UniProt Accession

 ACADS_MOUSE; Q07417; Q91W85 

Genbank Protein ID

 L11163; AK155361; AK169428; CH466529; BC016259 

Genbank Nucleotide ID

 AAA16714.1; BAE33217.1; BAE41170.1; EDL19883.1; AAH16259.1 

Protein Name

 Short-chain specific acyl-CoA dehydrogenase, mitochondrial 

Protein Synonyms/Alias

 SCAD; Butyryl-CoA dehydrogenase 

Gene Name

 Acads 

Gene Synonyms/Alias

  

Created Date

 July 27, 2013 

Organism

 Mus musculus (Mouse) 

NCBI Taxa ID

 10090 

Lysine Modification

Position	Peptide	Type	References
51	TCRDFAEKELVPIAA	acetylation	[1, 2, 3, 4, 5, 6]
51	TCRDFAEKELVPIAA	succinylation	[5]
72	LFPTAQVKKMGELGL	acetylation	[3, 4]
136	KFGSAQQKQQWITPF	acetylation	[3]
262	GEPGMGFKIAMQTLD	acetylation	[1, 3, 4, 5, 6]
262	GEPGMGFKIAMQTLD	succinylation	[5]
292	ASLDCAVKYAENRNA	acetylation	[1, 4, 7]
306	AFGAPLTKLQNIQFK	acetylation	[1, 3, 4, 5, 6, 7, 8]
306	AFGAPLTKLQNIQFK	succinylation	[5]
306	AFGAPLTKLQNIQFK	ubiquitination	[9]
335	TWRAAMLKDNKKPFT	acetylation	[3]
338	AAMLKDNKKPFTKES	acetylation	[3]
339	AMLKDNKKPFTKESA	acetylation	[3]
343	DNKKPFTKESAMAKL	acetylation	[3]

Reference

 [1] Quantitative assessment of the impact of the gut microbiota on lysine epsilon-acetylation of host proteins using gnotobiotic mice.
 Simon GM, Cheng J, Gordon JI.
 Proc Natl Acad Sci U S A. 2012 Jul 10;109(28):11133-8. [PMID: 22733758]
 [2] Quantitative acetylome analysis reveals the roles of SIRT1 in regulating diverse substrates and cellular pathways.
 Chen Y, Zhao W, Yang JS, Cheng Z, Luo H, Lu Z, Tan M, Gu W, Zhao Y.
 Mol Cell Proteomics. 2012 Oct;11(10):1048-62. [PMID: 22826441]
 [3] Calorie restriction and SIRT3 trigger global reprogramming of the mitochondrial protein acetylome.
 Hebert AS, Dittenhafer-Reed KE, Yu W, Bailey DJ, Selen ES, Boersma MD, Carson JJ, Tonelli M, Balloon AJ, Higbee AJ, Westphall MS, Pagliarini DJ, Prolla TA, Assadi-Porter F, Roy S, Denu JM, Coon JJ.
 Mol Cell. 2013 Jan 10;49(1):186-99. [PMID: 23201123]
 [4] Label-free quantitative proteomics of the lysine acetylome in mitochondria identifies substrates of SIRT3 in metabolic pathways.
 Rardin MJ, Newman JC, Held JM, Cusack MP, Sorensen DJ, Li B, Schilling B, Mooney SD, Kahn CR, Verdin E, Gibson BW.
 Proc Natl Acad Sci U S A. 2013 Apr 16;110(16):6601-6. [PMID: 23576753]
 [5] SIRT5-Mediated Lysine Desuccinylation Impacts Diverse Metabolic Pathways.
 Park J, Chen Y, Tishkoff DX, Peng C, Tan M, Dai L, Xie Z, Zhang Y, Zwaans BM, Skinner ME, Lombard DB, Zhao Y.
 Mol Cell. 2013 Jun 27;50(6):919-30. [PMID: 23806337]
 [6] Quantification of mitochondrial acetylation dynamics highlights prominent sites of metabolic regulation.
 Still AJ, Floyd BJ, Hebert AS, Bingman CA, Carson JJ, Gunderson DR, Dolan BK, Grimsrud PA, Dittenhafer-Reed KE, Stapleton DS, Keller MP, Westphall MS, Denu JM, Attie AD, Coon JJ, Pagliarini DJ.
 J Biol Chem. 2013 Jul 17;. [PMID: 23864654]
 [7] Mitochondrial acetylome analysis in a mouse model of alcohol-induced liver injury utilizing SIRT3 knockout mice.
 Fritz KS, Galligan JJ, Hirschey MD, Verdin E, Petersen DR.
 J Proteome Res. 2012 Mar 2;11(3):1633-43. [PMID: 22309199]
 [8] Proteomic investigations of lysine acetylation identify diverse substrates of mitochondrial deacetylase sirt3.
 Sol EM, Wagner SA, Weinert BT, Kumar A, Kim HS, Deng CX, Choudhary C.
 PLoS One. 2012;7(12):e50545. [PMID: 23236377]
 [9] Proteomic analyses reveal divergent ubiquitylation site patterns in murine tissues.
 Wagner SA, Beli P, Weinert BT, Schölz C, Kelstrup CD, Young C, Nielsen ML, Olsen JV, Brakebusch C, Choudhary C.
 Mol Cell Proteomics. 2012 Dec;11(12):1578-85. [PMID: 22790023] 

Functional Description

  

Sequence Annotation

 NP_BIND 152 161 FAD (By similarity).
 NP_BIND 185 187 FAD (By similarity).
 NP_BIND 365 369 FAD (By similarity).
 NP_BIND 365 369 FAD; shared with dimeric partner (By
 NP_BIND 394 396 FAD (By similarity).
 REGION 269 272 Substrate binding (By similarity).
 ACT_SITE 392 392 Proton acceptor (By similarity).
 BINDING 161 161 Substrate; via carbonyl oxygen (By
 BINDING 297 297 FAD (By similarity).
 BINDING 297 297 FAD; shared with dimeric partner (By
 BINDING 308 308 FAD (By similarity).
 BINDING 393 393 Substrate; via amide nitrogen (By  

Keyword

 Complete proteome; FAD; Fatty acid metabolism; Flavoprotein; Lipid metabolism; Mitochondrion; Oxidoreductase; Reference proteome; Transit peptide. 

Sequence Source

 UniProt (SWISSPROT/TrEMBL); GenBank; EMBL 

Protein Length

 412 AA 

Protein Sequence

Gene Ontology

 GO:0005759; C:mitochondrial matrix; IEA:UniProtKB-SubCell.
 GO:0031966; C:mitochondrial membrane; IEA:Compara.
 GO:0005739; C:mitochondrion; IDA:MGI.
 GO:0003995; F:acyl-CoA dehydrogenase activity; IEA:InterPro.
 GO:0004085; F:butyryl-CoA dehydrogenase activity; IEA:EC.
 GO:0000062; F:fatty-acyl-CoA binding; IEA:Compara.
 GO:0050660; F:flavin adenine dinucleotide binding; IEA:InterPro.
 GO:0046359; P:butyrate catabolic process; IEA:Compara.
 GO:0033539; P:fatty acid beta-oxidation using acyl-CoA dehydrogenase; IEA:Compara.
 GO:0051289; P:protein homotetramerization; IEA:Compara.
 GO:0051384; P:response to glucocorticoid stimulus; IEA:Compara.
 GO:0042594; P:response to starvation; IEA:Compara. 

Interpro

 IPR006089; Acyl-CoA_DH_CS.
 IPR006092; Acyl-CoA_DH_N.
 IPR006090; Acyl-CoA_Oxase/DH_1.
 IPR006091; Acyl-CoA_Oxase/DH_cen-dom.
 IPR009075; AcylCo_DH/oxidase_C.
 IPR013786; AcylCoA_DH/ox_N.
 IPR009100; AcylCoA_DH/oxidase. 

Pfam

 PF00441; Acyl-CoA_dh_1
 PF02770; Acyl-CoA_dh_M
 PF02771; Acyl-CoA_dh_N 

SMART

  

PROSITE

 PS00072; ACYL_COA_DH_1
 PS00073; ACYL_COA_DH_2 

PRINTS