Sequence of F8WQN2_CHLRE

EC Number:1.1.3.15

EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
(S)-2-hydroxy-acid oxidase
F8WQN2
Chlamydomonas reinhardtii
384
41308
Reaction
an (S)-2-hydroxy carboxylate + O2 = a 2-oxo carboxylate + H2O2
Other sequences found for EC No. 1.1.3.15

EC Number:1.1.3.2

EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
L-lactate oxidase
F8WQN2
Chlamydomonas reinhardtii
384
41308
Reaction
(S)-lactate + O2 = pyruvate + H2O2
Other sequences found for EC No. 1.1.3.2

General information:

Sequence
show sequence in fasta format
  0 MADLSFLNLE EVEEEAKKVM PKMAFDYYST GSDTCYTVGE NRSCFSRYLL LPRMLRNVSR
 60 VDTSHELFGI RSSMPVWVAP MAMHGLAHPG REVATCRAAA AAGVPFTFST VATSSLQEIQ
120 ETGHDNRIFQ LYVIRNREVV RRWVTEAESR GFKALMVTVD AQRLGNREAD ARNKFTLPPG
180 LALRNLEYLS SASTVQARDS QDGSGLMKLF TSEVDDSLTW EFIPWLRGVT KLPIIVKGLL
240 SPADAELAVQ YGVDGIVVSN HGGRQLDYAP SGLHMLPAVV AAVRGCGSSI PVLVDGGVRR
300 GTDVIKALAL GASGVLLGRP VLYGLAVGGQ AGVERVLQLL RSEIELSMAL AGCSSVQQIG
360 PQLLLPAPSA GPAPPMPAAQ LCKL
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Sequence related references
Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
250529997
Merchant S.S.,Prochnik S.E.,Vallon O.,Harris E.H.,Karpowicz S.J.,Witman G.B.,Terry A.,Salamov A.,Fritz-Laylin L.K.,Marechal-Drouard L.,Marshall W.F.,Qu L.H.,Nelson D.R.,Sanderfoot A.A.,Spalding M.H.,Kapitonov V.V.,Ren Q.,Ferris P.,Lindquist E.,Shapiro H.,Lucas S.M.,Grimwood J.,Schmutz J.,Cardol P.,Cerutti H.,Chanfreau G.,Chen C.L.,Cognat V.,Croft M.T.,Dent R.,Dutcher S.,Fernandez E.,Fukuzawa H.,Gonzalez-Ballester D.,Gonzalez-Halphen D.,Hallmann A.,Hanikenne M.,Hippler M.,Inwood W.,Jabbari K.,Kalanon M.,Kuras R.,Lefebvre P.A.,Lemaire S.D.,Lobanov A.V.,Lohr M.,Manuell A.,Meier I.,Mets L.,Mittag M.,Mittelmeier T.,Moroney J.V.,Moseley J.,Napoli C.,Nedelcu A.M.,Niyogi K.,Novoselov S.V.,Paulsen I.T.,Pazour G.,Purton S.,Ral J.P.,Riano-Pachon D.M.,Riekhof W.,Rymarquis L.,Schroda M.,Stern D.,Umen J.,Willows R.,Wilson N.,Zimmer S.L.,Allmer J.,Balk J.,Bisova K.,Chen C.J.,Elias M.,Gendler K.,Hauser C.,Lamb M.R.,Ledford H.,Long J.C.,Minagawa J.,Page M.D.,Pan J.,Pootakham W.,Roje S.,Rose A.,Stahlberg E.,Terauchi A.M.,Yang P.,Ball S.,Bowler C.,Dieckmann C.L.,Gladyshev V.N.,Green P.,Jorgensen R.,Mayfield S.,Mueller-Roeber B.,Rajamani S.,Sayre R.T.,Brokstein P.,Dubchak I.,Goodstein D.,Hornick L.,Huang Y.W.,Jhaveri J.,Luo Y.,Martinez D.,Ngau W.C.,Otillar B.,Poliakov A.,Porter A.,Szajkowski L.,Werner G.,Zhou K.,Grigoriev I.V.,Rokhsar D.S.,Grossman A.R.
The Chlamydomonas genome reveals the evolution of key animal and plant functions.
Science
318
245-250
2007
250529998
Hackenberg C.,Kern R.,Huge J.,Stal L.J.,Tsuji Y.,Kopka J.,Shiraiwa Y.,Bauwe H.,Hagemann M.
Cyanobacterial lactate oxidases serve as essential partners in N2 fixation and evolved into photorespiratory glycolate oxidases in plants.
Plant Cell
23
2978-2990
2011