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mreD
168
MreD is a [wiki|cell shape] determining protein, it couples the cytosolic [protein|A4C8719E06F774A6EB4D79757CC79CF89E453A54|mreB] and [protein|A4C8719E06F774A6EB4D79757CC79CF89E453A54|mreB]-like proteins to the extracellular peptidoglycan-synthesizing machinery, part of the [protein|search|Rod complex] for lateral [wiki|cell wall synthesis] and control of cell diameter
Molecular weight
19.67 kDa
function
[wiki|cell shape] determation
product
[wiki|cell shape]-determining protein
Genomic Context
This gene is a member of the following
regulons
Gene
Coordinates
2,859,317 2,859,835
Phenotypes of a mutant
the phenotype of ''mreD'' is similar to that of ''[gene|6A14D0C7FD94A838BAB3B74AA100EA678F1E4E34|mreC]
''mreD'' is essential under normal conditions [Pubmed|12682299]
Depletion of MreD leads to a progressive increase in the width and a decrease in the length of the cell and cells become lytic. In the depletion strain, lysis can be prevented and cell growth, but not cell shape, can be recovered by inculaion of Magnesium in the media. This shape defect is consistent with a role for ''mreD'' in cell wall synthesis during elongation and has a similar phenotype to other genes with roles in elongation.
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The protein
Catalyzed reaction/ biological activity
Protein family
mreD family (single member, according to UniProt)
Structure
[wiki|Localization]
trans-membrane protein [pubmed|21636744]
during logarithmic growth, [protein|231C30963AFB863424C087CB722446D319976D65|mreD] forms discrete patches that move processively along peripheral tracks perpendicular to the cell axis [pubmed|21636744]
forms transverse bands as cells enter the stationary phase [pubmed|21636744]
reports on helical structures formed by MreD [pubmed|20566861] seem to be misinterpretation of data [pubmed|21636744]
Biological materials
Mutant
A conditional mutant with an inframe deletion of ''mreD'' complemented by a xylose inducible copy at an ectopic locus (strain named 4352) is avaliable from the Errington Group.
GFP fusion
A functional N-terminal GFP fusion has been made where the fusion protein is the only copy of the gene in the cell: strain 3416 [Pubmed|16101995].
labs
[wiki|Peter Graumann], Freiburg University, Germany [http://www.biologie.uni-freiburg.de/data/bio2/graumann/index.htm homepage]
References
Reviews
Original Publications
36815589,1400224,18156271,16101995,19643765,8459776,18179421,21630458,23879732,22383849,26091431,412835,31086310 Localization
20566861,21636744,21636745