{PDOC52049}
{PS52049; ULD}
{BEGIN}
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* UCH37-like (ULD) domain profile *
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Ubiquitin (see <PDOC00271>) is a small (8.6 kDa) highly conserved protein that
is best  known  for  its role in targeting proteins for degradation by the 26S
proteasome. Ubiquitin  has  been  implicated  in  numerous cellular processes,
including cell  cycle  control,  oncoprotein  degradation,  receptor function,
apoptosis, regulation  of  transcription,  stress  responses,  maintenance  of
chromatin structure,  DNA repair, signaling pathways, antigen presentation and
the degradation  of  abnormal  proteins.  Ubiquitination works as a reversible
post-translational modification,    like   phosphorylation.   Deubiquitinating
enzymes, or  DUBs,  can  hydrolytically remove ubiquitin from protein adducts,
thereby opposing  the  action  of  ubiquitin  conjugating  machinery. The DUBs
family consists  of  five  distinct subfamilies. Four sub-families are papain-
like cysteine  proteases:  the  ubiquitin  C-terminal  hydrolases  (UCHs), the
ubiquitin-specific proteases  (USPs/UBPs) (see <PDOC00750>), the ovarian tumor
(OTU) domain   (see   <PDOC50802>),   and   the  Josephin  domain  (MJD)  (see
<PDOC50957>) DUBs.   The  fifth  family  is  a  collection  of  zinc-dependent
metalloproteases, for  example  the JAB1.MPN/Mov34 metalloenzyme (JAMM) domain
protease (see <PDOC50249>) [1,2,3,4].

The UCH  DUB  subfamily  includes  UCH-L1,  UCH-L3,  UCHL5 (UCH37), and BRCA1-
associated protein-1   (BAP1).  UCHs  are  cysteine  proteases  that  share  a
canonical catalytic  domain  (see  <PDOC52048>),  the  minimal  module  for Ub
binding and   hydrolysis.  BAP1  and  UCH-L5  also  have  C-terminal  domains,
including a  UCH37-like  domain  (ULD),  responsible  for  binding interaction
partners. The  ULD is important for regulation of the DUB activity of BAP1 and
UCH-L5 by  binding proteins with a deubiquitinase adaptor (DEUBAD) domain (see
<PDOC51916>). The  ULDs  adopt  a wide range of positions relative to the UCH.
Activator and inhibitor may lock this domain in particular conformations. As a
consequence of  the  ULD's  proximity  to  the ubiquitin docking site, some of
these conformations  are  sterically incompatible with ubiquitin binding while
others allow efficient ubiquitin binding [5,6,7].

The ULD  has  two alpha helices and provides the main binding platform for the
DEUBAD (see <PDB:6HGC>) [6].

Some proteins known to contain an ULD are listed below:

 - Mamalian UCH-L5/UCH37.
 - Mamalian BRCA1 (breast cancer early-onset 1)-associated protein 1 (BAP1), a
   deubiquitinating enzyme  that  plays  a  key role in chromatin by mediating
   deubiquitination of histone H2A and HCFC1.
 - Insect Calypso, the homologue of BAP1, binds to the polycomb repressor
   DUB complex. It can remove monoUb (mono-ubiquitin) from histone H2A.
 - Yeast YUH1.

The profile we developed covers the entire ULD.

-Sequences known to belong to this class detected by the profile: ALL.
-Other sequence(s) detected in Swiss-Prot: NONE.
-Last update: September 2024 / First entry.

[ 1] Johnston S.C., Larsen C.N., Cook W.J., Wilkinson K.D., Hill C.P.
     "Crystal structure of a deubiquitinating enzyme (human UCH-L3) at 1.8
     A  resolution."
     EMBO. J. 16:3787-3796(1997).
     PubMed=9233788; DOI=10.1093/emboj/16.13.3787
[ 2] Johnston S.C., Riddle S.M., Cohen R.E., Hill C.P.
     "Structural basis for the specificity of ubiquitin C-terminal
     hydrolases."
     EMBO. J. 18:3877-3887(1999).
     PubMed=10406793; DOI=10.1093/emboj/18.14.3877
[ 3] Nishio K., Kim S.-W., Kawai K., Mizushima T., Yamane T., Hamazaki J.,
     Murata S., Tanaka K., Morimoto Y.
     "Crystal structure of the de-ubiquitinating enzyme UCH37 (human
     UCH-L5) catalytic  domain."
     Biochem. Biophys. Res. Commun. 390:855-860(2009).
     PubMed=19836345; DOI=10.1016/j.bbrc.2009.10.062
[ 4] Morrow M.E., Kim M.-I., Ronau J.A., Sheedlo M.J., White R.R.,
     Chaney J., Paul L.N., Lill M.A., Artavanis-Tsakonas K., Das C.
     "Stabilization of an unusual salt bridge in ubiquitin by the extra
     C-terminal  domain of the proteasome-associated deubiquitinase UCH37
     as a mechanism of its  exo specificity."
     Biochemistry 52:3564-3578(2013).
     PubMed=23617878; DOI=10.1021/bi4003106
[ 5] Sanchez-Pulido L., Kong L., Ponting C.P.
     "A common ancestry for BAP1 and Uch37 regulators."
     Bioinformatics 28:1953-1956(2012).
     PubMed=22645167; DOI=10.1093/bioinformatics/bts319
[ 6] De I., Chittock E.C., Groetsch H., Miller T.C.R., McCarthy A.A.,
     Mueller C.W.
     "Structural Basis for the Activation of the Deubiquitinase Calypso by
     the Polycomb  Protein ASX."
     Structure 27:528-536.e4(2019).
     PubMed=30639226; DOI=10.1016/j.str.2018.11.013
[ 7] Sahtoe D.D., van Dijk W.J., El Oualid F., Ekkebus R., Ovaa H.,
     Sixma T.K.
     "Mechanism of UCH-L5 activation and inhibition by DEUBAD domains in
     RPN13 and  INO80G."
     Mol. Cell. 57:887-900(2015).
     PubMed=25702870; DOI=10.1016/j.molcel.2014.12.039

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