IMD_domain

IMD domain

IMD domain

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In molecular biology, the IMD domain (IRSp53 and MIM (missing in metastases) homology Domain) is a BAR-like domain of approximately 250 amino acids found at the N-terminus in the insulin receptor tyrosine kinase substrate p53 (IRSp53/BAIAP2) and in the evolutionarily related IRSp53/MIM (MTSS1) family. In IRSp53, a ubiquitous regulator of the actin cytoskeleton, the IMD domain acts as conserved F-actin bundling domain involved in filopodium formation. Filopodium-inducing IMD activity is regulated by Cdc42 and Rac1 (Rho-family GTPases) and is SH3-independent.[1][2][3] The IRSp53/MIM family is a novel F-actin bundling protein family that includes invertebrate relatives:

Quick Facts IRSp53/MIM homology domain, Identifiers ...

The vertebrate IRSp53/MIM family is divided into two major groups: the IRSp53 subfamily and the MIM/ABBA subfamily. The putative invertebrate homologues are positioned between them. The IRSp53 subfamily members contain an SH3 domain, and the MIM/ABBA subfamily proteins contain a WH2 (WASP-homology 2) domain. The vertebrate SH3-containing subfamily is further divided into three groups according to the presence or absence of the WWB and the half-CRIB motif. The IMD domain can bind to and bundle actin filaments, bind to membranes and interact with the small GTPase Rac.[1][5]

The IMD domain folds as a coiled coil of three extended alpha-helices and a shorter C-terminal helix. Helix 4 packs tightly against the other three helices, and thus represents an integral part of the domain. The fold of the IMD domain closely resembles that of the BAR (Bin-Amphiphysin-RVS) domain, a functional module serving both as a sensor and inducer of membrane curvature.[3] The IMD domain is also known as the I-BAR domain because of its inverse curvature of the membrane binding surface compared to that of the BAR domain. The WH2 domain performs a scaffolding function.[6]

References

  1. [1]
    Yamagishi A, Masuda M, Ohki T, Onishi H, Mochizuki N (April 2004). "A novel actin bundling/filopodium-forming domain conserved in insulin receptor tyrosine kinase substrate p53 and missing in metastasis protein". J. Biol. Chem. 279 (15): 14929–36. doi:10.1074/jbc.M309408200. PMID 14752106.
  2. [2]
    Millard TH, Dawson J, Machesky LM (May 2007). "Characterisation of IRTKS, a novel IRSp53/MIM family actin regulator with distinct filament bundling properties". J. Cell Sci. 120 (Pt 9): 1663–72. doi:10.1242/jcs.001776. PMID 17430976. S2CID 39973979.
  3. [3]
    Millard TH, Bompard G, Heung MY, Dafforn TR, Scott DJ, Machesky LM, Fütterer K (January 2005). "Structural basis of filopodia formation induced by the IRSp53/MIM homology domain of human IRSp53". EMBO J. 24 (2): 240–50. doi:10.1038/sj.emboj.7600535. PMC 545821. PMID 15635447.
  4. [4]
    Koh JT, Kook H, Kee HJ, Seo YW, Jeong BC, Lee JH, Kim MY, Yoon KC, Jung S, Kim KK (March 2004). "Extracellular fragment of brain-specific angiogenesis inhibitor 1 suppresses endothelial cell proliferation by blocking alphavbeta5 integrin". Exp. Cell Res. 294 (1): 172–84. doi:10.1016/j.yexcr.2003.11.008. PMID 14980512.
  5. [5]
    Machesky LM, Johnston SA (June 2007). "MIM: a multifunctional scaffold protein". J. Mol. Med. 85 (6): 569–76. doi:10.1007/s00109-007-0207-0. PMID 17497115. S2CID 32096007.
  6. [6]
    Lee SH, Kerff F, Chereau D, Ferron F, Klug A, Dominguez R (February 2007). "Structural basis for the actin-binding function of missing-in-metastasis". Structure. 15 (2): 145–55. doi:10.1016/j.str.2006.12.005. PMC 1853380. PMID 17292833.
This article incorporates text from the public domain Pfam and InterPro: IPR013606
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