19688030

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Predicate	Object
rdf:type	pubmed:Citation
lifeskim:mentions	umls-concept:C0008018, umls-concept:C0035820, umls-concept:C0040711, umls-concept:C0521009, umls-concept:C1704259, umls-concept:C1705987, umls-concept:C1948027
pubmed:issue	8
pubmed:dateCreated	2009-8-18
pubmed:abstractText	Chemotaxis allows bacteria to colonize their environment more efficiently and to find optimal growth conditions, and is consequently under strong evolutionary selection. Theoretical and experimental analyses of bacterial chemotaxis suggested that the pathway has been evolutionarily optimized to produce robust output under conditions of such physiological perturbations as stochastic intercellular variations in protein levels while at the same time minimizing complexity and cost of protein expression. Pathway topology in Escherichia coli apparently evolved to produce an invariant output under concerted variations in protein levels, consistent with experimentally observed transcriptional coupling of chemotaxis genes. Here, we show that the pathway robustness is further enhanced through the pairwise translational coupling of adjacent genes. Computer simulations predicted that the robustness of the pathway against the uncorrelated variations in protein levels can be enhanced by a selective pairwise coupling of individual chemotaxis genes on one mRNA, with the order of genes in E. coli ranking among the best in terms of noise compensation. Translational coupling between chemotaxis genes was experimentally confirmed, and coupled expression of these genes was shown to improve chemotaxis. Bioinformatics analysis further revealed that E. coli gene order corresponds to consensus in sequenced bacterial genomes, confirming evolutionary selection for noise reduction. Since polycistronic gene organization is common in bacteria, translational coupling between adjacent genes may provide a general mechanism to enhance robustness of their signaling and metabolic networks. Moreover, coupling between expression of neighboring genes is also present in eukaryotes, and similar principles of noise reduction might thus apply to all cellular networks.
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pubmed:language	eng
pubmed:journal	http://linkedlifedata.com/resource/pubmed/journal/101183755
pubmed:citationSubset	IM
pubmed:chemical	http://linkedlifedata.com/resource/pubmed/chemical/Bacterial Proteins, http://linkedlifedata.com/resource/pubmed/chemical/Escherichia coli Proteins, http://linkedlifedata.com/resource/pubmed/chemical/Membrane Proteins, http://linkedlifedata.com/resource/pubmed/chemical/methyl-accepting chemotaxis proteins
pubmed:status	MEDLINE
pubmed:month	Aug
pubmed:issn	1545-7885
pubmed:author	pubmed-author:BenteleKajetanK, pubmed-author:KollmannMarkusM, pubmed-author:LøvdokLindaL, pubmed-author:LebiedzDirkD, pubmed-author:MüllerAnetteA, pubmed-author:PopFerencz SFS, pubmed-author:SourjikVictorV, pubmed-author:VladimirovNikitaN
pubmed:issnType	Electronic
pubmed:volume	7
pubmed:owner	NLM
pubmed:authorsComplete	Y
pubmed:pagination	e1000171
pubmed:dateRevised	2009-11-18
pubmed:meshHeading	pubmed-meshheading:19688030-Bacterial Proteins, pubmed-meshheading:19688030-Chemotaxis, pubmed-meshheading:19688030-Computational Biology, pubmed-meshheading:19688030-Computer Simulation, pubmed-meshheading:19688030-Escherichia coli K12, pubmed-meshheading:19688030-Escherichia coli Proteins, pubmed-meshheading:19688030-Gene Expression Regulation, Bacterial, pubmed-meshheading:19688030-Gene Order, pubmed-meshheading:19688030-Membrane Proteins, pubmed-meshheading:19688030-Models, Biological, pubmed-meshheading:19688030-Operon, pubmed-meshheading:19688030-Protein Biosynthesis
pubmed:year	2009
pubmed:articleTitle	Role of translational coupling in robustness of bacterial chemotaxis pathway.
pubmed:affiliation	Zentrum für Molekulare Biologie der Universität Heidelberg, DKFZ-ZMBH Alliance, Heidelberg, Germany.
pubmed:publicationType	Journal Article, Research Support, Non-U.S. Gov't