Qin_2010_BMC.Genomics_11_247

Reference

Title : The complete genome of Zunongwangia profunda SM-A87 reveals its adaptation to the deep-sea environment and ecological role in sedimentary organic nitrogen degradation - Qin_2010_BMC.Genomics_11_247
Author(s) : Qin QL , Zhang XY , Wang XM , Liu GM , Chen XL , Xie BB , Dang HY , Zhou BC , Yu J , Zhang YZ
Ref : BMC Genomics , 11 :247 , 2010
Abstract :

BACKGROUND: Zunongwangia profunda SM-A87, which was isolated from deep-sea sediment, is an aerobic, gram-negative bacterium that represents a new genus of Flavobacteriaceae. This is the first sequenced genome of a deep-sea bacterium from the phylum Bacteroidetes.
RESULTS: The Z. profunda SM-A87 genome has a single 5 128 187-bp circular chromosome with no extrachromosomal elements and harbors 4 653 predicted protein-coding genes. SM-A87 produces a large amount of capsular polysaccharides and possesses two polysaccharide biosynthesis gene clusters. It has a total of 130 peptidases, 61 of which have signal peptides. In addition to extracellular peptidases, SM-A87 also has various extracellular enzymes for carbohydrate, lipid and DNA degradation. These extracellular enzymes suggest that the bacterium is able to hydrolyze organic materials in the sediment, especially carbohydrates and proteinaceous organic nitrogen. There are two clustered regularly interspaced short palindromic repeats in the genome, but their spacers do not match any sequences in the public sequence databases. SM-A87 is a moderate halophile. Our protein isoelectric point analysis indicates that extracellular proteins have lower predicted isoelectric points than intracellular proteins. SM-A87 accumulates organic osmolytes in the cell, so its extracelluar proteins are more halophilic than its intracellular proteins. CONCLUSION: Here, we present the first complete genome of a deep-sea sedimentary bacterium from the phylum Bacteroidetes. The genome analysis shows that SM-A87 has some common features of deep-sea bacteria, as well as an important capacity to hydrolyze sedimentary organic nitrogen.

PubMedSearch : Qin_2010_BMC.Genomics_11_247
PubMedID: 20398413
Gene_locus related to this paper: zunps-d5bb86 , zunps-d5bdi3 , zunps-d5bdw4 , zunps-d5bdx7 , zunps-d5bfq8 , zunps-d5bhe6 , zunps-d5bju1 , zunps-d5bk35 , zunps-d5bk43

Related information

Gene_locus zunps-d5bb86    zunps-d5bdi3    zunps-d5bdw4    zunps-d5bdx7    zunps-d5bfq8    zunps-d5bhe6    zunps-d5bju1    zunps-d5bk35    zunps-d5bk43
Gene_locus_frgt zunps-d5bjw7

Citations formats

Qin QL, Zhang XY, Wang XM, Liu GM, Chen XL, Xie BB, Dang HY, Zhou BC, Yu J, Zhang YZ (2010)
The complete genome of Zunongwangia profunda SM-A87 reveals its adaptation to the deep-sea environment and ecological role in sedimentary organic nitrogen degradation
BMC Genomics 11 :247

Qin QL, Zhang XY, Wang XM, Liu GM, Chen XL, Xie BB, Dang HY, Zhou BC, Yu J, Zhang YZ (2010)
BMC Genomics 11 :247