Sequence of DCMC_MOUSE

EC Number:4.1.1.9

4.1.1.9

malonyl-CoA decarboxylase

Q99J39

Mus musculus

492

54736

Swiss-Prot

Reaction

malonyl-CoA = acetyl-CoA + CO2

Other sequences found for EC No. 4.1.1.9

General information:

Sequence

0 MRGLGPGLRA RRLLPLRSPP RPPGPRGRRL CGGLAASAMD ELLRRAVPPT PAYELREKTP

60 APAEGQCADF VSFYGGLAEA SQRAELLGRL AQGFGVDHGQ VAEQSAGVLQ LRQQAREAAV

120 LLQAEDRLRY ALVPRYRGLF HHISKLDGGV RFLVQLRADL LEAQALKLVE GPHVREMNGV

180 LKSMLSEWFS SGFLNLERVT WHSPCEVLQK ISECEAVHPV KNWMDMKRRV GPYRRCYFFS

240 HCSTPGEPLV VLHVALTGDI SNNIQGIVKE CPPTETEERN RIAAAIFYSI SLTQQGLQGV

300 ELGTFLIKRV VKELQKEFPQ LGAFSSLSPI PGFTKWLLGL LNVQGKEHGR NELFTDSECQ

360 EISAVTGNPV HESLKGFLSS GEWVKSEKLT QALQGPLMRL CAWYLYGEKH RGYALNPVAN

420 FHLQNGAVMW RINWMADSSL KGLTSSCGLM VNYRYYLEET GPNSISYLGS KNIKASEQIL

480 SLVAQFQNNS KL

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Sequence related references

283013

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

283014

The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).

Genome Res.

2121-2127

2004

15489334

283016

Dyck J.R.,Hopkins T.A.,Bonnet S.,Michelakis E.D.,Young M.E.,Watanabe M.,Kawase Y.,Jishage K.,Lopaschuk G.D.

Absence of malonyl coenzyme A decarboxylase in mice increases cardiac glucose oxidation and protects the heart from ischemic injury.

Circulation

114

1721-1728

2006

17030679

283017

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

283018

Laurent G.,German N.J.,Saha A.K.,de Boer V.C.,Davies M.,Koves T.R.,Dephoure N.,Fischer F.,Boanca G.,Vaitheesvaran B.,Lovitch S.B.,Sharpe A.H.,Kurland I.J.,Steegborn C.,Gygi S.P.,Muoio D.M.,Ruderman N.B.,Haigis M.C.

SIRT4 coordinates the balance between lipid synthesis and catabolism by repressing malonyl CoA decarboxylase.

Mol. Cell

686-698

2013

23746352

283019

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

919-930

2013

23806337

283020

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