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InterPro: IPR011012 Longin-like

Protein matches Help

UniProtKB

Matches:

3128 proteins

Overview:	sorted by AC,	sorted by name,	of known structure,	proteins with splice variants
Detailed:	sorted by AC,	sorted by name,	of known structure	proteins with splice variants
Table:	For all matching proteins,	of known structure
Architectures
Accession List
Matches in BioMart

Accession

IPR011012 Longin-like

Type

Domain

Signatures Help

Database	ID	Name	Proteins
SuperFamily	SSF64356	Longin_like	3128
Signatures in BioMart

InterPro Relationships Help

Children

IPR010908 Longin
IPR015284 Signal recognition particle receptor, alpha subunit homologue, N-terminal

Found in

IPR000804 Clathrin adaptor, sigma subunit/coatomer, zeta subunit
IPR001392 Clathrin adaptor, mu subunit
IPR006722 Sedlin
IPR007233 Sybindin-like protein
IPR015604 Clathrin adaptor AP1, sigma subunit
IPR015629 Clathrin coat associated protein AP-50
IPR016635 Adaptor protein complex, sigma subunit

GO Term annotation Help

Process

GO:0006810 transport

InterPro annotation

Entry Details in BioMart

Abstract

VAMPs (and its homologue synaptobrevins) define a group of SNARE proteins that contain a C-terminal coiled-coil/SNARE motif, in combination with variable N-terminal domains that are used to classify VAMPs: those containing longin N-terminal domains (~150 aa) are referred to as longins, while those with shorter N-termini are referred to as brevins [1]. Longins are the only type of VAMP protein found in all eukaryotes, suggesting that their longin domain is essential. The longin domain is thought to exert a regulatory function. Longin domains have been shown to share the same structural fold, a profilin-like globular domain consisting of a five-stranded antiparallel beta-sheet that is sandwiched by an alpha-helix on one side, and two alpha-helices on the other (beta(2)-alpha-beta(3)-alpha(2)).

Other families have been shown to contain domains that structurally resemble the VAMP longin domain. An example is the eukaryotic conserved protein, SEDL, which is a component of the transport protein particle (TRAPP), critically involved in endoplasmic reticulum-to-Golgi vesicle transport; mutations in the SEDL gene are associated with an X-linked skeletal disorder, spondyloepiphyseal dysplasia tarda [2]. Another example is the assembly domain of clathrin coat proteins, such as Mu2 adaptin (AP50) and Sigma2 adaptin (AP17), which structurally resemble the longin domain. AP50 and AP17 are two of the proteins that make up the core of AP2, a complex that functions in clathrin-mediated endocytosis [3].

Structural links Help

PDB - click here

SCOP: b.2.7.1 , d.110.4.1 , d.110.4.3 , d.110.4.4 , i.23.1.1

CATH: 3.30.450.50 , 3.30.450.60 , 3.30.450.70

Taxonomic coverage Help

Overlapping InterPro entries Help

IPR011012

Numbers of overlapping proteins

Average numbers of overlapping amino acids

Example proteins Help

O08547 Vesicle-trafficking protein SEC22b

O17901 Probable coatomer subunit zeta

O23429 Vesicle-associated membrane protein 724

O75396 Vesicle-trafficking protein SEC22b

P32916 Signal recognition particle receptor subunit alpha homolog

More proteins

Example Proteins Key

InterPro entry accession number/name and structure databases		Colour code
IPR000897	Signal recognition particle, SRP54 subunit, GTPase
IPR013822	Signal recognition particle, SRP54 subunit, helical bundle
IPR003593	ATPase, AAA+ type, core
IPR000804	Clathrin adaptor, sigma subunit/coatomer, zeta subunit
IPR011012	Longin-like
IPR010908	Longin
IPR015284	Signal recognition particle receptor, alpha subunit homologue, N-terminal
IPR001388	Synaptobrevin
	PDB Chain
	ModBase
	CATH Domain
	SWISS-MODEL
	SCOP Domain

Publications Open in usermanual
1.	Dietrich LE, Boeddinghaus C, LaGrassa TJ, Ungermann C. Control of eukaryotic membrane fusion by N-terminal domains of SNARE proteins. Biochim. Biophys. Acta 1641 111-9 2003 [PubMed: 12914952] http://dx.doi.org/10.1016/S0167-4889(03)00094-6
2.	Jang SB, Kim YG, Cho YS, Suh PG, Kim KH, Oh BH. Crystal structure of SEDL and its implications for a genetic disease spondyloepiphyseal dysplasia tarda. J. Biol. Chem. 277 49863-9 2002 [PubMed: 12361953] http://dx.doi.org/10.1074/jbc.M207436200
3.	Collins BM, McCoy AJ, Kent HM, Evans PR, Owen DJ. Molecular architecture and functional model of the endocytic AP2 complex. Cell 109 523-35 2002 [PubMed: 12086608] http://dx.doi.org/10.1016/S0092-8674(02)00735-3

Additional Reading Open in usermanual
	Kittler JT, Chen G, Kukhtina V, Vahedi-Faridi A, Gu Z, Tretter V, Smith KR, McAinsh K, Arancibia-Carcamo IL, Saenger W, Haucke V, Yan Z, Moss SJ. Regulation of synaptic inhibition by phospho-dependent binding of the AP2 complex to a YECL motif in the GABAA receptor gamma2 subunit. Proc. Natl. Acad. Sci. U.S.A. 105 2008 3616-21 [PubMed: 18305175] http://dx.doi.org/10.1073/pnas.0707920105
	Heldwein EE, Macia E, Wang J, Yin HL, Kirchhausen T, Harrison SC. Crystal structure of the clathrin adaptor protein 1 core. Proc. Natl. Acad. Sci. U.S.A. 101 2004 14108-13 [PubMed: 15377783] http://dx.doi.org/10.1073/pnas.0406102101
	Kim YG, Raunser S, Munger C, Wagner J, Song YL, Cygler M, Walz T, Oh BH, Sacher M. The architecture of the multisubunit TRAPP I complex suggests a model for vesicle tethering. Cell 127 2006 817-30 [PubMed: 17110339] http://dx.doi.org/10.1016/j.cell.2006.09.029
	Pylypenko O, Schonichen A, Ludwig D, Ungermann C, Goody RS, Rak A, Geyer M. Farnesylation of the SNARE protein Ykt6 increases its stability and helical folding. J. Mol. Biol. 377 2008 1334-45 [PubMed: 18329045] http://dx.doi.org/10.1016/j.jmb.2008.01.099
	Royle SJ, Qureshi OS, Bobanovic LK, Evans PR, Owen DJ, Murrell-Lagnado RD. Non-canonical YXXGPhi endocytic motifs: recognition by AP2 and preferential utilization in P2X4 receptors. J. Cell. Sci. 118 2005 3073-80 [PubMed: 15985462] http://dx.doi.org/10.1242/jcs.02451

InterPro 23.1