Sequence of C83B1_ARATH
EC Number:1.14.14.45
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
(E)-indol-3-ylacetaldehyde oxime + [reduced NADPH-hemoprotein reductase] + glutathione + O2 = S-[(E)-N-hydroxy(indol-3-yl)acetimidoyl]-L-glutathione + [oxidized NADPH-hemoprotein reductase] + 2 H2O
Other sequences found for EC No. 1.14.14.45
General information:
Sequence
0 MDLLLIIAGL VAAAAFFFLR STTKKSLRLP PGPKGLPIIG NLHQMEKFNP QHFLFRLSKL
60 YGPIFTMKIG GRRLAVISSA ELAKELLKTQ DLNFTARPLL KGQQTMSYQG RELGFGQYTA
120 YYREMRKMCM VNLFSPNRVA SFRPVREEEC QRMMDKIYKA ADQSGTVDLS ELLLSFTNCV
180 VCRQAFGKRY NEYGTEMKRF IDILYETQAL LGTLFFSDLF PYFGFLDNLT GLSARLKKAF
240 KELDTYLQEL LDETLDPNRP KQETESFIDL LMQIYKDQPF SIKFTHENVK AMILDIVVPG
300 TDTAAAVVVW AMTYLIKYPE AMKKAQDEVR SVIGDKGYVS EEDIPNLPYL KAVIKESLRL
360 EPVIPILLHR ETIADAKIGG YDIPAKTIIQ VNAWAVSRDT AAWGDNPNEF IPERFMNEHK
420 GVDFKGQDFE LLPFGSGRRM CPAMHLGIAM VEIPFANLLY KFDWSLPKGI KPEDIKMDVM
480 TGLAMHKKEH LVLAPTKHI
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Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
521897
Mizutani M.,Ward E.,Ohta D.
Cytochrome P450 superfamily in Arabidopsis thaliana: isolation of cDNAs, differential expression, and RFLP mapping of multiple cytochromes P450.
Plant Mol. Biol.
37
39-52
1998
521898
Mayer K.F.X.,Schueller C.,Wambutt R.,Murphy G.,Volckaert G.,Pohl T.,Duesterhoeft A.,Stiekema W.,Entian K.-D.,Terryn N.,Harris B.,Ansorge W.,Brandt P.,Grivell L.A.,Rieger M.,Weichselgartner M.,de Simone V.,Obermaier B.,Mache R.,Mueller M.,Kreis M.,Delseny M.,Puigdomenech P.,Watson M.,Schmidtheini T.,Reichert B.,Portetelle D.,Perez-Alonso M.,Boutry M.,Bancroft I.,Vos P.,Hoheisel J.,Zimmermann W.,Wedler H.,Ridley P.,Langham S.-A.,McCullagh B.,Bilham L.,Robben J.,van der Schueren J.,Grymonprez B.,Chuang Y.-J.,Vandenbussche F.,Braeken M.,Weltjens I.,Voet M.,Bastiaens I.,Aert R.,Defoor E.,Weitzenegger T.,Bothe G.,Ramsperger U.,Hilbert H.,Braun M.,Holzer E.,Brandt A.,Peters S.,van Staveren M.,Dirkse W.,Mooijman P.,Klein Lankhorst R.,Rose M.,Hauf J.,Koetter P.,Berneiser S.,Hempel S.,Feldpausch M.,Lamberth S.,Van den Daele H.,De Keyser A.,Buysshaert C.,Gielen J.,Villarroel R.,De Clercq R.,van Montagu M.,Rogers J.,Cronin A.,Quail M.A.,Bray-Allen S.,Clark L.,Doggett J.,Hall S.,Kay M.,Lennard N.,McLay K.,Mayes R.,Pettett A.,Rajandream M.A.,Lyne M.,Benes V.,Rechmann S.,Borkova D.,Bloecker H.,Scharfe M.,Grimm M.,Loehnert T.-H.,Dose S.,de Haan M.,Maarse A.C.,Schaefer M.,Mueller-Auer S.,Gabel C.,Fuchs M.,Fartmann B.,Granderath K.,Dauner D.,Herzl A.,Neumann S.,Argiriou A.,Vitale D.,Liguori R.,Piravandi E.,Massenet O.,Quigley F.,Clabauld G.,Muendlein A.,Felber R.,Schnabl S.,Hiller R.,Schmidt W.,Lecharny A.,Aubourg S.,Chefdor F.,Cooke R.,Berger C.,Monfort A.,Casacuberta E.,Gibbons T.,Weber N.,Vandenbol M.,Bargues M.,Terol J.,Torres A.,Perez-Perez A.,Purnelle B.,Bent E.,Johnson S.,Tacon D.,Jesse T.,Heijnen L.,Schwarz S.,Scholler P.,Heber S.,Francs P.,Bielke C.,Frishman D.,Haase D.,Lemcke K.,Mewes H.-W.,Stocker S.,Zaccaria P.,Bevan M.,Wilson R.K.,de la Bastide M.,Habermann K.,Parnell L.,Dedhia N.,Gnoj L.,Schutz K.,Huang E.,Spiegel L.,Sekhon M.,Murray J.,Sheet P.,Cordes M.,Abu-Threideh J.,Stoneking T.,Kalicki J.,Graves T.,Harmon G.,Edwards J.,Latreille P.,Courtney L.,Cloud J.,Abbott A.,Scott K.,Johnson D.,Minx P.,Bentley D.,Fulton B.,Miller N.,Greco T.,Kemp K.,Kramer J.,Fulton L.,Mardis E.,Dante M.,Pepin K.,Hillier L.W.,Nelson J.,Spieth J.,Ryan E.,Andrews S.,Geisel C.,Layman D.,Du H.,Ali J.,Berghoff A.,Jones K.,Drone K.,Cotton M.,Joshu C.,Antonoiu B.,Zidanic M.,Strong C.,Sun H.,Lamar B.,Yordan C.,Ma P.,Zhong J.,Preston R.,Vil D.,Shekher M.,Matero A.,Shah R.,Swaby I.K.,O'Shaughnessy A.,Rodriguez M.,Hoffman J.,Till S.,Granat S.,Shohdy N.,Hasegawa A.,Hameed A.,Lodhi M.,Johnson A.,Chen E.,Marra M.A.,Martienssen R.,McCombie W.R.
Sequence and analysis of chromosome 4 of the plant Arabidopsis thaliana.
Nature
402
769-777
1999
521899
Cheng C.Y.,Krishnakumar V.,Chan A.P.,Thibaud-Nissen F.,Schobel S.,Town C.D.
Araport11: a complete reannotation of the Arabidopsis thaliana reference genome.
Plant J.
89
789-804
2017
521900
Yamada K.,Lim J.,Dale J.M.,Chen H.,Shinn P.,Palm C.J.,Southwick A.M.,Wu H.C.,Kim C.J.,Nguyen M.,Pham P.K.,Cheuk R.F.,Karlin-Newmann G.,Liu S.X.,Lam B.,Sakano H.,Wu T.,Yu G.,Miranda M.,Quach H.L.,Tripp M.,Chang C.H.,Lee J.M.,Toriumi M.J.,Chan M.M.,Tang C.C.,Onodera C.S.,Deng J.M.,Akiyama K.,Ansari Y.,Arakawa T.,Banh J.,Banno F.,Bowser L.,Brooks S.Y.,Carninci P.,Chao Q.,Choy N.,Enju A.,Goldsmith A.D.,Gurjal M.,Hansen N.F.,Hayashizaki Y.,Johnson-Hopson C.,Hsuan V.W.,Iida K.,Karnes M.,Khan S.,Koesema E.,Ishida J.,Jiang P.X.,Jones T.,Kawai J.,Kamiya A.,Meyers C.,Nakajima M.,Narusaka M.,Seki M.,Sakurai T.,Satou M.,Tamse R.,Vaysberg M.,Wallender E.K.,Wong C.,Yamamura Y.,Yuan S.,Shinozaki K.,Davis R.W.,Theologis A.,Ecker J.R.
Empirical analysis of transcriptional activity in the Arabidopsis genome.
Science
302
842-846
2003
521902
Delarue M.,Prinsen E.,Onckelen H.V.,Caboche M.,Bellini C.
Sur2 mutations of Arabidopsis thaliana define a new locus involved in the control of auxin homeostasis.
Plant J.
14
603-611
1998
521903
Winkler R.G.,Frank M.R.,Galbraith D.W.,Feyereisen R.,Feldmann K.A.
Systematic reverse genetics of transfer-DNA-tagged lines of Arabidopsis. Isolation of mutations in the cytochrome p450 gene superfamily.
Plant Physiol.
118
743-750
1998
521904
Barlier I.,Kowalczyk M.,Marchant A.,Ljung K.,Bhalerao R.,Bennett M.,Sandberg G.,Bellini C.
The SUR2 gene of Arabidopsis thaliana encodes the cytochrome P450 CYP83B1, a modulator of auxin homeostasis.
Proc. Natl. Acad. Sci. U.S.A.
97
14819-14824
2000
521905
Hansen C.H.,Du L.,Naur P.,Olsen C.E.,Axelsen K.B.,Hick A.J.,Pickett J.A.,Halkier B.A.
CYP83b1 is the oxime-metabolizing enzyme in the glucosinolate pathway in Arabidopsis.
J. Biol. Chem.
276
24790-24796
2001
521906
Bak S.,Tax F.E.,Feldmann K.A.,Galbraith D.W.,Feyereisen R.
CYP83B1, a cytochrome P450 at the metabolic branch point in auxin and indole glucosinolate biosynthesis in Arabidopsis.
Plant Cell
13
101-111
2001
521907
Bak S.,Feyereisen R.
The involvement of two p450 enzymes, CYP83B1 and CYP83A1, in auxin homeostasis and glucosinolate biosynthesis.
Plant Physiol.
127
108-118
2001
521908
Smolen G.,Bender J.
Arabidopsis cytochrome P450 cyp83B1 mutations activate the tryptophan biosynthetic pathway.
Genetics
160
323-332
2002
521909
Naur P.,Petersen B.L.,Mikkelsen M.D.,Bak S.,Rasmussen H.,Olsen C.E.,Halkier B.A.
CYP83A1 and CYP83B1, two nonredundant cytochrome P450 enzymes metabolizing oximes in the biosynthesis of glucosinolates in Arabidopsis.
Plant Physiol.
133
63-72
2003
521910
Hoecker U.,Toledo-Ortiz G.,Bender J.,Quail P.H.
The photomorphogenesis-related mutant red1 is defective in CYP83B1, a red light-induced gene encoding a cytochrome P450 required for normal auxin homeostasis.
Planta
219
195-200
2004
521911
Skirycz A.,Reichelt M.,Burow M.,Birkemeyer C.,Rolcik J.,Kopka J.,Zanor M.I.,Gershenzon J.,Strnad M.,Szopa J.,Mueller-Roeber B.,Witt I.
DOF transcription factor AtDof1.1 (OBP2) is part of a regulatory network controlling glucosinolate biosynthesis in Arabidopsis.
Plant J.
47
10-24
2006
521912
Clausen M.,Kannangara R.M.,Olsen C.E.,Blomstedt C.K.,Gleadow R.M.,Joergensen K.,Bak S.,Motawie M.S.,Moeller B.L.
The bifurcation of the cyanogenic glucoside and glucosinolate biosynthetic pathways.
Plant J.
84
558-573
2015
