DeBoy_2008_J.Bacteriol_190_5455

Reference

Title : Insights into plant cell wall degradation from the genome sequence of the soil bacterium Cellvibrio japonicus - DeBoy_2008_J.Bacteriol_190_5455
Author(s) : DeBoy RT , Mongodin EF , Fouts DE , Tailford LE , Khouri H , Emerson JB , Mohamoud Y , Watkins K , Henrissat B , Gilbert HJ , Nelson KE
Ref : Journal of Bacteriology , 190 :5455 , 2008
Abstract :

The plant cell wall, which consists of a highly complex array of interconnecting polysaccharides, is the most abundant source of organic carbon in the biosphere. Microorganisms that degrade the plant cell wall synthesize an extensive portfolio of hydrolytic enzymes that display highly complex molecular architectures. To unravel the intricate repertoire of plant cell wall-degrading enzymes synthesized by the saprophytic soil bacterium Cellvibrio japonicus, we sequenced and analyzed its genome, which predicts that the bacterium contains the complete repertoire of enzymes required to degrade plant cell wall and storage polysaccharides. Approximately one-third of these putative proteins (57) are predicted to contain carbohydrate binding modules derived from 13 of the 49 known families. Sequence analysis reveals approximately 130 predicted glycoside hydrolases that target the major structural and storage plant polysaccharides. In common with that of the colonic prokaryote Bacteroides thetaiotaomicron, the genome of C. japonicus is predicted to encode a large number of GH43 enzymes, suggesting that the extensive arabinose decorations appended to pectins and xylans may represent a major nutrient source, not just for intestinal bacteria but also for microorganisms that occupy terrestrial ecosystems. The results presented here predict that C. japonicus possesses an extensive range of glycoside hydrolases, lyases, and esterases. Most importantly, the genome of C. japonicus is remarkably similar to that of the gram-negative marine bacterium, Saccharophagus degradans 2-40(T). Approximately 50% of the predicted C. japonicus plant-degradative apparatus appears to be shared with S. degradans, consistent with the utilization of plant-derived complex carbohydrates as a major substrate by both organisms.

PubMedSearch : DeBoy_2008_J.Bacteriol_190_5455
PubMedID: 18556790
Gene_locus related to this paper: celju-b3pei5 , celju-b3pf25 , celju-b3pfb5 , celju-b3pgh5 , celju-b3pgz5 , celju-b3ph03 , celju-b3pi00 , celju-b3pi89 , celju-b3pj26 , celju-b3pju5 , celju-b3pks4 , celju-b3pks5 , celju-b3plp7 , celju-metx , celju-b3phr4 , celju-b3pjj6 , celju-b3pcj5 , celju-b3pcu6 , celju-b3pei0

Related information

Gene_locus celju-b3pei5    celju-b3pf25    celju-b3pfb5    celju-b3pgh5    celju-b3pgz5    celju-b3ph03    celju-b3pi00    celju-b3pi89    celju-b3pj26    celju-b3pju5    celju-b3pks4    celju-b3pks5    celju-b3plp7    celju-metx    celju-b3phr4    celju-b3pjj6    celju-b3pcj5    celju-b3pcu6    celju-b3pei0

Citations formats

DeBoy RT, Mongodin EF, Fouts DE, Tailford LE, Khouri H, Emerson JB, Mohamoud Y, Watkins K, Henrissat B, Gilbert HJ, Nelson KE (2008)
Insights into plant cell wall degradation from the genome sequence of the soil bacterium Cellvibrio japonicus
Journal of Bacteriology 190 :5455

DeBoy RT, Mongodin EF, Fouts DE, Tailford LE, Khouri H, Emerson JB, Mohamoud Y, Watkins K, Henrissat B, Gilbert HJ, Nelson KE (2008)
Journal of Bacteriology 190 :5455