Gonzalez_2006_Proc.Natl.Acad.Sci.U.S.A_103_3834

Reference

Title : The partitioned Rhizobium etli genome: genetic and metabolic redundancy in seven interacting replicons - Gonzalez_2006_Proc.Natl.Acad.Sci.U.S.A_103_3834
Author(s) : Gonzalez V , Santamaria RI , Bustos P , Hernandez-Gonzalez I , Medrano-Soto A , Moreno-Hagelsieb G , Janga SC , Ramirez MA , Jimenez-Jacinto V , Collado-Vides J , Davila G
Ref : Proc Natl Acad Sci U S A , 103 :3834 , 2006
Abstract :

We report the complete 6,530,228-bp genome sequence of the symbiotic nitrogen fixing bacterium Rhizobium etli. Six large plasmids comprise one-third of the total genome size. The chromosome encodes most functions necessary for cell growth, whereas few essential genes or complete metabolic pathways are located in plasmids. Chromosomal synteny is disrupted by genes related to insertion sequences, phages, plasmids, and cell-surface components. Plasmids do not show synteny, and their orthologs are mostly shared by accessory replicons of species with multipartite genomes. Some nodulation genes are predicted to be functionally related with chromosomal loci encoding for the external envelope of the bacterium. Several pieces of evidence suggest an exogenous origin for the symbiotic plasmid (p42d) and p42a. Additional putative horizontal gene transfer events might have contributed to expand the adaptive repertoire of R. etli, because they include genes involved in small molecule metabolism, transport, and transcriptional regulation. Twenty-three putative sigma factors, numerous isozymes, and paralogous families attest to the metabolic redundancy and the genomic plasticity necessary to sustain the lifestyle of R. etli in symbiosis and in the soil.

PubMedSearch : Gonzalez_2006_Proc.Natl.Acad.Sci.U.S.A_103_3834
PubMedID: 16505379
Gene_locus related to this paper: rhiec-q2jya1 , rhiec-q2jyb1 , rhiec-q2jyh1 , rhiec-q2jyi9 , rhiec-q2jyp5 , rhiec-q2jz13 , rhiec-q2jz28 , rhiec-q2jza1 , rhiec-q2jzn2 , rhiec-q2k0g7 , rhiec-q2k1i0 , rhiec-q2k1i2 , rhiec-q2k4a8 , rhiec-q2k4e5 , rhiec-q2k4j5 , rhiec-q2k4x3 , rhiec-q2k5i6 , rhiec-q2k5l4 , rhiec-q2k6p0 , rhiec-q2k7j2 , rhiec-q2k7j4 , rhiec-q2k7l8 , rhiec-q2k7y0 , rhiec-q2k8z8 , rhiec-q2k9h7 , rhiec-q2k046 , rhiec-q2k052 , rhiec-q2k107 , rhiec-q2k160 , rhiec-q2k168 , rhiec-q2k213 , rhiec-q2k218 , rhiec-q2k238 , rhiec-q2k582 , rhiec-q2k693 , rhiec-q2k741 , rhiec-q2k801 , rhiec-q2k847 , rhiec-q2ka74 , rhiec-q2kab3 , rhiec-q2kaf4 , rhiec-q2kav5 , rhiec-q2kb19 , rhiec-q2kb89 , rhiec-q2kb93 , rhiec-q2kcj7 , rhiec-q2kd15 , rhiec-q2kdc6 , rhiec-q2kdk4 , rhiec-q2kdz8 , rhiec-q2ke86 , rhiet-phbc , rhiet-YP061 , rhiec-q2k056

Related information

Gene_locus rhiec-q2jya1    rhiec-q2jyb1    rhiec-q2jyh1    rhiec-q2jyi9    rhiec-q2jyp5    rhiec-q2jz13    rhiec-q2jz28    rhiec-q2jza1    rhiec-q2jzn2    rhiec-q2k0g7    rhiec-q2k1i0    rhiec-q2k1i2    rhiec-q2k4a8    rhiec-q2k4e5    rhiec-q2k4j5    rhiec-q2k4x3    rhiec-q2k5i6    rhiec-q2k5l4    rhiec-q2k6p0    rhiec-q2k7j2    rhiec-q2k7j4    rhiec-q2k7l8    rhiec-q2k7y0    rhiec-q2k8z8    rhiec-q2k9h7    rhiec-q2k046    rhiec-q2k052    rhiec-q2k107    rhiec-q2k160    rhiec-q2k168    rhiec-q2k213    rhiec-q2k218    rhiec-q2k238    rhiec-q2k582    rhiec-q2k693    rhiec-q2k741    rhiec-q2k801    rhiec-q2k847    rhiec-q2ka74    rhiec-q2kab3    rhiec-q2kaf4    rhiec-q2kav5    rhiec-q2kb19    rhiec-q2kb89    rhiec-q2kb93    rhiec-q2kcj7    rhiec-q2kd15    rhiec-q2kdc6    rhiec-q2kdk4    rhiec-q2kdz8    rhiec-q2ke86    rhiet-phbc    rhiet-YP061    rhiec-q2k056
Gene_locus_frgt rhiec-q2kds7

Citations formats

Gonzalez V, Santamaria RI, Bustos P, Hernandez-Gonzalez I, Medrano-Soto A, Moreno-Hagelsieb G, Janga SC, Ramirez MA, Jimenez-Jacinto V, Collado-Vides J, Davila G (2006)
The partitioned Rhizobium etli genome: genetic and metabolic redundancy in seven interacting replicons
Proc Natl Acad Sci U S A 103 :3834

Gonzalez V, Santamaria RI, Bustos P, Hernandez-Gonzalez I, Medrano-Soto A, Moreno-Hagelsieb G, Janga SC, Ramirez MA, Jimenez-Jacinto V, Collado-Vides J, Davila G (2006)
Proc Natl Acad Sci U S A 103 :3834