Sequence of G7JXJ7_MEDTR
EC Number:3.4.22.33
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
Hydrolysis of proteins with broad specificity for peptide bonds. Bz-Phe-Val-Arg-/-NHMec is a good synthetic substrate, but there is no action on Z-Arg-Arg-NHMec (c.f. stem bromelain)
Other sequences found for EC No. 3.4.22.33
General information:
Sequence
0 MAANNQLYHI SLALVFCLGL WAIQVTSRTL QDGSMHERHE RWMNHYGKVY KDHQEREKRF
60 KIFTENMKYI EAFNNGDNNE SYKLGINQFA DLTNEEFVAS RNKFKGHMCS SIIRTTTFKY
120 ENVSAIPSTV DWRKKGAVTP VKNQGQCGCC WAFSAVAATE GIHKLSTGKL VSLSEQELVD
180 CDTKGVDQGC EGGLMDDAFK FIIQNHGLNT EAQYPYQGVD GTCNANKASI QATTITGYED
240 VPANNEQALQ KAVANQPISV AIDASGSDFQ FYKSGVFTGS CGTELDHGVT AVGYGVSNDG
300 TKYWLVKNSW GTDWGEEGYI MMQRGVEAAE GLCGIAMQAS YPTA
Download this sequence
in fasta formatDownload all sequences for 3.4.22.33
in fasta format
in csv (Excel, OpenOffice) formatSequence related references
Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
13572032
Young N.D.,Debelle F.,Oldroyd G.E.D.,Geurts R.,Cannon S.B.,Udvardi M.K.,Benedito V.A.,Mayer K.F.X.,Gouzy J.,Schoof H.,Van de Peer Y.,Proost S.,Cook D.R.,Meyers B.C.,Spannagl M.,Cheung F.,De Mita S.,Krishnakumar V.,Gundlach H.,Zhou S.,Mudge J.,Bharti A.K.,Murray J.D.,Naoumkina M.A.,Rosen B.,Silverstein K.A.T.,Tang H.,Rombauts S.,Zhao P.X.,Zhou P.,Barbe V.,Bardou P.,Bechner M.,Bellec A.,Berger A.,Berges H.,Bidwell S.,Bisseling T.,Choisne N.,Couloux A.,Denny R.,Deshpande S.,Dai X.,Doyle J.J.,Dudez A.-M.,Farmer A.D.,Fouteau S.,Franken C.,Gibelin C.,Gish J.,Goldstein S.,Gonzalez A.J.,Green P.J.,Hallab A.,Hartog M.,Hua A.,Humphray S.J.,Jeong D.-H.,Jing Y.,Jocker A.,Kenton S.M.,Kim D.-J.,Klee K.,Lai H.,Lang C.,Lin S.,Macmil S.L.,Magdelenat G.,Matthews L.,McCorrison J.,Monaghan E.L.,Mun J.-H.,Najar F.Z.,Nicholson C.,Noirot C.,O'Bleness M.,Paule C.R.,Poulain J.,Prion F.,Qin B.,Qu C.,Retzel E.F.,Riddle C.,Sallet E.,Samain S.,Samson N.,Sanders I.,Saurat O.,Scarpelli C.,Schiex T.,Segurens B.,Severin A.J.,Sherrier D.J.,Shi R.,Sims S.,Singer S.R.,Sinharoy S.,Sterck L.,Viollet A.,Wang B.-B.,Wang K.,Wang M.,Wang X.,Warfsmann J.,Weissenbach J.,White D.D.,White J.D.,Wiley G.B.,Wincker P.,Xing Y.,Yang L.,Yao Z.,Ying F.,Zhai J.,Zhou L.,Zuber A.,Denarie J.,Dixon R.A.,May G.D.,Schwartz D.C.,Rogers J.,Quetier F.,Town C.D.,Roe B.A.
The Medicago genome provides insight into the evolution of rhizobial symbioses.
Nature
480
520-524
2011
13572033
Tang H.,Krishnakumar V.,Bidwell S.,Rosen B.,Chan A.,Zhou S.,Gentzbittel L.,Childs K.L.,Yandell M.,Gundlach H.,Mayer K.F.,Schwartz D.C.,Town C.D.
An improved genome release (version Mt4.0) for the model legume Medicago truncatula.
BMC Genomics
15
312-312
2014
13572035
Pecrix Y.,Staton S.E.,Sallet E.,Lelandais-Briere C.,Moreau S.,Carrere S.,Blein T.,Jardinaud M.F.,Latrasse D.,Zouine M.,Zahm M.,Kreplak J.,Mayjonade B.,Satge C.,Perez M.,Cauet S.,Marande W.,Chantry-Darmon C.,Lopez-Roques C.,Bouchez O.,Berard A.,Debelle F.,Munos S.,Bendahmane A.,Berges H.,Niebel A.,Buitink J.,Frugier F.,Benhamed M.,Crespi M.,Gouzy J.,Gamas P.
Whole-genome landscape of Medicago truncatula symbiotic genes.
Nat. Plants
4
1017-1025
2018
