The FYVE domain has been named after the first letter of the first four
proteins in which it was found (Fab1, YOTB/ZK632.12, Vac1, and EEA1). It is a
cysteine-rich domain of about 70 amino acids that coordinates two Zn2+ ions.
The FYVE domain is found in several eukaryotic non-nuclear proteins involved
in distinct cellular functions, including vesicle transport, signal
transduction and cytoskeletal regulation. FYVE domains are generally found in
one copy but two copies can also be found. Positions of FYVE domains in
different proteins vary from the extreme N-terminus to the extreme C-terminus.
FYVE domains are found associated with other domains such as IQ, PH, VHS, RCC, SH2, RING
finger or C2H2 zinc finger
[5][3][6]. The
function of the FYVE domain is to target signal-transducing proteins to cell
membranes through binding to the membrane lipid phosphatidylinositol-3-
phosphate (PtdIns(3)P) with high specificity
[2][1].
The FYVE domain has eight conserved cysteines, which coordinate the two Zn2+
ions in a 'cross-braced' topology: the first Zn2+ ion is coordinated by the
first and third pairs of cysteines, and the second ion is coordinated by the
second and fourth pairs. In addition, the FYVE domain contains several other
conserved residues, most prominently a basic R-[RK]-H-H-C-R-x-C-G motif
surrounding the third and fourth cysteine residues. Several hydrophobic amino
acid positions are also conserved among the FYVE fingers, as is an isolated
arginine residue towards the C-terminus
[3][7]. Resolution of the crystal and
solution structures of the FYVE domain has shown that it consists of two
double-stranded antiparallel beta-sheets, which are stabilized by the two zinc
ions and a C-terminal alpha-helix. The conserved R-[RK]-H-H-C-R-x-C-G motif
and the conserved arginine residue form a basic pocket involved in the
inositol head group binding
[7][4].
The FYVE-related domain is found in several proteins involved in regulated
secretion, such as Rabphilin-3A and Rim. Although the structure of the FYVE-
related domain is closely related to the one of the genuine FYVE domain, the
FYVE-related domain lacks several of the conserved feature of the FYVE domain,
like the basic R-[RK]-H-H-C-R-x-C-G motif, and it does not bind to PtdIns(3)P
[3][2][7].
Some proteins known to contain a FYVE or a FYVE-related domain are listed
below:
- Animal Hrs, an hepatocyte growth factor-regulated tyrosine kinase
substrate. Hrs is localised to early endosomes in a manner that requires
phosphoinositide 3-kinase (PI 3-kinase) activity.
- Animal Smad anchor for receptor activation (SARA), an important mediator of
transforming growth factor beta (TGF-beta) signalling. It is responsible
for the recruitment of Smad2 and Smad3 to the TGF-beta receptor upon
receptor stimulation.
- Mammalian Fgd1, a protein implicated in cytoskeletal regulation. It acts as
a guanine nucleotide exchange factor for Cdc42, a Rho-family GTPase that
controls the submembraneous actin cytoskeleton. In human, mutations in the
gene coding for the Fgd1 protein are associated with faciogenital
dysplasia, an X-linked autosomal disease primarily associated with
skeletal, facial and genital anomalies.
- Mammalian early endosome antigen 1 (EEA1), which fuses endosome and relies
on its FYVE domain for specific localization to PtdIns(3)P-enriched
membranes and for recruiting regulatory Rab5 and syntaxin proteins.
- Human Rabenosyn-5, a rab5 effector that is localized to early endosomes and
required for endosome fusion.
- Caenorhabditis elegans hypothetical protein ZK632.12.
- Yeast VAC1 protein. It is required for vacuole segregation and vacuole
protein sorting. Possibly part of a complex which tethers the vacuole
membrane to microtubules, either directly or via kinesin or dynein-like
motor proteins. Probably functions in several interorganelle traffic
pathways.
- Yeast vacuolar protein sorting-associated protein VPS27. It is required for
membrane traffic to the vacuole.
- Yeast FAB1 protein, a PI 5-kinase that converts PtdIns(3)-P into
PtdIns(3,5)P2. It is implicated in the formation of multivesicular
endosome.
- Animal rabphilin-3A, an effector of the Rab3A GTPase. Activated Rab3A
reversibly recruits rabphilin-3A to synaptic vesicles.
- Mammalian proteins of the Rim family. They are effectors of the Rab3A
GTPase. Rim proteins have sequence similarity to rabphilin-3A but localize
to the active zone of the presynaptic plasma membrane instead of to
synaptic vesicles.
The profile we developed covers the entire FYVE domain.