two-component response regulator, regulation of malate uptake
function
regulation of malate uptake
product
two-component response regulator
Genomic Context
categories
[category|SW 2|Metabolism] → [category|SW 2.2|Carbon metabolism] → [category|SW 2.2.2|Utilization of specific carbon sources] → [category|SW 2.2.2.1|Utilization of organic acids][category|SW 3|Information processing] → [category|SW 3.4|Regulation of gene expression] → [category|SW 3.4.2|Transcription factors and their control] → [category|SW 3.4.2.1|Two-component system response regulators][category|SW 6|Groups of genes] → [category|SW 6.4|Phosphoproteins] → [category|SW 6.4.2|Phosphorylation on an Asp residue]Gene
Coordinates
3,238,751 3,239,458
Phenotypes of a mutant
unable to use malate as the single carbon source [Pubmed|12949159]The protein
Modification
phosphorylated by [protein|6FBBC2BDEAD72BEA0D9EA56668FDA5A3BE6F694E|MalK] on an Asp residueEffectors of protein activity
phosphorylation likely affects DNA-binding activity[SW|Localization]
cytoplasm (according to Swiss-Prot)Expression and Regulation
Operons
genes
[gene|689CF50691E77E5A40437EF1E6B5083AF7CFCE08|malR]
description
[Pubmed|9274030]
view in new tabgenes
[gene|6FBBC2BDEAD72BEA0D9EA56668FDA5A3BE6F694E|malK]-[gene|689CF50691E77E5A40437EF1E6B5083AF7CFCE08|malR]
description
[Pubmed|22383849]
view in new tabBiological materials
Mutant
MGNA-A635 (yufM::erm), available at the [https://shigen.nig.ac.jp/bsub/resource/strainGeneDisrupted/detail/635 NBRP B. subtilis, Japan]GP1301 (cat), available in [SW|Stlke] labBKE31530 ([gene|689CF50691E77E5A40437EF1E6B5083AF7CFCE08|malR]::erm trpC2) available at [http://www.bgsc.org/getdetail.php?bgscid=BKE31530 BGSC], [Pubmed|28189581], upstream reverse: _UP1_CATTAATCATGATTTTCCTC, downstream forward: _UP4_TAAGAAAACGCACTGCTTGCBKK31530 ([gene|689CF50691E77E5A40437EF1E6B5083AF7CFCE08|malR]::kan trpC2) available at [http://www.bgsc.org/getdetail.php?bgscid=BKK31530 BGSC], [Pubmed|28189581], upstream reverse: _UP1_CATTAATCATGATTTTCCTC, downstream forward: _UP4_TAAGAAAACGCACTGCTTGClabs
[SW|Stephane Aymerich], Microbiology and Molecular Genetics, INRA Paris-Grignon, FranceReferences
10094672,12949160,12949159,9274030