Mongodin_2005_Proc.Natl.Acad.Sci.U.S.A_102_18147

Reference

Title : The genome of Salinibacter ruber: convergence and gene exchange among hyperhalophilic bacteria and archaea - Mongodin_2005_Proc.Natl.Acad.Sci.U.S.A_102_18147
Author(s) : Mongodin EF , Nelson KE , Daugherty S , DeBoy RT , Wister J , Khouri H , Weidman J , Walsh DA , Papke RT , Sanchez Perez G , Sharma AK , Nesbo CL , Macleod D , Bapteste E , Doolittle WF , Charlebois RL , Legault B , Rodriguez-Valera F
Ref : Proc Natl Acad Sci U S A , 102 :18147 , 2005
Abstract :

Saturated thalassic brines are among the most physically demanding habitats on Earth: few microbes survive in them. Salinibacter ruber is among these organisms and has been found repeatedly in significant numbers in climax saltern crystallizer communities. The phenotype of this bacterium is remarkably similar to that of the hyperhalophilic Archaea (Haloarchaea). The genome sequence suggests that this resemblance has arisen through convergence at the physiological level (different genes producing similar overall phenotype) and the molecular level (independent mutations yielding similar sequences or structures). Several genes and gene clusters also derive by lateral transfer from (or may have been laterally transferred to) haloarchaea. S. ruber encodes four rhodopsins. One resembles bacterial proteorhodopsins and three are of the haloarchaeal type, previously uncharacterized in a bacterial genome. The impact of these modular adaptive elements on the cell biology and ecology of S. ruber is substantial, affecting salt adaptation, bioenergetics, and photobiology.

PubMedSearch : Mongodin_2005_Proc.Natl.Acad.Sci.U.S.A_102_18147
PubMedID: 16330755
Gene_locus related to this paper: salrd-q2ryx4 , salrd-q2ryz7 , salrd-q2rz15 , salrd-q2rz19 , salrd-q2rz52 , salrd-q2rz84 , salrd-q2rzy1 , salrd-q2s0e4 , salrd-q2s1i8 , salrd-q2s1v7 , salrd-q2s1v9 , salrd-q2s2d6 , salrd-q2s2y7 , salrd-q2s5a6 , salrd-q2s5k5 , salrd-q2s5u7 , salrd-q2s6g6 , salrd-q2s039 , salrd-q2s117 , salrd-q2s215 , salrd-q2s287 , salrd-q2s400 , salrd-q2s402 , salrd-q2s473 , salrd-q2s516 , salrd-q2s564

Related information

Gene_locus salrd-q2ryx4    salrd-q2ryz7    salrd-q2rz15    salrd-q2rz19    salrd-q2rz52    salrd-q2rz84    salrd-q2rzy1    salrd-q2s0e4    salrd-q2s1i8    salrd-q2s1v7    salrd-q2s1v9    salrd-q2s2d6    salrd-q2s2y7    salrd-q2s5a6    salrd-q2s5k5    salrd-q2s5u7    salrd-q2s6g6    salrd-q2s039    salrd-q2s117    salrd-q2s215    salrd-q2s287    salrd-q2s400    salrd-q2s402    salrd-q2s473    salrd-q2s516    salrd-q2s564
Gene_locus_frgt salrd-q2s0z0    salrd-q2s404

Citations formats

Mongodin EF, Nelson KE, Daugherty S, DeBoy RT, Wister J, Khouri H, Weidman J, Walsh DA, Papke RT, Sanchez Perez G, Sharma AK, Nesbo CL, Macleod D, Bapteste E, Doolittle WF, Charlebois RL, Legault B, Rodriguez-Valera F (2005)
The genome of Salinibacter ruber: convergence and gene exchange among hyperhalophilic bacteria and archaea
Proc Natl Acad Sci U S A 102 :18147

Mongodin EF, Nelson KE, Daugherty S, DeBoy RT, Wister J, Khouri H, Weidman J, Walsh DA, Papke RT, Sanchez Perez G, Sharma AK, Nesbo CL, Macleod D, Bapteste E, Doolittle WF, Charlebois RL, Legault B, Rodriguez-Valera F (2005)
Proc Natl Acad Sci U S A 102 :18147