Any feedback?
Please rate this page
(sequences.php)
(0/150)

BRENDA support

Sequence of IVD_MOUSE

EC Number:1.3.8.1

EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
1.3.8.1
short-chain acyl-CoA dehydrogenase
Q9JHI5
Mus musculus
424
46325
Swiss-Prot
Reaction
a short-chain acyl-CoA + electron-transfer flavoprotein = a short-chain trans-2,3-dehydroacyl-CoA + reduced electron-transfer flavoprotein
Other sequences found for EC No. 1.3.8.1

General information:

Sequence
show sequence in fasta format
  0 MATAIRLLGR RVSSWRLRPS PSPLAVPRRA HSILPVDDDI NGLNEEQKQL RHTISKFLQE
 60 NLAPKAQEID QTNDFKNLRE FWKQLGSLGV LGITAPVQYG GSGLGYLEHV LVMEEISRAS
120 GAVGLSYGAH SNLCVNQIVR NGNEAQKEKY LPKLISGEFI GALAMSEPNA GSDVVSMKLK
180 AEKKGDHYVL NGNKFWITNG PDADILVVYA KTDLTAVPAS RGITAFIVEK GMPGFSTSKK
240 LDKLGMRGSN TCELVFEDCK VPAANVLSQE SKGVYVLMSG LDLERLVLAG GPLGIMQAVL
300 DHTIPYLHVR EAFGQKIGQF QLMQGKMADM YTRLMASRQY VYNVAKACDE GHIIPKDCAG
360 VILYAAECAT QVALDGIQCL GGNGYINDFP MGRFLRDAKL YEIGAGTSEV RRLVIGRAFN
420 ADFR
Download this sequence
in fasta format
Download all sequences for 1.3.8.1
in fasta format
in csv (Excel, OpenOffice) format
Sequence related references
Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
814681
Willard J.M.,Reinard T.,Mohsen A.W.,Vockley J.
Cloning of genomic and cDNA for mouse isovaleryl-CoA dehydrogenase (IVD) and evolutionary comparison to other known IVDs.
Gene
270
253-257
2001
11404023
814682
Carninci P.,Kasukawa T.,Katayama S.,Gough J.,Frith M.C.,Maeda N.,Oyama R.,Ravasi T.,Lenhard B.,Wells C.,Kodzius R.,Shimokawa K.,Bajic V.B.,Brenner S.E.,Batalov S.,Forrest A.R.,Zavolan M.,Davis M.J.,Wilming L.G.,Aidinis V.,Allen J.E.,Ambesi-Impiombato A.,Apweiler R.,Aturaliya R.N.,Bailey T.L.,Bansal M.,Baxter L.,Beisel K.W.,Bersano T.,Bono H.,Chalk A.M.,Chiu K.P.,Choudhary V.,Christoffels A.,Clutterbuck D.R.,Crowe M.L.,Dalla E.,Dalrymple B.P.,de Bono B.,Della Gatta G.,di Bernardo D.,Down T.,Engstrom P.,Fagiolini M.,Faulkner G.,Fletcher C.F.,Fukushima T.,Furuno M.,Futaki S.,Gariboldi M.,Georgii-Hemming P.,Gingeras T.R.,Gojobori T.,Green R.E.,Gustincich S.,Harbers M.,Hayashi Y.,Hensch T.K.,Hirokawa N.,Hill D.,Huminiecki L.,Iacono M.,Ikeo K.,Iwama A.,Ishikawa T.,Jakt M.,Kanapin A.,Katoh M.,Kawasawa Y.,Kelso J.,Kitamura H.,Kitano H.,Kollias G.,Krishnan S.P.,Kruger A.,Kummerfeld S.K.,Kurochkin I.V.,Lareau L.F.,Lazarevic D.,Lipovich L.,Liu J.,Liuni S.,McWilliam S.,Madan Babu M.,Madera M.,Marchionni L.,Matsuda H.,Matsuzawa S.,Miki H.,Mignone F.,Miyake S.,Morris K.,Mottagui-Tabar S.,Mulder N.,Nakano N.,Nakauchi H.,Ng P.,Nilsson R.,Nishiguchi S.,Nishikawa S.,Nori F.,Ohara O.,Okazaki Y.,Orlando V.,Pang K.C.,Pavan W.J.,Pavesi G.,Pesole G.,Petrovsky N.,Piazza S.,Reed J.,Reid J.F.,Ring B.Z.,Ringwald M.,Rost B.,Ruan Y.,Salzberg S.L.,Sandelin A.,Schneider C.,Schoenbach C.,Sekiguchi K.,Semple C.A.,Seno S.,Sessa L.,Sheng Y.,Shibata Y.,Shimada H.,Shimada K.,Silva D.,Sinclair B.,Sperling S.,Stupka E.,Sugiura K.,Sultana R.,Takenaka Y.,Taki K.,Tammoja K.,Tan S.L.,Tang S.,Taylor M.S.,Tegner J.,Teichmann S.A.,Ueda H.R.,van Nimwegen E.,Verardo R.,Wei C.L.,Yagi K.,Yamanishi H.,Zabarovsky E.,Zhu S.,Zimmer A.,Hide W.,Bult C.,Grimmond S.M.,Teasdale R.D.,Liu E.T.,Brusic V.,Quackenbush J.,Wahlestedt C.,Mattick J.S.,Hume D.A.,Kai C.,Sasaki D.,Tomaru Y.,Fukuda S.,Kanamori-Katayama M.,Suzuki M.,Aoki J.,Arakawa T.,Iida J.,Imamura K.,Itoh M.,Kato T.,Kawaji H.,Kawagashira N.,Kawashima T.,Kojima M.,Kondo S.,Konno H.,Nakano K.,Ninomiya N.,Nishio T.,Okada M.,Plessy C.,Shibata K.,Shiraki T.,Suzuki S.,Tagami M.,Waki K.,Watahiki A.,Okamura-Oho Y.,Suzuki H.,Kawai J.,Hayashizaki Y.
The transcriptional landscape of the mammalian genome.
Science
309
1559-1563
2005
16141072
814683
The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).
Genome Res.
14
2121-2127
2004
15489334
814685
Huttlin E.L.,Jedrychowski M.P.,Elias J.E.,Goswami T.,Rad R.,Beausoleil S.A.,Villen J.,Haas W.,Sowa M.E.,Gygi S.P.
A tissue-specific atlas of mouse protein phosphorylation and expression.
Cell
143
1174-1189
2010
21183079
814686
Park J.,Chen Y.,Tishkoff D.X.,Peng C.,Tan M.,Dai L.,Xie Z.,Zhang Y.,Zwaans B.M.,Skinner M.E.,Lombard D.B.,Zhao Y.
SIRT5-mediated lysine desuccinylation impacts diverse metabolic pathways.
Mol. Cell
50
919-930
2013
23806337
814687
Rardin M.J.,Newman J.C.,Held J.M.,Cusack M.P.,Sorensen D.J.,Li B.,Schilling B.,Mooney S.D.,Kahn C.R.,Verdin E.,Gibson B.W.
Label-free quantitative proteomics of the lysine acetylome in mitochondria identifies substrates of SIRT3 in metabolic pathways.
Proc. Natl. Acad. Sci. U.S.A.
110
6601-6606
2013
23576753