The complete genome of extracellular protease-producing Deinococcus sp. D7000 isolated from the hadal region of Mariana Trench Challenger Deep.

  title={The complete genome of extracellular protease-producing Deinococcus sp. D7000 isolated from the hadal region of Mariana Trench Challenger Deep.},
  author={Ru-Yi Zhang and Ying Huang and Wenmin Qin and Zhe-Xue Quan},
  journal={Marine genomics},
2 Citations

Halomonas profundi sp. nov., isolated from deep-sea sediment of the Mariana Trench.

Two novel Gram-stain-negative, facultative anaerobic, non-flagellated, rod-shaped bacterial strains, designated MT13T and MT32, were isolated from sediment samples collected from the Mariana Trench and represented a novel species of the genus Halomonas, for which the nameHalomonas profundi sp.

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Recent evidence is reviewed that the enormous sequence diversity of both passenger and beta domains belies a remarkable conservation of structure in autotransporters.

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Trends in extracellular serine proteases of bacteria as detergent bioadditive: alternate and environmental friendly tool for detergent industry

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The relationship between genomic differentiation and environmental factors of the Mesonia genus is analyzed and the possible adaptation mechanism of Mesonia algae K4-1 in the extreme Arctic marine environment is revealed at the genomic level.

Thalassomonas eurytherma sp. nov., a marine proteobacterium.

Two Gram-staining-negative, aerobic, rod-shaped bacterial strains were isolated from seawater of the East China Sea and revealed that the isolates belonged to the genus Thalassomonas and showed the highest sequence similarity to ThalASSomonas loyana CBMAI 722(T) (95.9%).

NCBI prokaryotic genome annotation pipeline

The new NCBI's Prokaryotic Genome Annotation Pipeline (PGAP) relies less on sequence similarity when confident comparative data are available, while it relies more on statistical predictions in the absence of external evidence.

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Comparisons improved the characterisation of several proteins regarding important conserved residues, cellular location and possible protein–protein interactions and indicates not only conservation but also large diversity in the molecular mechanisms involved in radiation resistance even within the Deinococcus genus.