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Sequence of Q9DD46_CHICK

EC Number:1.2.1.36

EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
retinal dehydrogenase
Q9DD46
Gallus gallus
512
56312
Reaction
retinal + NAD+ + H2O = retinoate + NADH + H+
Other sequences found for EC No. 1.2.1.36

General information:

Sequence
show sequence in fasta format
  0 MAAVNGAVEN GPPDKKGPPL PRPLRGLEVK YTKIFINNEW HESTSGKKFP TYNPSTLEKI
 60 CDIEEGDKPD VDNAVEAAKA AFQRGSQWRQ MDALSRGRLL HKLADLLERD RVILATLETM
120 DTGKPFLQAY FIDLEGCIKT LRYYAGWADK IQGRTIPVDE NFVCFTRHEP MGVCGAITPW
180 NFPLLMLVWK MAPALCCGNT LVIKPAEQTP LTSLYIGSLI KEVGFPPGVV NIVPGYGPTA
240 GAAISTHQSI DKIAFTGSTK VGKLIKEAAS KSNLKRVTLE LGGKNPCIVC ADADLDLAVE
300 CAHQGVFLNQ GQCCTAASRV FVEEQIYPEF VKRSVEYAKK RLVGDPFDAR TEQGPQIDQK
360 QFDKILELIE SGKKEGAKLE CGGLAIEDRG LFIKPTVFSE VTDNMRIAKE EIFGPVQPIM
420 KFKSIEEVIR RANNTEYGLT AAVFTKNLDR ALTLASALQS GTVWINCYNA LYAQAPFGGF
480 KMSGNGRELG EYALAEYTEV KTVTIKLSQK SP
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Sequence related references
Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
215474646
Grun F.,Hirose Y.,Kawauchi S.,Ogura T.,Umesono K.
Aldehyde dehydrogenase 6, a cytosolic retinaldehyde dehydrogenase prominently expressed in sensory neuroepithelia during development.
J. Biol. Chem.
275
41210-41218
2000
215474647
Suzuki R.,Shintani T.,Sakuta H.,Kato A.,Ohkawara T.,Osumi N.,Noda M.
Identification of RALDH-3, a novel retinaldehyde dehydrogenase, expressed in the ventral region of the retina.
Mech. Dev.
98
37-50
2000
215474648
Hillier L.W.,Miller W.,Birney E.,Warren W.,Hardison R.C.,Ponting C.P.,Bork P.,Burt D.W.,Groenen M.A.M.,Delany M.E.,Dodgson J.B.,Chinwalla A.T.,Cliften P.F.,Clifton S.W.,Delehaunty K.D.,Fronick C.,Fulton R.S.,Graves T.A.,Kremitzki C.,Layman D.,Magrini V.,McPherson J.D.,Miner T.L.,Minx P.,Nash W.E.,Nhan M.N.,Nelson J.O.,Oddy L.G.,Pohl C.S.,Randall-Maher J.,Smith S.M.,Wallis J.W.,Yang S.-P.,Romanov M.N.,Rondelli C.M.,Paton B.,Smith J.,Morrice D.,Daniels L.,Tempest H.G.,Robertson L.,Masabanda J.S.,Griffin D.K.,Vignal A.,Fillon V.,Jacobbson L.,Kerje S.,Andersson L.,Crooijmans R.P.,Aerts J.,van der Poel J.J.,Ellegren H.,Caldwell R.B.,Hubbard S.J.,Grafham D.V.,Kierzek A.M.,McLaren S.R.,Overton I.M.,Arakawa H.,Beattie K.J.,Bezzubov Y.,Boardman P.E.,Bonfield J.K.,Croning M.D.R.,Davies R.M.,Francis M.D.,Humphray S.J.,Scott C.E.,Taylor R.G.,Tickle C.,Brown W.R.A.,Rogers J.,Buerstedde J.-M.,Wilson S.A.,Stubbs L.,Ovcharenko I.,Gordon L.,Lucas S.,Miller M.M.,Inoko H.,Shiina T.,Kaufman J.,Salomonsen J.,Skjoedt K.,Wong G.K.-S.,Wang J.,Liu B.,Wang J.,Yu J.,Yang H.,Nefedov M.,Koriabine M.,Dejong P.J.,Goodstadt L.,Webber C.,Dickens N.J.,Letunic I.,Suyama M.,Torrents D.,von Mering C.,Zdobnov E.M.,Makova K.,Nekrutenko A.,Elnitski L.,Eswara P.,King D.C.,Yang S.-P.,Tyekucheva S.,Radakrishnan A.,Harris R.S.,Chiaromonte F.,Taylor J.,He J.,Rijnkels M.,Griffiths-Jones S.,Ureta-Vidal A.,Hoffman M.M.,Severin J.,Searle S.M.J.,Law A.S.,Speed D.,Waddington D.,Cheng Z.,Tuzun E.,Eichler E.,Bao Z.,Flicek P.,Shteynberg D.D.,Brent M.R.,Bye J.M.,Huckle E.J.,Chatterji S.,Dewey C.,Pachter L.,Kouranov A.,Mourelatos Z.,Hatzigeorgiou A.G.,Paterson A.H.,Ivarie R.,Brandstrom M.,Axelsson E.,Backstrom N.,Berlin S.,Webster M.T.,Pourquie O.,Reymond A.,Ucla C.,Antonarakis S.E.,Long M.,Emerson J.J.,Betran E.,Dupanloup I.,Kaessmann H.,Hinrichs A.S.,Bejerano G.,Furey T.S.,Harte R.A.,Raney B.,Siepel A.,Kent W.J.,Haussler D.,Eyras E.,Castelo R.,Abril J.F.,Castellano S.,Camara F.,Parra G.,Guigo R.,Bourque G.,Tesler G.,Pevzner P.A.,Smit A.,Fulton L.A.,Mardis E.R.,Wilson R.K.
Sequence and comparative analysis of the chicken genome provide unique perspectives on vertebrate evolution.
Nature
432
695-716
2004