참고문헌 (65)

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12. 12 Shi L Tu BP Acetyl-CoA induces transcription of the key G1 cyclin CLN3 to promote entry into the cell division cycle in Saccharomyces cerevisiae Proc Natl Acad Sci U S A 2013 110 7318 7323 23589851 

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20. 20 Marino G Pietrocola F Eisenberg T Kong Y Malik SA Andryushkova A Schroeder S Pendl T Harger A Niso-Santano M Regulation of autophagy by cytosolic acetyl-coenzyme A Mol Cell 2014 53 710 725 24560926 

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25. 25 Kuang Z Cai L Zhang X Ji H Tu BP Boeke JD High-temporal-resolution view of transcription and chromatin states across distinct metabolic states in budding yeast Nat Struct Mol Biol 2014 21 854 863 25173176 

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26. 26 Mehrotra S Galdieri L Zhang T Zhang M Pemberton LF Vancura A Histone hypoacetylation-activated genes are repressed by acetyl-CoA- and chromatin-mediated mechanism Biochim Biophys Acta 2014 1839 751 763 24907648 

27. 27 Shi L Tu BP Protein acetylation as a means to regulate protein function in tune with metabolic state Biochem Soc Trans 2014 42 1037 1042 25109999 

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33. 33 Hallows WC Lee S Denu JM Sirtuins deacetylate and activate mammalian acetyl-CoA synthetases Proc Natl Acad Sci U S A 2006 103 10230 10235 16790548 

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34. 34 Schwer B Bunkenborg J Verdin RO Andersen JS Verdin E Reversible lysine acetylation controls the activity of the mitochondrial enzyme acetyl-CoA synthetase 2 Proc Natl Acad Sci U S A 2006 103 10224 10229 16788062 

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35. 35 Kim SC Sprung R Chen Y Xu Y Ball H Pei J Cheng T Kho Y Xiao H Xiao L Substrate and functional diversity of lysine acetylation revealed by a proteomics survey Mol Cell 2006 23 607 618 16916647 The first proteomic survey demonstrating that acetylation can occur on a variety of proteins, especially mitochondrial proteins. 

36. 36 Choudhary C Kumar C Gnad F Nielsen ML Rehman M Walther TC Olsen JV Mann M Lysine acetylation targets protein complexes and co-regulates major cellular functions Science 2009 325 834 840 19608861 

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37. 37 Wang Q Zhang Y Yang C Xiong H Lin Y Yao J Li H Xie L Zhao W Yao Y Acetylation of metabolic enzymes coordinates carbon source utilization and metabolic flux Science 2010 327 1004 1007 20167787 

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38. 38 Zhao S Xu W Jiang W Yu W Lin Y Zhang T Yao J Zhou L Zeng Y Li H Regulation of cellular metabolism by protein lysine acetylation Science 2010 327 1000 1004 20167786 

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39. 39 Guan KL Xiong Y Regulation of intermediary metabolism by protein acetylation Trends Biochem Sci 2011 36 108 116 20934340 

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40. 40 Hallows WC Yu W Denu JM Regulation of glycolytic enzyme phosphoglycerate mutase-1 by Sirt1 protein-mediated deacetylation J Biol Chem 2012 287 3850 3858 22157007 

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41. 41 Cai L McCormick MA Kennedy BK Tu BP Integration of multiple nutrient cues and regulation of lifespan by ribosomal transcription factor Ifh1 Cell Rep 2013 4 1063 1071 24035395 

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42. 42 Baeza J Dowell JA Smallegan MJ Fan J Amador-Noguez D Khan Z Denu JM Stoichiometry of site-specific lysine acetylation in an entire proteome J Biol Chem 2014 289 21326 21338 24917678 

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43. 43 Weinert BT Iesmantavicius V Moustafa T Scholz C Wagner SA Magnes C Zechner R Choudhary C Acetylation dynamics and stoichiometry in Saccharomyces cerevisiae Mol Syst Biol 2014 10 716 24489116 

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45. 45 Berndsen CE Denu JM Assays for mechanistic investigations of protein/histone acetyltransferases Methods 2005 36 321 331 16085424 

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46. 46 Pougovkina O te Brinke H Ofman R van Cruchten AG Kulik W Wanders RJ Houten SM de Boer VC Mitochondrial protein acetylation is driven by acetyl-CoA from fatty acid oxidation Hum Mol Genet 2014 23 3513 3522 24516071 

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47. 47 Pougovkina O Te Brinke H Wanders RJ Houten SM de Boer VC Aberrant protein acylation is a common observation in inborn errors of acyl-CoA metabolism J Inherit Metab Dis 2014 37 709 714 24531926 Study showing aberrant protein acylation in several models of inborn errors of metabolism associated with accumulation of particular acyl-CoA metabolites. 

48. 48 Wagner GR Payne RM Widespread and enzyme-independent Nepsilon-acetylation and Nepsilon-succinylation of proteins in the chemical conditions of the mitochondrial matrix J Biol Chem 2013 288 29036 29045 23946487 

49. 49 Ghanta S Grossmann RE Brenner C Mitochondrial protein acetylation as a cell-intrinsic, evolutionary driver of fat storage: chemical and metabolic logic of acetyl-lysine modifications Crit Rev Biochem Mol Biol 2013 48 561 574 24050258 

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50. 50 Neumann H Peak-Chew SY Chin JW Genetically encoding N(epsilon)-acetyllysine in recombinant proteins Nat Chem Biol 2008 4 232 234 18278036 

51. 51 Huang R Holbert MA Tarrant MK Curtet S Colquhoun DR Dancy BM Dancy BC Hwang Y Tang Y Meeth K Site-specific introduction of an acetyl-lysine mimic into peptides and proteins by cysteine alkylation J Am Chem Soc 2010 132 9986 9987 20608637 

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52. 52 Dancy BC Ming SA Papazyan R Jelinek CA Majumdar A Sun Y Dancy BM Drury WJ 3rd Cotter RJ Taverna SD Azalysine analogues as probes for protein lysine deacetylation and demethylation J Am Chem Soc 2012 134 5138 5148 22352831 

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53. 53 He W Newman JC Wang MZ Ho L Verdin E Mitochondrial sirtuins: regulators of protein acylation and metabolism Trends Endocrinol Metab 2012 23 467 476 22902903 

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54. 54 Wagner GR Hirschey MD Nonenzymatic protein acylation as a carbon stress regulated by sirtuin deacylases Mol Cell 2014 54 5 16 24725594 Review discussing evidence supporting a role for sirtuins in protein quality control and the removal of nonenzymatic protein acylation modifications. 

55. 55 Hirschey MD Shimazu T Goetzman E Jing E Schwer B Lombard DB Grueter CA Harris C Biddinger S Ilkayeva OR SIRT3 regulates mitochondrial fatty-acid oxidation by reversible enzyme deacetylation Nature 2010 464 121 125 20203611 

56. 56 Lombard DB Alt FW Cheng HL Bunkenborg J Streeper RS Mostoslavsky R Kim J Yancopoulos G Valenzuela D Murphy A Mammalian Sir2 homolog SIRT3 regulates global mitochondrial lysine acetylation Mol Cell Biol 2007 27 8807 8814 17923681 

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57. 57 Ahn BH Kim HS Song S Lee IH Liu J Vassilopoulos A Deng CX Finkel T A role for the mitochondrial deacetylase Sirt3 in regulating energy homeostasis Proc Natl Acad Sci U S A 2008 105 14447 14452 18794531 

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58. 58 Du J Zhou Y Su X Yu JJ Khan S Jiang H Kim J Woo J Kim JH Choi BH Sirt5 is a NAD-dependent protein lysine demalonylase and desuccinylase Science 2011 334 806 809 22076378 Inspired by protein structural analysis, the authors discovered the lysine demalonylase and desuccinylase activity of SIRT5. This study explains why SIRT5 did not exhibit deacetylase activity and implicates other sirtuin members in regulating various protein acylation modifications other than acetylation. 

59. 59 Jiang H Khan S Wang Y Charron G He B Sebastian C Du J Kim R Ge E Mostoslavsky R SIRT6 regulates TNF-alpha secretion through hydrolysis of long-chain fatty acyl lysine Nature 2013 496 110 113 23552949 The authors discovered the specific role of SIRT6 in antagonizing protein lysine long chain fatty acylation by enzymology and structural analysis. This study resolves how SIRT6 regulates TNFα. 

60. 60 Tan M Peng C Anderson KA Chhoy P Xie Z Dai L Park J Chen Y Huang H Zhang Y Lysine glutarylation is a protein posttranslational modification regulated by SIRT5 Cell Metab 2014 19 605 617 24703693 

61. 61 Feldman JL Baeza J Denu JM Activation of the protein deacetylase SIRT6 by long-chain fatty acids and widespread deacylation by mammalian sirtuins J Biol Chem 2013 288 31350 31356 24052263 The authors profiled distinct but overlapping deacylation specificities of sirtuins and suggested potential regulation of SIRT6 by long chain fatty acids. The results reveal distinct regulations and roles for each sirtuin in response to cellular metabolic state. 

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63. 63 Imai S Guarente L NAD+ and sirtuins in aging and disease Trends Cell Biol 2014 24 464 471 24786309 

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64. 64 Houtkooper RH Pirinen E Auwerx J Sirtuins as regulators of metabolism and healthspan Nat Rev Mol Cell Biol 2012 13 225 238 22395773 

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65. 65 Tong L Denu JM Function and metabolism of sirtuin metabolite O-acetyl-ADP-ribose Biochim Biophys Acta 2010 1804 1617 1625 20176146