FERM domain

FERM N-terminal domain

crystal structure of the ferm domain of merlin, the neurofibromatosis 2 tumor suppressor protein.
Identifiers
Symbol FERM_N
Pfam PF09379
Pfam clan CL0072
InterPro IPR018979
SCOP 1gc7
SUPERFAMILY 1gc7
FERM central domain

crystal structure of the protein 4.1r membrane binding domain
Identifiers
Symbol FERM_M
Pfam PF00373
InterPro IPR019748
SCOP 1gc7
SUPERFAMILY 1gc7
CDD cd14473
FERM C-terminal PH-like domain

crystal structure of the radixin ferm domain complexed with the nep cytoplasmic tail
Identifiers
Symbol FERM_C
Pfam PF09380
Pfam clan CL0266
InterPro IPR018980
SCOP 1ef1
SUPERFAMILY 1ef1
CDD cd00836

In molecular biology, the FERM domain (F for 4.1 protein, E for ezrin, R for radixin and M for moesin) is a widespread protein module involved in localising proteins to the plasma membrane.[1] FERM domains are found in a number of cytoskeletal-associated proteins that associate with various proteins at the interface between the plasma membrane and the cytoskeleton. The FERM domain is located at the N terminus in the majority of proteins in which it is found.[1][2]

Structure and function

Ezrin, moesin, and radixin are highly related proteins (ERM protein family), but the other proteins in which the FERM domain is found do not share any region of similarity outside of this domain. ERM proteins are made of three domains, the FERM domain, a central helical domain and a C-terminal tail domain, which binds F-actin. The amino-acid sequence of the FERM domain is highly conserved among ERM proteins and is responsible for membrane association by direct binding to the cytoplasmic domain or tail of integral membrane proteins. ERM proteins are regulated by an intramolecular association of the FERM and C-terminal tail domains that masks their binding sites for other molecules. For cytoskeleton-membrane cross-linking, the dormant molecules becomes activated and the FERM domain attaches to the membrane by binding specific membrane proteins, while the last 34 residues of the tail bind actin filaments. Aside from binding to membranes, the activated FERM domain of ERM proteins can also bind the guanine nucleotide dissociation inhibitor of Rho GTPase (RhoDGI), which suggests that in addition to functioning as a cross-linker, ERM proteins may influence Rho signalling pathways. The crystal structure of the FERM domain reveals that it is composed of three structural modules (F1, F2, and F3) that together form a compact clover-shaped structure.[3] The N-terminal module is ubiquitin-like. The C-terminal module is a PH-like domain.

The FERM domain has also been called the amino-terminal domain, the 30kDa domain, 4.1N30, the membrane-cytoskeletal-linking domain, the ERM-like domain, the ezrin-like domain of the band 4.1 superfamily, the conserved N-terminal region, and the membrane attachment domain.[1]

Examples

FERM domain containing proteins include:

References

  1. 1 2 3 Chishti AH, Kim AC, Marfatia SM, Lutchman M, Hanspal M, Jindal H, Liu SC, Low PS, Rouleau GA, Mohandas N, Chasis JA, Conboy JG, Gascard P, Takakuwa Y, Huang SC, Benz EJ, Bretscher A, Fehon RG, Gusella JF, Ramesh V, Solomon F, Marchesi VT, Tsukita S, Tsukita S, Hoover KB (August 1998). "The FERM domain: a unique module involved in the linkage of cytoplasmic proteins to the membrane". Trends Biochem. Sci. 23 (8): 281–2. doi:10.1016/S0968-0004(98)01237-7. PMID 9757824.
  2. Pearson MA, Reczek D, Bretscher A, Karplus PA (April 2000). "Structure of the ERM protein moesin reveals the FERM domain fold masked by an extended actin binding tail domain". Cell. 101 (3): 259–70. doi:10.1016/S0092-8674(00)80836-3. PMID 10847681.
  3. Hamada K, Shimizu T, Matsui T, Tsukita S, Hakoshima T (September 2000). "Structural basis of the membrane-targeting and unmasking mechanisms of the radixin FERM domain". EMBO J. 19 (17): 4449–62. doi:10.1093/emboj/19.17.4449. PMC 302071Freely accessible. PMID 10970839.

This article incorporates text from the public domain Pfam and InterPro IPR018980

This article incorporates text from the public domain Pfam and InterPro IPR019748

This article incorporates text from the public domain Pfam and InterPro IPR018979

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