Welsh_2008_Proc.Natl.Acad.Sci.U.S.A_105_15094

Reference

Title : The genome of Cyanothece 51142, a unicellular diazotrophic cyanobacterium important in the marine nitrogen cycle - Welsh_2008_Proc.Natl.Acad.Sci.U.S.A_105_15094
Author(s) : Welsh EA , Liberton M , Stockel J , Loh T , Elvitigala T , Wang C , Wollam A , Fulton RS , Clifton SW , Jacobs JM , Aurora R , Ghosh BK , Sherman LA , Smith RD , Wilson RK , Pakrasi HB
Ref : Proc Natl Acad Sci U S A , 105 :15094 , 2008
Abstract :

Unicellular cyanobacteria have recently been recognized for their contributions to nitrogen fixation in marine environments, a function previously thought to be filled mainly by filamentous cyanobacteria such as Trichodesmium. To begin a systems level analysis of the physiology of the unicellular N(2)-fixing microbes, we have sequenced to completion the genome of Cyanothece sp. ATCC 51142, the first such organism. Cyanothece 51142 performs oxygenic photosynthesis and nitrogen fixation, separating these two incompatible processes temporally within the same cell, while concomitantly accumulating metabolic products in inclusion bodies that are later mobilized as part of a robust diurnal cycle. The 5,460,377-bp Cyanothece 51142 genome has a unique arrangement of one large circular chromosome, four small plasmids, and one linear chromosome, the first report of a linear element in the genome of a photosynthetic bacterium. On the 429,701-bp linear chromosome is a cluster of genes for enzymes involved in pyruvate metabolism, suggesting an important role for the linear chromosome in fermentative processes. The annotation of the genome was significantly aided by simultaneous global proteomic studies of this organism. Compared with other nitrogen-fixing cyanobacteria, Cyanothece 51142 contains the largest intact contiguous cluster of nitrogen fixation-related genes. We discuss the implications of such an organization on the regulation of nitrogen fixation. The genome sequence provides important information regarding the ability of Cyanothece 51142 to accomplish metabolic compartmentalization and energy storage, as well as how a unicellular bacterium balances multiple, often incompatible, processes in a single cell.

PubMedSearch : Welsh_2008_Proc.Natl.Acad.Sci.U.S.A_105_15094
PubMedID: 18812508
Gene_locus related to this paper: 9chro-a3ivg5 , cyaa5-b1wnj9 , cyaa5-b1wp98 , cyaa5-b1wq26 , cyaa5-b1wra6 , cyaa5-b1wrh9 , cyaa5-b1wrp1 , cyaa5-b1wt43 , cyaa5-b1wuj8 , cyaa5-b1wuq3 , cyaa5-b1wvl2 , cyaa5-b1wwy9 , cyaa5-b1wxa5 , cyaa5-b1wxy0 , cyaa5-b1wyh5 , cyaa5-b1wzi4 , cyaa5-b1x044 , cyaa5-b1x046 , cyaa5-b1x242 , cyaa5-b1x271 , cyaa5-b1wzg4 , cyaa5-b1x2s9

Related information

Gene_locus 9chro-a3ivg5    cyaa5-b1wnj9    cyaa5-b1wp98    cyaa5-b1wq26    cyaa5-b1wra6    cyaa5-b1wrh9    cyaa5-b1wrp1    cyaa5-b1wt43    cyaa5-b1wuj8    cyaa5-b1wuq3    cyaa5-b1wvl2    cyaa5-b1wwy9    cyaa5-b1wxa5    cyaa5-b1wxy0    cyaa5-b1wyh5    cyaa5-b1wzi4    cyaa5-b1x044    cyaa5-b1x046    cyaa5-b1x242    cyaa5-b1x271    cyaa5-b1wzg4    cyaa5-b1x2s9

Citations formats

Welsh EA, Liberton M, Stockel J, Loh T, Elvitigala T, Wang C, Wollam A, Fulton RS, Clifton SW, Jacobs JM, Aurora R, Ghosh BK, Sherman LA, Smith RD, Wilson RK, Pakrasi HB (2008)
The genome of Cyanothece 51142, a unicellular diazotrophic cyanobacterium important in the marine nitrogen cycle
Proc Natl Acad Sci U S A 105 :15094

Welsh EA, Liberton M, Stockel J, Loh T, Elvitigala T, Wang C, Wollam A, Fulton RS, Clifton SW, Jacobs JM, Aurora R, Ghosh BK, Sherman LA, Smith RD, Wilson RK, Pakrasi HB (2008)
Proc Natl Acad Sci U S A 105 :15094