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MreB

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Protein family
Cell shape determining protein MreB/Mbl
MreB (PDB: 1jce​) in cartoon representation. The fold of the protein is similar to its eukaryotic counterpart actin.
Identifiers
SymbolMreB
PfamPF06723
InterProIPR004753
CDDcd10225
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

MreB is a protein found in bacteria that has been identified as a homologue of actin, as indicated by similarities in tertiary structure and conservation of active site peptide sequence. The conservation of protein structure suggests the common ancestry of the cytoskeletal elements formed by actin, found in eukaryotes, and MreB, found in prokaryotes. Indeed, recent studies have found that MreB proteins polymerize to form filaments that are similar to actin microfilaments. It has been shown to form multilayer sheets comprising diagonally interwoven filaments in the presence of ATP or GTP.

MreB along with MreC and MreD are named after the mre operon (murein formation gene cluster E) to which they all belong.

Function

MreB controls the width of rod-shaped bacteria, such as Escherichia coli. A mutant E. coli that creates defective MreB proteins will be spherical instead of rod-like. Also, most bacteria that are naturally spherical do not have the gene encoding MreB. Members of the Chlamydiota are a notable exception, as these bacteria utilize the protein for localized septal peptidoglycan synthesis. Prokaryotes carrying the mreB gene can also be helical in shape. MreB has long been thought to form a helical filament underneath the cytoplasmic membrane, however, this model has been brought into question by three recent publications showing that filaments cannot be seen by electron cryotomography and that GFP-MreB can be seen as patches moving around the cell circumference. It has been shown to interact with several proteins that are proven to be involved in length growth (for instance PBP2). Therefore, it probably directs the synthesis and insertion of new peptidoglycan building units into the existing peptidoglycan layer to allow length growth of the bacteria.

References

  1. Gunning PW, Ghoshdastider U, Whitaker S, Popp D, Robinson RC (June 2015). "The evolution of compositionally and functionally distinct actin filaments". Journal of Cell Science. 128 (11): 2009–2019. doi:10.1242/jcs.165563. PMID 25788699.
  2. Popp D, Narita A, Maeda K, Fujisawa T, Ghoshdastider U, Iwasa M, et al. (May 2010). "Filament structure, organization, and dynamics in MreB sheets". The Journal of Biological Chemistry. 285 (21): 15858–15865. doi:10.1074/jbc.M109.095901. PMC 2871453. PMID 20223832.
  3. Löwe, Jan; Amos, Linda A. (2017-05-11). Prokaryotic Cytoskeletons: Filamentous Protein Polymers Active in the Cytoplasm of Bacterial and Archaeal Cells. Springer. p. 255. ISBN 978-3-319-53047-5.
  4. Ouellette SP, Karimova G, Subtil A, Ladant D (July 2012). "Chlamydia co-opts the rod shape-determining proteins MreB and Pbp2 for cell division". Molecular Microbiology. 85 (1): 164–178. doi:10.1111/j.1365-2958.2012.08100.x. PMID 22624979. S2CID 5568586.
  5. Liechti G, Kuru E, Packiam M, Hsu YP, Tekkam S, Hall E, et al. (May 2016). "Pathogenic Chlamydia Lack a Classical Sacculus but Synthesize a Narrow, Mid-cell Peptidoglycan Ring, Regulated by MreB, for Cell Division". PLOS Pathogens. 12 (5): e1005590. doi:10.1371/journal.ppat.1005590. PMC 4856321. PMID 27144308.

Further reading

Proteins of the cytoskeleton
Human
Microfilaments
and ABPs
Myofilament
Actins
Myosins
Other
Other
Intermediate
filaments
Type 1/2
(Keratin,
Cytokeratin)
Epithelial keratins
(soft alpha-keratins)
Hair keratins
(hard alpha-keratins)
Ungrouped alpha
Not alpha
Type 3
Type 4
Type 5
Microtubules
and MAPs
Tubulins
MAPs
Kinesins
Dyneins
Microtubule organising proteins
Microtubule severing proteins
Other
Catenins
Membrane
Other
Nonhuman
See also: cytoskeletal defects
Categories: