InChI=1S/C19H27N5O17P2/c20-16-11-17(22-5-21-16)24(6-23-11)18-14(30)12(28)7(38-18)3-36-42(32,33)41-43(34,35)37-4-8-13(29)15(19(31)39-8)40-10(27)2-1-9(25)26/h5-8,12-15,18-19,28-31H,1-4H2,(H,25,26)(H,32,33)(H,34,35)(H2,20,21,22)/p-3/t7-,8-,12-,13-,14-,15-,18-,19?/m1/s1 |
AKEYIRFGFICPER-DBTCLECXSA-K |
O1C(O)[C@H](OC(CCC(=O)[O-])=O)[C@H](O)[C@H]1COP(OP(OC[C@@H]2[C@H]([C@H]([C@H](N3C4=NC=NC(=C4N=C3)N)O2)O)O)(=O)[O-])(=O)[O-] |
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2''-O-succinyl-ADP-D-ribose
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UniProt
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2''-O-succinyl-ADP-ribose(3−)
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ChEBI
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Peng C, Lu Z, Xie Z, Cheng Z, Chen Y, Tan M, Luo H, Zhang Y, He W, Yang K, Zwaans BM, Tishkoff D, Ho L, Lombard D, He TC, Dai J, Verdin E, Ye Y, Zhao Y (2011) The first identification of lysine malonylation substrates and its regulatory enzyme. Molecular & cellular proteomics : MCP 10, M111.012658 (Source: SUBMITTER) [PubMed:21908771] [show Abstract] Protein post-translational modifications (PTMs) at the lysine residue, such as lysine methylation, acetylation, and ubiquitination, are diverse, abundant, and dynamic. They play a key role in the regulation of diverse cellular physiology. Here we report discovery of a new type of lysine PTM, lysine malonylation (Kmal). Kmal was initially detected by mass spectrometry and protein sequence-database searching. The modification was comprehensively validated by Western blot, tandem MS, and high-performance liquid chromatography of synthetic peptides, isotopic labeling, and identification of multiple Kmal substrate proteins. Kmal is a dynamic and evolutionarily conserved PTM observed in mammalian cells and bacterial cells. In addition, we demonstrate that Sirt5, a member of the class III lysine deacetylases, can catalyze lysine demalonylation and lysine desuccinylation reactions both in vitro and in vivo. This result suggests the possibility of nondeacetylation activity of other class III lysine deacetylases, especially those without obvious acetylation protein substrates. Our results therefore reveal a new type of PTM pathway and identify the first enzyme that can regulate lysine malonylation and lysine succinylation status. | Du J, Zhou Y, Su X, Yu JJ, Khan S, Jiang H, Kim J, Woo J, Kim JH, Choi BH, He B, Chen W, Zhang S, Cerione RA, Auwerx J, Hao Q, Lin H (2011) Sirt5 is a NAD-dependent protein lysine demalonylase and desuccinylase. Science (New York, N.Y.) 334, 806-809 (Source: SUBMITTER) [PubMed:22076378] [show Abstract] Silent information regulator 2 (Sir2) proteins (sirtuins) are nicotinamide adenine dinucleotide-dependent deacetylases that regulate important biological processes. Mammals have seven sirtuins, Sirt1 to Sirt7. Four of them (Sirt4 to Sirt7) have no detectable or very weak deacetylase activity. We found that Sirt5 is an efficient protein lysine desuccinylase and demalonylase in vitro. The preference for succinyl and malonyl groups was explained by the presence of an arginine residue (Arg(105)) and tyrosine residue (Tyr(102)) in the acyl pocket of Sirt5. Several mammalian proteins were identified with mass spectrometry to have succinyl or malonyl lysine modifications. Deletion of Sirt5 in mice appeared to increase the level of succinylation on carbamoyl phosphate synthase 1, which is a known target of Sirt5. Thus, protein lysine succinylation may represent a posttranslational modification that can be reversed by Sirt5 in vivo. |
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