Difference between revisions of "LutR regulon"
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= Genes in this regulon = | = Genes in this regulon = | ||
| − | + | The LutR regulon differs in wild isolates and laboratory strains: LutR in wild isolates (e.g RO-NN-1) regulates ''[[lutA]]-[[lutB]]-[[lutC]]'' and ''[[lutP]]'' <pubmed>25031425</pubmed>, while LutR in laboratory strains (e.g. PY79) seems to regulate wide range of genes <pubmed>24196425</pubmed>. The laboratory strains 168 and PY79 lacks 44 amino acids N terminal part, including a part of the HTH motif. The DNA binding specificity and therefore the in vivo regulated genes could differ due to this difference in LutR proteins <pubmed>25031425</pubmed>. | |
=== Repression === | === Repression === | ||
* ''[[lutA]]-[[lutB]]-[[lutC]]'' | * ''[[lutA]]-[[lutB]]-[[lutC]]'' | ||
Revision as of 07:37, 21 July 2014
| Regulator | |
Contents
Genes in this regulon
The LutR regulon differs in wild isolates and laboratory strains: LutR in wild isolates (e.g RO-NN-1) regulates lutA-lutB-lutC and lutP , while LutR in laboratory strains (e.g. PY79) seems to regulate wide range of genes
Öykü İrigül-Sönmez, Türkan E Köroğlu, Büşra Öztürk, Ákos T Kovács, Oscar P Kuipers, Ayten Yazgan-Karataş
In Bacillus subtilis LutR is part of the global complex regulatory network governing the adaptation to the transition from exponential growth to stationary phase.
Microbiology (Reading): 2014, 160(Pt 2);243-260
[PubMed:24196425]
[WorldCat.org]
[DOI]
(I p)
. The laboratory strains 168 and PY79 lacks 44 amino acids N terminal part, including a part of the HTH motif. The DNA binding specificity and therefore the in vivo regulated genes could differ due to this difference in LutR proteins .
Repression
Important publications on the LutR regulon
Related SubtiWiki pages
