default.
W2017118844 cites W1530879923 @default.
W2017118844 cites W1550740130 @default.
W2017118844 cites W1665305383 @default.
W2017118844 cites W1924514180 @default.
W2017118844 cites W1965404910 @default.
W2017118844 cites W1970258666 @default.
W2017118844 cites W1971277373 @default.
W2017118844 cites W1974939563 @default.
W2017118844 cites W1982587840 @default.
W2017118844 cites W1990009846 @default.
W2017118844 cites W1996628327 @default.
W2017118844 cites W1998141989 @default.
W2017118844 cites W2004608570 @default.
W2017118844 cites W2008491894 @default.
W2017118844 cites W2009940898 @default.
W2017118844 cites W2011967714 @default.
W2017118844 cites W2024709479 @default.
W2017118844 cites W2026477502 @default.
W2017118844 cites W2030150302 @default.
W2017118844 cites W2031659186 @default.
W2017118844 cites W2037651491 @default.
W2017118844 cites W2038006402 @default.
W2017118844 cites W2040740172 @default.
W2017118844 cites W2041438836 @default.
W2017118844 cites W2044055478 @default.
W2017118844 cites W2045843097 @default.
W2017118844 cites W2047032063 @default.
W2017118844 cites W2055529041 @default.
W2017118844 cites W2057920617 @default.
W2017118844 cites W2058183941 @default.
W2017118844 cites W2063022418 @default.
W2017118844 cites W2063738542 @default.
W2017118844 cites W2066676981 @default.
W2017118844 cites W2067229758 @default.
W2017118844 cites W2075680815 @default.
W2017118844 cites W2077943748 @default.
W2017118844 cites W2092941413 @default.
W2017118844 cites W2093262859 @default.
W2017118844 cites W2097341408 @default.
W2017118844 cites W2105199251 @default.
W2017118844 cites W2105300849 @default.
W2017118844 cites W2106349705 @default.
W2017118844 cites W2106858514 @default.
W2017118844 cites W2123965484 @default.
W2017118844 cites W2124637227 @default.
W2017118844 cites W2125808225 @default.
W2017118844 cites W2130436333 @default.
W2017118844 cites W2135318435 @default.
W2017118844 cites W2137489734 @default.
W2017118844 cites W2137721714 @default.
W2017118844 cites W2140840272 @default.
W2017118844 cites W2141873986 @default.
W2017118844 cites W2144240290 @default.
W2017118844 cites W2144705636 @default.
W2017118844 cites W2144944670 @default.
W2017118844 cites W2155606054 @default.
W2017118844 cites W2158714788 @default.
W2017118844 cites W2159482845 @default.
W2017118844 cites W2159544479 @default.
W2017118844 cites W2163241233 @default.
W2017118844 cites W2169699724 @default.
W2017118844 cites W2170255645 @default.
W2017118844 cites W29354704 @default.
W2017118844 cites W4210400672 @default.
W2017118844 cites W4211090384 @default.
W2017118844 cites W4214952473 @default.
W2017118844 cites W4244606935 @default.
W2017118844 cites W4250052351 @default.
W2017118844 cites W4256409604 @default.
W2017118844 doi "https://doi.org/10.1371/journal.pone.0099417" @default.
W2017118844 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4062416" @default.
W2017118844 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24940621" @default.
W2017118844 hasPublicationYear "2014" @default.
W2017118844 type Work @default.
W2017118844 sameAs 2017118844 @default.
W2017118844 citedByCount "38" @default.
W2017118844 countsByYear W20171188442014 @default.
W2017118844 countsByYear W20171188442015 @default.
W2017118844 countsByYear W20171188442016 @default.
W2017118844 countsByYear W20171188442017 @default.