Shih_2013_Proc.Natl.Acad.Sci.U.S.A_110_1053

Reference

Title : Improving the coverage of the cyanobacterial phylum using diversity-driven genome sequencing - Shih_2013_Proc.Natl.Acad.Sci.U.S.A_110_1053
Author(s) : Shih PM , Wu D , Latifi A , Axen SD , Fewer DP , Talla E , Calteau A , Cai F , Tandeau de Marsac N , Rippka R , Herdman M , Sivonen K , Coursin T , Laurent T , Goodwin L , Nolan M , Davenport KW , Han CS , Rubin EM , Eisen JA , Woyke T , Gugger M , Kerfeld CA
Ref : Proc Natl Acad Sci U S A , 110 :1053 , 2013
Abstract :

The cyanobacterial phylum encompasses oxygenic photosynthetic prokaryotes of a great breadth of morphologies and ecologies; they play key roles in global carbon and nitrogen cycles. The chloroplasts of all photosynthetic eukaryotes can trace their ancestry to cyanobacteria. Cyanobacteria also attract considerable interest as platforms for "green" biotechnology and biofuels. To explore the molecular basis of their different phenotypes and biochemical capabilities, we sequenced the genomes of 54 phylogenetically and phenotypically diverse cyanobacterial strains. Comparison of cyanobacterial genomes reveals the molecular basis for many aspects of cyanobacterial ecophysiological diversity, as well as the convergence of complex morphologies without the acquisition of novel proteins. This phylum-wide study highlights the benefits of diversity-driven genome sequencing, identifying more than 21,000 cyanobacterial proteins with no detectable similarity to known proteins, and foregrounds the diversity of light-harvesting proteins and gene clusters for secondary metabolite biosynthesis. Additionally, our results provide insight into the distribution of genes of cyanobacterial origin in eukaryotic nuclear genomes. Moreover, this study doubles both the amount and the phylogenetic diversity of cyanobacterial genome sequence data. Given the exponentially growing number of sequenced genomes, this diversity-driven study demonstrates the perspective gained by comparing disparate yet related genomes in a phylum-wide context and the insights that are gained from it.

PubMedSearch : Shih_2013_Proc.Natl.Acad.Sci.U.S.A_110_1053
PubMedID: 23277585
Gene_locus related to this paper: 9cyan-k9et81 , cyagp-k9p8h6 , noss7-k9r280 , cyaap-k9z9m7 , synp3-k9ryw0 , anacc-k9zr49 , 9chro-l8lle9 , 9cyan-l8m3q8 , 9cyan-l8mv15 , stac7-k9xpe1 , 9cyan-k9f0z6 , synp3-k9rq00 , noss7-k9qm01 , stac7-k9xsv0

Related information

Gene_locus 9cyan-k9et81    cyagp-k9p8h6    noss7-k9r280    cyaap-k9z9m7    synp3-k9ryw0    anacc-k9zr49    9chro-l8lle9    9cyan-l8m3q8    9cyan-l8mv15    stac7-k9xpe1    9cyan-k9f0z6    synp3-k9rq00    noss7-k9qm01    stac7-k9xsv0

Citations formats

Shih PM, Wu D, Latifi A, Axen SD, Fewer DP, Talla E, Calteau A, Cai F, Tandeau de Marsac N, Rippka R, Herdman M, Sivonen K, Coursin T, Laurent T, Goodwin L, Nolan M, Davenport KW, Han CS, Rubin EM, Eisen JA, Woyke T, Gugger M, Kerfeld CA (2013)
Improving the coverage of the cyanobacterial phylum using diversity-driven genome sequencing
Proc Natl Acad Sci U S A 110 :1053

Shih PM, Wu D, Latifi A, Axen SD, Fewer DP, Talla E, Calteau A, Cai F, Tandeau de Marsac N, Rippka R, Herdman M, Sivonen K, Coursin T, Laurent T, Goodwin L, Nolan M, Davenport KW, Han CS, Rubin EM, Eisen JA, Woyke T, Gugger M, Kerfeld CA (2013)
Proc Natl Acad Sci U S A 110 :1053