{PDOC51888}
{PS51888; CLIP}
{BEGIN}
***********************
* Clip domain profile *
***********************

Some biological  processes such as blood coagulation in mammals or development
and immune  responses  in  invertebrates  occur  after  the amplification of a
recognition signal  by  serine  proteases  (SP)  (see  <PDOC00124>)  that  are
organized in  cascades.  These SPs are characterized by a modular organization
comprising a C-terminal catalytic domain and one or several N-terminal domains
(CUB, EGF-like, LDL, CCP, or clip) and are activated in a very specific order.
Clip-domain SP  (see  <PDOC00124>)  is an important SP family involved in many
biological processes,  which  is  only found in invertebrates. Clip domain SPs
are the  essential  components  of extracellular signaling cascades in various
biological processes,  especially in the immune response of invertebrates. The
SPs and  SP  homologs (SPHs are SPs where the catalytic triad is mutated) that
contain one  or  more clip domains are called clip-SPs and clip-SPHs. The clip
domain, which  is found in the N-terminal position, consists of 35–55 residues
including six  strictly conserved cysteines arranged in three disulfide bonds.
The clip  and  the  catalytic  domains are connected by a linker containing at
least one  cysteine, which is involved in an interdomain disulfide bond with a
cysteine of  the  SP domain. The SPs in the clip domain family are synthesized
as zymogens  and  are  activated  by  a  specific  proteolytic  cleavage.  The
activation site  of  clip-SPs  is located between the linker and the catalytic
domain. After activation of the zymogen, the clip and SP domains remain linked
by the  interdomain  disulfide  bond.  The clip domain, named according to the
schematic form   of   a   paper  clip,  may  be  involved  in  protein-protein
interactions, regulation  of  the  protease  activity,  and even antimicrobial
activity. Although the functions of clip domains are not completely clear, the
clip domain  in  arthropods  has been demonstrated to act in the regulation of
proteinase activity,  protein-protein  interaction and bactericidal activities
[1,2,3,4,5,6].

The clip  domain adopts an alpha/beta mixed fold consisting of two helices and
an antiparallel  distorted  beta-sheet  made of four strands (see <PDB:2XXL>).
The two  helices  are  antiparallel  and are almost perpendicular to the beta-
sheet. Three disulfide bridges (C1-C5, C2-C4, C3-C6) stabilize the beta-sheet,
C3 being  the  only  cysteine  that  is not located on a beta-strand. The clip
domain is  located  opposite  the  activation loop and contacts the C-terminal
alpha-helix of the SP domain [1].

The profile we developed covers the entire clip domain.

-Sequences known to belong to this class detected by the profile: ALL.
-Other sequence(s) detected in Swiss-Prot: NONE.
-Last update: March 2019 / First entry.

[ 1] Kellenberger C., Leone P., Coquet L., Jouenne T., Reichhart J.-M.,
     Roussel A.
     "Structure-function analysis of grass clip serine protease involved in
     Drosophila  Toll pathway activation."
     J. Biol. Chem. 286:12300-12307(2011).
     PubMed=21310954; DOI=10.1074/jbc.M110.182741
[ 2] Lin C.-Y., Hu K.-Y., Ho S.-H., Song Y.-L.
     "Cloning and characterization of a shrimp clip domain serine protease
     homolog (c-SPH) as a cell adhesion molecule."
     Dev. Comp. Immunol. 30:1132-1144(2006).
     PubMed=16701896; DOI=10.1016/j.dci.2006.03.006
[ 3] Jiang H., Kanost M.R.
     "The clip-domain family of serine proteinases in arthropods."
     Insect. Biochem. Mol. Biol. 30:95-105(2000).
     PubMed=10696585
[ 4] Kanost M.R., Jiang H.
     "Clip-domain serine proteases as immune factors in insect hemolymph."
     Curr. Opin. Insect. Sci. 11:47-55(2015).
     PubMed=26688791; DOI=10.1016/j.cois.2015.09.003
[ 5] Sun W., Li Z., Wang S., Wan W., Wang S., Wen X., Zheng H., Zhang Y.,
     Li S.
     "Identification of a novel clip domain serine proteinase (Sp-cSP) and
     its roles in innate immune system of mud crab Scylla paramamosain."
     Fish. Shellfish. Immunol. 47:15-27(2015).
     PubMed=26272638; DOI=10.1016/j.fsi.2015.08.009
[ 6] Jia Z., Wang M., Zhang H., Wang X., Lv Z., Wang L., Song L.
     "Identification of a clip domain serine proteinase involved in immune
     defense in Chinese mitten crab Eriocheir sinensis."
     Fish. Shellfish. Immunol. 74:332-340(2018).
     PubMed=29305333; DOI=10.1016/j.fsi.2017.12.056

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{END}