2.3.1.48	2 acetyl-CoA + histone H4	-	Pisum sativum	2 CoA + diacetylhistone H4	mono-, di- and triacetylated products	?	320934	
2.3.1.48	2 acetyl-CoA + histone H4	enzyme form B	Zea mays	2 CoA + diacetylhistone H4	mono- and diacetylated products	?	320934	
2.3.1.48	2 acetyl-CoA + histone H4	enzyme form B	Zea mays Cuzco	2 CoA + diacetylhistone H4	mono- and diacetylated products	?	320934	
2.3.1.48	3 acetyl-CoA + histone H4	enzyme form B	Pisum sativum	3 CoA + triacetylhistone H4	mono-, di- and triacetylated products	?	320935	
2.3.1.48	3-azidopropionyl-CoA + [histone peptide H3-20]-L-lysine	-	Homo sapiens	CoA + [histone peptide H3-20]-N6-3-azidopropionyl-L-lysine	-	?	454991	
2.3.1.48	3-azidopropionyl-CoA + [histone peptide H3-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H3-20]-N6-3-azidopropionyl-L-lysine	-	?	454991	
2.3.1.48	3-azidopropionyl-CoA + [histone peptide H4-20]-L-lysine	-	Homo sapiens	CoA + [histone peptide H4-20]-N6-3-azidopropionyl-L-lysine	-	?	454992	
2.3.1.48	3-azidopropionyl-CoA + [histone peptide H4-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H4-20]-N6-3-azidopropionyl-L-lysine	-	?	454992	
2.3.1.48	4 acetyl-CoA + histone H4	-	Saccharomyces cerevisiae	4 CoA + tetraacetylhistone H4	NuA4 randomly acetylates free and nucleosomal H4, with a small preference for lysines 5, 8, and 12 over 16	?	419282	
2.3.1.48	4-pentynoyl-CoA + [histone peptide H3-20]-L-lysine	-	Homo sapiens	CoA + [histone peptide H3-20]-N6-4-pentynoyl-L-lysine	-	?	455071	
2.3.1.48	4-pentynoyl-CoA + [histone peptide H3-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H3-20]-N6-4-pentynoyl-L-lysine	-	?	455071	
2.3.1.48	4-pentynoyl-CoA + [histone peptide H4-20]-L-lysine	-	Homo sapiens	CoA + [histone peptide H4-20]-N6-4-pentynoyl-L-lysine	-	?	455072	
2.3.1.48	4-pentynoyl-CoA + [histone peptide H4-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H4-20]-N6-4-pentynoyl-L-lysine	-	?	455072	
2.3.1.48	5-hexynoyl-CoA + [histone peptide H3-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H3-20]-N6-5-hexynoyl-L-lysine	-	?	455108	
2.3.1.48	5-hexynoyl-CoA + [histone peptide H3-20]-L-lysine	very low activity with 5-hexynoyl-CoA	Homo sapiens	CoA + [histone peptide H3-20]-N6-5-hexynoyl-L-lysine	-	?	455108	
2.3.1.48	5-hexynoyl-CoA + [histone peptide H4-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H4-20]-N6-5-hexynoyl-L-lysine	-	?	455109	
2.3.1.48	5-hexynoyl-CoA + [histone peptide H4-20]-L-lysine	very low activity with 5-hexynoyl-CoA	Homo sapiens	CoA + [histone peptide H4-20]-N6-5-hexynoyl-L-lysine	-	?	455109	
2.3.1.48	6-heptynoyl-CoA + [histone peptide H3-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H3-20]-N6-6-heptynoyl-L-lysine	-	?	455117	
2.3.1.48	6-heptynoyl-CoA + [histone peptide H3-20]-L-lysine	very low activity with 6-heptynoyl-CoA	Homo sapiens	CoA + [histone peptide H3-20]-N6-6-heptynoyl-L-lysine	-	?	455117	
2.3.1.48	6-heptynoyl-CoA + [histone peptide H4-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H4-20]-N6-6-heptynoyl-L-lysine	-	?	455118	
2.3.1.48	6-heptynoyl-CoA + [histone peptide H4-20]-L-lysine	very low activity with 6-heptynoyl-CoA	Homo sapiens	CoA + [histone peptide H4-20]-N6-6-heptynoyl-L-lysine	-	?	455118	
2.3.1.48	acetyl-CoA + 1,4-butanediamine	enzyme form A and B, low activity	Rattus norvegicus	?	-	?	320945	
2.3.1.48	acetyl-CoA + 1,4-butanediamine	i.e. putrescine	Rattus norvegicus	?	-	?	320945	
2.3.1.48	acetyl-CoA + 1,5-pentanediamine	enzyme form A and B, low activity	Rattus norvegicus	?	-	?	320946	
2.3.1.48	acetyl-CoA + 1,5-pentanediamine	i.e. cadaverine	Rattus norvegicus	?	-	?	320946	
2.3.1.48	acetyl-CoA + 1,6-hexanediamine	enzyme form A shows low activity , B not	Rattus norvegicus	?	-	?	320947	
2.3.1.48	acetyl-CoA + AVDSVFDTILDALK	histone-like protein HBsu peptide	Bacillus subtilis	CoA + AVDSVFDTILDALKac	-	?	455231	
2.3.1.48	acetyl-CoA + AVDSVFDTILDALK	histone-like protein HBsu peptide	Bacillus subtilis 168	CoA + AVDSVFDTILDALKac	-	?	455231	
2.3.1.48	acetyl-CoA + beta-site amyloid precursor protein-cleaving enzyme 1	-	Homo sapiens	CoA + acetylated beta-site amyloid precursor protein-cleaving enzyme 1	-	?	407079	
2.3.1.48	acetyl-CoA + beta-site amyloid precursor protein-cleaving enzyme 1	50 mM Tris-HCl, pH 8.0, 30°C	Homo sapiens	CoA + acetylated beta-site amyloid precursor protein-cleaving enzyme 1	-	?	407079	
2.3.1.48	acetyl-CoA + biotinylated histone H3 (1-21) peptide	-	Homo sapiens	CoA + acetylated biotinylated histone H3 (1-21) peptide	-	?	455170	
2.3.1.48	acetyl-CoA + c-Myc	acetylation by Tip60 increases c-Myc protein stability in transfected H-1299 human lung carcinoma cells	Mus musculus	CoA + acetylated c-Myc	-	?	407080	
2.3.1.48	acetyl-CoA + c-Myc	acetylation by Tip60	Mus musculus	CoA + acetylated c-Myc	-	?	407080	
2.3.1.48	acetyl-CoA + H3 peptide	-	Toxoplasma gondii	?	-	?	420197	
2.3.1.48	acetyl-CoA + histone	-	Drosophila melanogaster	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Drosophila melanogaster	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	-	Mus musculus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Mus musculus	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	-	Homo sapiens	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Homo sapiens	CoA + acetylhistone	-	ir	320931	
2.3.1.48	acetyl-CoA + histone	-	Homo sapiens	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	-	Rattus norvegicus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Saccharomyces cerevisiae	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Saccharomyces cerevisiae	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	-	Bos taurus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Pisum sativum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Zea mays	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Arabidopsis thaliana	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	-	Tetrahymena thermophila	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Tetrahymena thermophila	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	-	Tetrahymena sp.	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Betapolyomavirus macacae	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Homo sapiens	CoA + acetylhistone	in the assay the CoA thiolate is detected by the thiol sensitive fluorescent dye 7-diethylamino-3-(4'-maleimidylphenyl)-4-methylcoumarin	?	320931	
2.3.1.48	acetyl-CoA + histone	enzyme form B nearly exclusively acetylates histones H4 and H2a	Bos taurus	CoA + acetylhistone	formation of N6-acetyllysine as the only acetylation product	?	320931	
2.3.1.48	acetyl-CoA + histone	calf thymus and HeLa cell histones	Homo sapiens	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	pea histones, enzyme form A and B	Pisum sativum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone H2A is a substrate for enzyme form A1	Physarum polycephalum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	free histones	Rattus norvegicus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	chicken erythrocyte histones, enzyme form A and B	Saccharomyces cerevisiae	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	chicken erythrocyte histones, enzyme form A and B	Pisum sativum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	nucleosome-histones, enzyme form A, not enzyme form B	Rattus norvegicus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone f1, enzyme form A	Rattus norvegicus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone f2a1, enzyme form B1 and B2	Rattus norvegicus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	nucleosome-histones, enzyme form A and B	Rattus norvegicus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Homo sapiens	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Rattus norvegicus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Sus scrofa	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Saccharomyces cerevisiae	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Saccharomyces cerevisiae	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Bos taurus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Physarum polycephalum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Artemia nauplii	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	acetylates histones H2A, H3, and H4, but not histone 2B	Human Immunodeficiency Virus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	free pea and chicken histones H4, enzyme form B	Pisum sativum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	or chymotryptic peptides of histone	Bos taurus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	chymostatic peptides of histones	Sus scrofa	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone H1 is a better substrate than H3 or H4	Artemia salina	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone H1 poor substrate	Rattus norvegicus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone H2B: poor substrate for enzyme form A2	Physarum polycephalum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	acetylation of lysine 5, 8, 12, and 16 of free histone H4 with increasing preference	Pisum sativum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone H1 is not acetylated in vivo	Homo sapiens	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	Esa1 protein is involved in cell cycle regulation	Saccharomyces cerevisiae	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	involved in chromatin remodeling and DNA repair	Homo sapiens	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	involved in chromatin remodeling and DNA repair	Saccharomyces cerevisiae	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	histone H3 is the preferred substrate	Drosophila melanogaster	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	histone H3 is the preferred substrate	Mus musculus	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	histone H3 is the preferred substrate	Homo sapiens	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	histone H3 is the preferred substrate	Saccharomyces cerevisiae	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	histone H3 is the preferred substrate	Arabidopsis thaliana	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	neutralization of positively charged lysine residues by acetylation lowering the affinity of histone octamers for the negatively charged DNA	Homo sapiens	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	neutralization of positively charged lysine residues by acetylation lowering the affinity of histone octamers for the negatively charged DNA	Saccharomyces cerevisiae	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	neutralization of positively charged lysine residues by acetylation lowering the affinity of histone octamers for the negatively charged DNA	Tetrahymena sp.	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	involved in dynamic equilibrium of core histone acetylation	Physarum polycephalum	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	the acetyl groups function as signals for interaction of histones with other regulatory proteins, chromatin remodeling	Homo sapiens	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	the acetyl groups function as signals for interaction of histones with other regulatory proteins, chromatin remodeling	Saccharomyces cerevisiae	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	the acetyl groups function as signals for interaction of histones with other regulatory proteins, chromatin remodeling	Tetrahymena sp.	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	most likely involved in acetylation of newly synthesized histones in cytoplasm prior to chromatin assembly	Drosophila melanogaster	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	important role of the enzyme for chromatin modulating activity	Aspergillus nidulans	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	the bifunctional enzyme NCOAT, nuclear cytoplasmic O-GlcNacase and acetyltransferase, may be regulated to reduce the state of glycosylation of transcriptional activators while increasing the acetylation of histones to allow for concerted activation of eukaryotic gene transcription	Mus musculus	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone acetylation on Lys16 by Sas2	Saccharomyces cerevisiae	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	a group of enzymes with differing specificity towards histone acceptors, specificity of different enzyme forms	Homo sapiens GCN5	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	histone H1 is not acetylated in vivo	Homo sapiens GCN5	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	neutralization of positively charged lysine residues by acetylation lowering the affinity of histone octamers for the negatively charged DNA	Homo sapiens GCN5	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	the acetyl groups function as signals for interaction of histones with other regulatory proteins, chromatin remodeling	Homo sapiens GCN5	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Homo sapiens GCN5	CoA + acetylhistone	-	ir	320931	
2.3.1.48	acetyl-CoA + histone	-	Homo sapiens GCN5	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Homo sapiens GCN5	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	involved in chromatin remodeling and DNA repair	Homo sapiens GCN5	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	histone H3 is the preferred substrate	Homo sapiens GCN5	CoA + acetylhistone	-	r	320931	
2.3.1.48	acetyl-CoA + histone	-	Tetrahymena thermophila GCN5	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone	-	Zea mays Cuzco	CoA + acetylhistone	-	?	320931	
2.3.1.48	acetyl-CoA + histone H	histone acetyltransferase AtGCN5 is required to regulate the floral meristem activity through the WUS/AG pathway	Arabidopsis thaliana	CoA + acetylhistone H	-	?	375028	
2.3.1.48	acetyl-CoA + histone H1	histone H1 is a better substrate than H3 or H4	Artemia salina	CoA + acetylhistone H1	-	?	320940	
2.3.1.48	acetyl-CoA + histone H1	histone H1 poor substrate	Homo sapiens	CoA + acetylhistone H1	-	?	320940	
2.3.1.48	acetyl-CoA + histone H1	histone H1 poor substrate	Rattus norvegicus	CoA + acetylhistone H1	-	?	320940	
2.3.1.48	acetyl-CoA + histone H1	acetylation of histone H1 only in vitro	Homo sapiens	CoA + acetylhistone H1	-	?	320940	
2.3.1.48	acetyl-CoA + histone H1	histone H1 poor substrate	Homo sapiens GCN5	CoA + acetylhistone H1	-	?	320940	
2.3.1.48	acetyl-CoA + histone H1	acetylation of histone H1 only in vitro	Homo sapiens GCN5	CoA + acetylhistone H1	-	?	320940	
2.3.1.48	acetyl-CoA + histone H2A	-	Mus musculus	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	-	Homo sapiens	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	-	Saccharomyces cerevisiae	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	-	Aspergillus nidulans	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	-	Human Immunodeficiency Virus	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	enzyme form B nearly exclusively acetylates histones H4 and H2a	Bos taurus	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	histone H2A is a substrate for enzyme form A1	Physarum polycephalum	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	NuA4-like protein acetylates histone H4 and H2A	Saccharomyces cerevisiae	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	NuA4-like protein acetylates histone H4 and H2A	Tetrahymena thermophila	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	MYST-related histone acetyltransferase complex Tip60	Homo sapiens	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	acetylation at Lys5 by Tip60	Homo sapiens	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	-	Mus musculus C57BL/6	CoA + acetylhistone H2A	-	?	320938	
2.3.1.48	acetyl-CoA + histone H2A	-	Saccharomyces cerevisiae	Nalpha-acetylated-histone H2A + CoA	-	?	376144	
2.3.1.48	acetyl-CoA + histone H2B	-	Homo sapiens	CoA + acetylhistone H2B	-	?	320939	
2.3.1.48	acetyl-CoA + histone H2B	-	Saccharomyces cerevisiae	CoA + acetylhistone H2B	-	?	320939	
2.3.1.48	acetyl-CoA + histone H2B	histone H2B: poor substrate for enzyme form A2	Physarum polycephalum	CoA + acetylhistone H2B	-	?	320939	
2.3.1.48	acetyl-CoA + histone H2B	histone H2B: preferred substrate of enzyme form A	Saccharomyces cerevisiae	CoA + acetylhistone H2B	-	?	320939	
2.3.1.48	acetyl-CoA + histone H2B	GNAT-related histone acetyltransferase complexes SAGA, ADA or H2B	Saccharomyces cerevisiae	CoA + acetylhistone H2B	-	?	320939	
2.3.1.48	acetyl-CoA + histone H2B	GNAT-related histone acetyltransferase complexes STAGA or TFTC	Homo sapiens	CoA + acetylhistone H2B	-	?	320939	
2.3.1.48	acetyl-CoA + histone H3	-	Gallus gallus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Mammalia	CoA + acetylhistone H3	-	r	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Mus musculus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Homo sapiens	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Aspergillus nidulans	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Vitis vinifera	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Human immunodeficiency virus 1	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Tetrahymena sp.	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Human Immunodeficiency Virus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Toxoplasma gondii	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Arabidopsis thaliana	CoA + acetylhistone H3	residues K14, K18, and K23 of H3 are acetylated by domain C1 of isoform Idm1 in vitro	?	320936	
2.3.1.48	acetyl-CoA + histone H3	preferred substrate	Toxoplasma gondii	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	histone H1 is a better substrate than H3 or H4	Artemia salina	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	PCAF protein	Homo sapiens	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	Gcn5 protein: specific for Lys14 of histone H3	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	Gcn5 protein: preferred substrate, acetylation at Lys14	Drosophila melanogaster	CoA + acetylhistone H3	-	r	320936	
2.3.1.48	acetyl-CoA + histone H3	Gcn5 protein: preferred substrate, acetylation at Lys14	Mus musculus	CoA + acetylhistone H3	-	r	320936	
2.3.1.48	acetyl-CoA + histone H3	Gcn5 protein: preferred substrate, acetylation at Lys14	Homo sapiens	CoA + acetylhistone H3	-	r	320936	
2.3.1.48	acetyl-CoA + histone H3	Gcn5 protein: preferred substrate, acetylation at Lys14	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	r	320936	
2.3.1.48	acetyl-CoA + histone H3	Gcn5 protein: preferred substrate, acetylation at Lys14	Arabidopsis thaliana	CoA + acetylhistone H3	-	r	320936	
2.3.1.48	acetyl-CoA + histone H3	histone H3: preferred substrate	Rattus norvegicus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	histone H3: preferred substrate	Sus scrofa	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	histone H3: preferred substrate	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	enzyme form B, very low activity	Zea mays	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	histone H3 preferred substrate of enzyme form A	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	histone H3 is the preferred substrate of enzyme form A1 and A2	Physarum polycephalum	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	Lys14 of histone H3 and a peptide containing Lys14 thereof are the preferred substrates for Gnc5 and PCAF protein, as well as Gnc5 and PCAF catalytic domain	Homo sapiens	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	recombinant and native SAS complex acetylates Lys14	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	GNAT-related histone acetyltransferase complexes PCAF, STAGA or TFTC	Homo sapiens	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	GNAT-related histone acetyltransferase complexes SAGA, ADA or HAT-A2, MYST-related histone acetyltransferase complex NuA3	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	strong preference for free histones relative to chromatin substrate	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation at Lys9	Gallus gallus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation at Lys9	Arabidopsis thaliana	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys14 by tGCN5 in the consensus sequence QTARKSTGGK14APRKLASK	Tetrahymena thermophila	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys56	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys56	Candida albicans	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	CBP binds and acetylates histones at neural promoters, and regulates Corpus Callosum development. CBP binds to neuronal and glial promoters and globally promotes histone acetylation in the embryonic cortex, e.g. the beta-actin promoter, overview	Mus musculus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	H4R3 methylation, catalyzed by PRMT1, facilitates beta-globin transcription by regulating histone acetyltransferase binding, and histone H3 and H4 acetylation, overview	Mus musculus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	regulation, detailed overview. Acetylation and deacetylation events, in combination with other post-translational protein modifications, generate an NF-kappaB-signaling code and regulate NF-kappaB-dependent gene transcription in an inducer- and promoter-dependent manner, overview	Mammalia	CoA + acetylhistone H3	-	r	320936	
2.3.1.48	acetyl-CoA + histone H3	Rtt109 association with distinct histone chaperones directs substrate selection between N-terminal lysines, H3K9, H3K23, and those within the histone fold domain, H3K56	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	Rtt109 is specific for histone H3, acetylation at Lys9 and Lys56. RTT109 has functions in addition to maintaining genome stability	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation at Lys14 of histone H3	Arabidopsis thaliana	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys14 by tGCN5 in the consensus sequence QTARKSTGGK14APRKLASK. Phe125 and Phe164 interact with the substrate, but are not directly involved in the acetylation reaction, while residues Glu122, Val123 and Tyr160 are critical for catalysis	Tetrahymena thermophila	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys9 and Lys14	Mus musculus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys9 and Lys14 by PCAF. PCAF binds to dimethyl-Arg3 at histone H4 tails, dimethyl H4R3 provides a binding surface for PCAF and directly enhances histone H3 and H4 acetylation in vitro	Mus musculus	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	Rtt109 association with distinct histone chaperones directs substrate selection between N-terminal lysines, H3K9, H3K23, and those within the histone fold domain, H3K56. The sequence G-K-X-P within histone H3, which includes the primary Gcn5 substrate K14, makes several key contacts within the active site that are conserved with other GNAT members	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	Rtt109 is specific for histone H3, acetylation at Lys9 and Lys56	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	substrate is a H3 peptide	Homo sapiens	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	the sequence G-K-X-P within histone H3 makes several key contacts within the active site that are conserved in GNAT members including p/CAF	Homo sapiens	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	the sequence G-K-X-P within histone H3, which includes the primary Gcn5 substrate K14, makes several key contacts within the active site that are conserved in GNAT members	Tetrahymena sp.	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation at Lys18	Homo sapiens	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation at Lys18	Saccharomyces cerevisiae	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys23	Homo sapiens	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys9, Lys14, Lys18, Lys23, Lys27, Lys36, and Lys37	Drosophila melanogaster	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation at Lys4 and Lys9	Human immunodeficiency virus 1	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys56	Saccharomyces cerevisiae BY4705	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	PCAF protein	Homo sapiens GCN5	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Tetrahymena sp. GCN5	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	the sequence G-K-X-P within histone H3, which includes the primary Gcn5 substrate K14, makes several key contacts within the active site that are conserved in GNAT members	Tetrahymena sp. GCN5	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	-	Toxoplasma gondii ME49	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	preferred substrate	Toxoplasma gondii ME49	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	enzyme form B, very low activity	Zea mays Cuzco	CoA + acetylhistone H3	-	?	320936	
2.3.1.48	acetyl-CoA + histone H3	preferred substrate, the N-terminal substrate region plays an importsant role in enhanced affinity of the Gcn5/PCAF proteins for histone H3	Tetrahymena sp.	peptide CoA + acetylhistone H3 peptide	-	?	376146	
2.3.1.48	acetyl-CoA + histone H3	-	Toxoplasma gondii	CoA + acetyl-histone H3	-	?	434587	
2.3.1.48	acetyl-CoA + histone H3	-	Toxoplasma gondii ATCC 50611	CoA + acetyl-histone H3	-	?	434587	
2.3.1.48	acetyl-CoA + histone H3 N-terminal tail	50 mM Tris-HCl, pH 8.0, 30°C	Homo sapiens	CoA + acetylated histone H3 N-terminal tail	-	?	408280	
2.3.1.48	acetyl-CoA + histone H3 peptide	Lys14 of histone H3 and a peptide containing Lys14 thereof are the preferred substrates for Gnc5 and PCAF protein, as well as Gnc5 and PCAF catalytic domain	Homo sapiens	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	Lys14 of histone H3 and a peptide containing Lys14 thereof are the preferred substrates for Gnc5 and PCAF protein, as well as Gnc5 and PCAF catalytic domain	Saccharomyces cerevisiae	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptides H3p19, H3p27, H3p11 are substrates for the catalytic domain of Gcn5 and PCAF	Homo sapiens	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptides H3p19, H3p27, H3p11 are substrates for the catalytic domain of Gcn5 and PCAF	Saccharomyces cerevisiae	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptides H3p19, H3p27, H3p11 are substrates for the catalytic domain of Gcn5 and PCAF	Tetrahymena thermophila	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptide H3p20	Homo sapiens	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptide H3p20	Saccharomyces cerevisiae	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptide H3p20	Tetrahymena thermophila	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptides H3p19, H3p27, H3p11 are substrates for the catalytic domain of Gcn5 and PCAF	Homo sapiens GCN5	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptide H3p20	Homo sapiens GCN5	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptides H3p19, H3p27, H3p11 are substrates for the catalytic domain of Gcn5 and PCAF	Tetrahymena thermophila GCN5	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	peptide H3p20	Tetrahymena thermophila GCN5	CoA + acetylhistone H3 peptide	-	?	320937	
2.3.1.48	acetyl-CoA + histone H3 peptide	residues 1-21 of human histone H3	Homo sapiens	CoA + actylhistone H3	-	?	420200	
2.3.1.48	acetyl-CoA + histone H3 tail peptide	H3 peptide substrate, amino acid sequence ARTKQTARKSTGGKAPRKQL	Saccharomyces cerevisiae	CoA + acetylhistone H3 peptide	-	?	420201	
2.3.1.48	acetyl-CoA + histone H3-peptide	-	Homo sapiens	CoA + acetylhistone H3-peptide	-	?	451955	
2.3.1.48	acetyl-CoA + histone H3-peptide	-	Saccharomyces cerevisiae	CoA + acetylhistone H3-peptide	-	?	451955	
2.3.1.48	acetyl-CoA + histone H3-peptide	-	Homo sapiens	CoA + acetylhistone H3 -peptide	-	?	453926	
2.3.1.48	acetyl-CoA + histone H3-peptide	-	Saccharomyces cerevisiae	CoA + acetylhistone H3 -peptide	-	?	453926	
2.3.1.48	acetyl-CoA + histone H3-peptide	-	Homo sapiens GCN5	CoA + acetylhistone H3 -peptide	-	?	453926	
2.3.1.48	acetyl-CoA + histone H3-peptide p19	-	Homo sapiens	CoA + acetylhistone H3-peptide p19	-	?	451953	
2.3.1.48	acetyl-CoA + histone H3-peptide p19	-	Homo sapiens	CoA + acetylhistone H3 -peptide p19	-	?	453925	
2.3.1.48	acetyl-CoA + histone H3-peptide p20	-	Homo sapiens	CoA + acetylhistone H3 -peptide p20	-	?	453927	
2.3.1.48	acetyl-CoA + histone H3-peptide p20	-	Homo sapiens GCN5	CoA + acetylhistone H3 -peptide p20	-	?	453927	
2.3.1.48	acetyl-CoA + histone H3-peptide p27	-	Homo sapiens	CoA + acetylhistone H3 -peptide p27	-	?	451954	
2.3.1.48	acetyl-CoA + histone H4	-	Gallus gallus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Aspergillus nidulans	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Plasmodium falciparum	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Tetrahymena thermophila	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Tetrahymena thermophila	CoA + acetylhistone H4	-	r	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Human Immunodeficiency Virus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Plasmodium falciparum	CoA + acetylhistone H4	acetylates histone H4 in vitro at K5, K8, K12 and K16	?	320933	
2.3.1.48	acetyl-CoA + histone H4	highly specific for	Drosophila melanogaster	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	highly specific for	Pisum sativum	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	enzyme form B nearly exclusively acetylates histones H4 and H2a	Bos taurus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	Gcn5 protein acetylates H4 when purified and presented separately to the enzyme at Lys8 and Lys16	Drosophila melanogaster	CoA + acetylhistone H4	-	r	320933	
2.3.1.48	acetyl-CoA + histone H4	Gcn5 protein acetylates H4 when purified and presented separately to the enzyme at Lys8 and Lys16	Homo sapiens	CoA + acetylhistone H4	-	r	320933	
2.3.1.48	acetyl-CoA + histone H4	Gcn5 protein acetylates H4 when purified and presented separately to the enzyme at Lys8 and Lys16	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	r	320933	
2.3.1.48	acetyl-CoA + histone H4	Gcn5 protein acetylates H4 when purified and presented separately to the enzyme at Lys8 and Lys16	Arabidopsis thaliana	CoA + acetylhistone H4	-	r	320933	
2.3.1.48	acetyl-CoA + histone H4	NuA4-like protein acetylates histone H4 and H2A	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	NuA4-like protein acetylates histone H4 and H2A	Tetrahymena thermophila	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	SAS complex, native and recombinant, acetylates Lys16	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	histone H4: all of the acetate groups are introduced within the NH2-terminal amino acids 4 to 17	Drosophila melanogaster	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	enzyme form B has a marked specificity for histone H4	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	enzyme form B	Pisum sativum	CoA + acetylhistone H4	mono-, di- and triacetylated products	?	320933	
2.3.1.48	acetyl-CoA + histone H4	enzyme form B	Zea mays	CoA + acetylhistone H4	mono- and diacetylated products	?	320933	
2.3.1.48	acetyl-CoA + histone H4	enzyme form B is specific for histone H4	Rattus norvegicus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	enzyme form B is specific for histone H4	Physarum polycephalum	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	histone H4 is a poor substrate	Rattus norvegicus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	PCAF protein	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	histone H4 is the preferred substrate	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	histone H4 is the preferred substrate	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation of histone H4 by NuA4 is required for the cellular resistance to spindle stress. The NuA4 histone acetyltransferase subunit Yaf9, is required for the cellular response to spindle stress in yeast	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	exclusively acetylates of Lys16 of histone H4, the enzyme is required for bulk of H4 lysine 16 acetylation in vivo, role of SAS complex in antagonizing the speading of Sir proteins at silent loci in Saccharomyces cerevisiae	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	RmtA is specific for histone H4 with Arg3 as the methylation site. Methylation of histone H4 by recombinant RmtA affects the acetylation by p300/CBP, supporting aninterrelation of histone methylation and acetylation in transcriptional regulation. Important role of the enzyme for chromatin modulating activity	Aspergillus nidulans	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	specific acetylation of Lys16, reversible acetylation of histones play an important role in regulation of chromatin structure and function. HMOF has a role in DNA damage responseduring cell cycle progression	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	the level of HAT-B-dependent acK12H4 may be very low under normal growth condition	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetyltion of Lys16, acetylates free histones and weakly acetylates nucleosomes	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	MYST-related histone acetyltransferase complex NuA4 or SAS(SAS-I)	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	MYST-related histone acetyltransferase complex Tip60, GNAT-related histone acetyltransferase complex PCAF	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	RmtA is specific for histone H4 with Arg3 as the methylation site	Aspergillus nidulans	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	specifically acetylates Lys12, and to a lesser extent Lys5 of free, non-chromatin-bound histone H4	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation at Lys16 by MYST1 is essential for chromatin remodeling and is used for regulation of gene expression in eukaryotes. The nucleosome is a disc-shaped octamer consisting of two heterotetramers formed by histones H3/H4 and histones H2A and H2B	Drosophila melanogaster	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	both Lys12 and Lys5 of soluble, non-chromatin-bound histone H4 are in vivo targets of acetylation for the yeast HAT-B enzyme. Lys12/Lys5-acetylated histone H4 is bound to the HAT-B complex in the soluble cell fraction. Exchange of Lys for Arg at position 12 of histone H4 do not interfere with histone H4 association with the complex, but prevented acetylation on Lys5 by the HAT-B enzyme, in vivo as well as in vitro	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	H4R3 methylation, catalyzed by PRMT1, facilitates beta-globin transcription by regulating histone acetyltransferase binding, and histone H3 and H4 acetylation, overview	Mus musculus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	Hat1 is a primary enzyme for di-acetylating cytosolic histone H4 at Lys5 and Lys12 in the cytosol	Gallus gallus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	HBO1 is an H4-specific histone acetylase, and is a coactivator of the DNA replication licensing factor Cdt1. HBO1 acetylase activity is essential for DNA licensing of replication origins, where it controls H4 acetylation at the origins. H4 acetylation at origins is cell-cycle regulated, with maximal activity at the G1/S transition	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	HBO1 regulates global histone H4 acetylation	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	Mof is required for sex chromosome dosage compensation acting in the MSL complex, which also contains Msl1-3, Mle, and RNA, to acetylate H4K16 and to increase gene transcription from the single male X chromosome	Drosophila melanogaster	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	Mof is solely responsible for H4K16 acetylation in mouse blastocysts. Tip60 plays essential roles in cell cycle progression in vitro	Mus musculus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	MSL-associated MOF acetylates nucleosomal histone H4 almost exclusively on Lys16, while NSL-associated MOF exhibits a relaxed specificity and also acetylates nucleosomal histone H4 on Lys5 and Lys8	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	MYST1 specificity to Lys16 of histone H4 is not absolute, because in experiments in vitro the protein is also able to acetylate histones H3 and H2A, whereas in vivo only modification of histone H4 is specific. Acetylation at Lys16 by MYST1 is essential for chromatin remodeling and is used for regulation of gene expression in eukaryotes. The nucleosome is a disc-shaped octamer consisting of two heterotetramers formed by histones H3/H4 and histones H2A and H2B. All human autosomes are susceptible to histone H4 acetylation by Lys16 residue and acetyltransferase MYST1	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation at Lys16	Drosophila melanogaster	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation at Lys16	Mus musculus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation at Lys16 by MYST1	Drosophila melanogaster	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation at Lys16 by MYST1	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	activity with synthetic histone H4 tail peptide substrate of p300 that shows different degrees of autoacetylation, overview. Tyr1467 appears to serve as a general acid protonating the departing coenzyme A sulfur	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	full-length histone H4 is acetylated 2000fold faster than histone tail peptides	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	PCAF binds to dimethyl-Arg3 at histone H4 tails, dimethyl H4R3 provides a binding surface for PCAF and directly enhances histone H3 and H4 acetylation in vitro	Mus musculus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	recombinant ATAC2 has a weak HAT activity directed to histone H4	Mus musculus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	recombinant ATAC2 has a weak HAT activity directed to histone H4	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	recombinant Hbo1 can acetylate nucleosomal histone H4 in vitro, with a preference for Lys5 and Lys12, mapping of acetylation sites, overview	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	substrate is a H4 peptide	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	substrate is H4 peptide	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	substrates are synthetic N-terminal H4 peptides. The HAT-B complex acetylates only Lys12, recombinant Hat1 is able to modify Lys12 and Lys5. Exchange of Lys for Arg at position 12 of histone H4 does not interfere with histone H4 association with the complex, but prevents acetylation on Lys5 by the HAT-B enzyme, in vivo as well as in vitro	Saccharomyces cerevisiae	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation at Lys14	Gallus gallus	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation at Lys14	Arabidopsis thaliana	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation of Lys16	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation of Lys16	Homo sapiens	CoA + acetylhistone H4	in the assay the CoA thiolate is detected by the thiol sensitive fluorescent dye 7-diethylamino-3-(4'-maleimidylphenyl)-4-methylcoumarin	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation of Lys5, Lys8, Lys12, and Lys16	Drosophila melanogaster	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	the enzyme PCAF acetylates histone H4 at lysine 8	Homo sapiens	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	histone H4 is the preferred substrate	Homo sapiens GCN5	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	PCAF protein	Homo sapiens GCN5	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	-	Tetrahymena thermophila GCN5	CoA + acetylhistone H4	-	?	320933	
2.3.1.48	acetyl-CoA + histone H4	enzyme form B	Zea mays Cuzco	CoA + acetylhistone H4	mono- and diacetylated products	?	320933	
2.3.1.48	acetyl-CoA + histone H4	acetylation of N-terminal Ser	Saccharomyces cerevisiae	Nalpha-acetylated-histone H4 + CoA	-	?	376147	
2.3.1.48	acetyl-CoA + histone H4	-	Saccharomyces cerevisiae	peptide CoA + acetylhistone H4 peptide	-	?	376148	
2.3.1.48	acetyl-CoA + histone H4	specific acetylation of Lys16	Homo sapiens	peptide CoA + acetylhistone H4 peptide	-	?	376148	
2.3.1.48	acetyl-CoA + histone H4 peptide	residues 1-20 of histone H4	Homo sapiens	CoA + acetylpeptide of histone H4	-	?	420203	
2.3.1.48	acetyl-CoA + histone H4 peptide	residues 2-24 of human histone H4	Homo sapiens	CoA + actylhistone H4	-	?	420204	
2.3.1.48	acetyl-CoA + histone H4 peptide	a synthetic peptide corresponding to the first 20 amino acids of the histone H4 N-terminus	Homo sapiens	CoA + acetylhistone H4 peptide	-	?	435247	
2.3.1.48	acetyl-CoA + N-terminal L-lysyl-[beta-catenin]	-	Homo sapiens	CoA + H+ + N-terminal Nalpha-acetyl-lysyl-[beta-catenin]	-	ir	454257	
2.3.1.48	acetyl-CoA + N-terminal L-lysyl-[Hsp70]	-	Homo sapiens	CoA + H+ + N-terminal Nalpha-acetyl-L-lysyl-[Hsp70]	-	ir	454258	
2.3.1.48	acetyl-CoA + N-terminal L-lysyl-[Hsp70]	acetylation of residue K77	Homo sapiens	CoA + H+ + N-terminal Nalpha-acetyl-L-lysyl-[Hsp70]	-	ir	454258	
2.3.1.48	acetyl-CoA + NF-kB p65	acetylation of the subunit at Lys310 by p300 or PCAF	Mammalia	CoA + acetyl-NF-kB p65	-	?	408291	
2.3.1.48	acetyl-CoA + non-histone chromatin high-mobility group protein	or chymotryptic peptides of	Bos taurus	CoA + acetylated non-histone chromatin high-mobility group protein	-	?	320932	
2.3.1.48	acetyl-CoA + p50 protein	acetylation of p50 by p300 independent of shear stress	Homo sapiens	CoA + acetyl-p50 protein	-	?	407093	
2.3.1.48	acetyl-CoA + p50 protein	acetylation of histones H4 at the site of SSRE within the eNOS promoter	Homo sapiens	CoA + acetyl-p50 protein	-	?	407093	
2.3.1.48	acetyl-CoA + p53	p53 protein-acetylation of the Lys120 residue	Homo sapiens	CoA + acetyl-p53	-	?	407094	
2.3.1.48	acetyl-CoA + p53	p53 protein-acetylation of the Lys120 residue is carried out by acetyltransferases MYST1 and TIP60 to approximately equal extent	Homo sapiens	CoA + acetyl-p53	-	?	407094	
2.3.1.48	acetyl-CoA + p65 protein	acetylation of p65 by p300 during translocation into the nuclei in response to shear stress	Homo sapiens	CoA + acetyl-p65 protein	-	?	407095	
2.3.1.48	acetyl-CoA + p65 protein	acetylation of histones H3 at the site of SSRE within the eNOS promoter	Homo sapiens	CoA + acetyl-p65 protein	-	?	407095	
2.3.1.48	acetyl-CoA + peptide H4-20	histone H4-derived peptide substrate	Human immunodeficiency virus 1	CoA + acetylpeptide H4-20	-	?	435269	
2.3.1.48	acetyl-CoA + poly-L-lysine	enzyme form A, not enzyme form B1 and B2	Rattus norvegicus	CoA + N6-acetyllysine	-	?	320944	
2.3.1.48	acetyl-CoA + protamine sulfate	enzyme form A, not enzyme form B	Saccharomyces cerevisiae	?	-	?	320943	
2.3.1.48	acetyl-CoA + protamine sulfate	enzyme form A, not enzyme form B	Pisum sativum	?	-	?	320943	
2.3.1.48	acetyl-CoA + protein p53	-	Homo sapiens	CoA + acetylprotein p53	-	r	320948	
2.3.1.48	acetyl-CoA + protein p53	-	Homo sapiens	CoA + acetylprotein p53	-	?	320948	
2.3.1.48	acetyl-CoA + protein p53	substrate is a DNA-binding transcription activator and a tumor suppressor	Homo sapiens	CoA + acetylprotein p53	-	?	320948	
2.3.1.48	acetyl-CoA + protein p53	peptide of p53 is a substrate for PCAF catalytic domain	Homo sapiens	CoA + acetylprotein p53	-	?	320948	
2.3.1.48	acetyl-CoA + putrescine	-	Acinetobacter baumannii	?	-	?	455225	
2.3.1.48	acetyl-CoA + SGRGKGGKGLGKGGAKRHRK	-	Homo sapiens	CoA + SGRGKGGKGLGKGGAKRHR(acK)	-	?	455228	
2.3.1.48	acetyl-CoA + spermidine	-	Rattus norvegicus	?	-	?	320942	
2.3.1.48	acetyl-CoA + spermidine	-	Bos taurus	?	-	?	320942	
2.3.1.48	acetyl-CoA + spermidine	-	Acinetobacter baumannii	?	-	?	320942	
2.3.1.48	acetyl-CoA + spermidine	enzyme form B, not enzyme form A	Pisum sativum	?	-	?	320942	
2.3.1.48	acetyl-CoA + spermine	-	Rattus norvegicus	?	-	?	320941	
2.3.1.48	acetyl-CoA + spermine	-	Bos taurus	?	-	?	320941	
2.3.1.48	acetyl-CoA + spermine	-	Acinetobacter baumannii	?	-	?	320941	
2.3.1.48	acetyl-CoA + spermine	enzyme form A inactive, enzyme form B active	Pisum sativum	?	-	?	320941	
2.3.1.48	acetyl-CoA + transcription factor TFIIE	substrate is a basal transcription factor	Homo sapiens	CoA + acetylated transcription factor TFIIE	-	?	320949	
2.3.1.48	acetyl-CoA + transcription factor TFIIF	substrate is a basal transcription factor	Homo sapiens	CoA + acetylated transcription factor TFIIF	-	?	320950	
2.3.1.48	acetyl-CoA + VPAFKPGK	histone-like protein HBsu peptide	Bacillus subtilis	CoA + VPAFKPGKac	-	?	455243	
2.3.1.48	acetyl-CoA + [alpha-tubulin]-L-lysine	-	Saccharomyces cerevisiae	CoA + [alpha-tubulin]-N6-acetyl-L-lysine	-	?	419325	
2.3.1.48	acetyl-CoA + [alpha-tubulin]-L-lysine	-	Saccharomyces cerevisiae D273-10B/A1	CoA + [alpha-tubulin]-N6-acetyl-L-lysine	-	?	419325	
2.3.1.48	acetyl-CoA + [alpha-tubulin]-L-lysine	-	Saccharomyces cerevisiae W303-1A	CoA + [alpha-tubulin]-N6-acetyl-L-lysine	-	?	419325	
2.3.1.48	acetyl-CoA + [alpha-tubulin]-L-lysine40	-	Homo sapiens	CoA + [alpha-tubulin]-N6-acetyl-L-lysine40	-	?	435224	
2.3.1.48	acetyl-CoA + [alpha-tubulin]-L-lysine40	KAT2A acetylates Lys40 of TUBA	Homo sapiens	CoA + [alpha-tubulin]-N6-acetyl-L-lysine40	-	?	435224	
2.3.1.48	acetyl-CoA + [ATM]-L-lysine	-	Homo sapiens	CoA + [ATM]-N6-acetyl-L-lysine	-	?	454265	
2.3.1.48	acetyl-CoA + [ATM]-L-lysine	-	Drosophila melanogaster	CoA + [ATM]-N6-acetyl-L-lysine	-	?	454265	
2.3.1.48	acetyl-CoA + [AuA]-L-lysine125	lysine residues at positions 75 and 125 of aurora kinase A (AuA) are acetylated by ARD1, mutational analysis with AUA mutant substrates, overview	Homo sapiens	CoA + [AuA]-N6-acetyl-L-lysine125	-	?	454266	
2.3.1.48	acetyl-CoA + [AuA]-L-lysine75	lysine residues at positions 75 and 125 of aurora kinase A (AuA) are acetylated by ARD1, mutational analysis with AUA mutant substrates, overview	Homo sapiens	CoA + [AuA]-N6-acetyl-L-lysine75	-	?	454267	
2.3.1.48	acetyl-CoA + [beta-catenin]-L-lysine	-	Homo sapiens	CoA + [beta-catenin]-N6-acetyl-L-lysine	-	?	454268	
2.3.1.48	acetyl-CoA + [c-myc]-L-lysine	-	Homo sapiens	CoA + [c-myc]-N6-acetyl-L-lysine	-	?	454270	
2.3.1.48	acetyl-CoA + [c-myc]-L-lysine	-	Drosophila melanogaster	CoA + [c-myc]-N6-acetyl-L-lysine	-	?	454270	
2.3.1.48	acetyl-CoA + [CDC6]-L-lysine	-	Homo sapiens	CoA + [CDC6]-N6-acetyl-L-lysine	-	?	454271	
2.3.1.48	acetyl-CoA + [CDC6]-L-lysine14	-	Homo sapiens	CoA + [CDC6]-N6-acetyl-L-lysine14	-	?	455232	
2.3.1.48	acetyl-CoA + [CDC6]-L-lysine14	-	Mus musculus	CoA + [CDC6]-N6-acetyl-L-lysine14	-	?	455232	
2.3.1.48	acetyl-CoA + [connexin 43]-L-lysine	-	Homo sapiens	CoA + [connexin 43]-N6-acetyl-L-lysine	-	?	454272	
2.3.1.48	acetyl-CoA + [DNMT1]-L-lysine	-	Homo sapiens	CoA + [DNMT1]-N6-acetyl-L-lysine	-	?	454273	
2.3.1.48	acetyl-CoA + [DNMT1]-L-lysine	-	Drosophila melanogaster	CoA + [DNMT1]-N6-acetyl-L-lysine	-	?	454273	
2.3.1.48	acetyl-CoA + [E2F1]-L-lysine	-	Homo sapiens	CoA + [E2F1]-N6-acetyl-L-lysine	-	?	454274	
2.3.1.48	acetyl-CoA + [E2F1]-L-lysine	-	Drosophila melanogaster	CoA + [E2F1]-N6-acetyl-L-lysine	-	?	454274	
2.3.1.48	acetyl-CoA + [EGR2]-L-lysine	-	Mus musculus	CoA + [EGR2]-N6-acetyl-L-lysine	-	?	454275	
2.3.1.48	acetyl-CoA + [EGR2]-L-lysine	-	Mus musculus C57BL/6	CoA + [EGR2]-N6-acetyl-L-lysine	-	?	454275	
2.3.1.48	acetyl-CoA + [Foxo1]-L-lysine	-	Homo sapiens	CoA + [Foxo1]-N6-acetyl-L-lysine	-	?	454276	
2.3.1.48	acetyl-CoA + [Geminin]-L-lysine14	-	Homo sapiens	CoA + [Geminin]-N6-acetyl-L-lysine14	-	?	455234	
2.3.1.48	acetyl-CoA + [Geminin]-L-lysine14	-	Mus musculus	CoA + [Geminin]-N6-acetyl-L-lysine14	-	?	455234	
2.3.1.48	acetyl-CoA + [HBsu]-L-lysine	essential histone-like protein HBsu contains seven acetylation sites in vivo, mutational analysis using mutants hbsK86Q, hbsK41Q, hbsK3Q, hbsK41R, and hbsK37R	Bacillus subtilis	CoA + [HBsu]-N6-acetyl-L-lysine	-	?	454277	
2.3.1.48	acetyl-CoA + [HBsu]-L-lysine	histone-like protein HBsu	Bacillus subtilis	CoA + [HBsu]-N6-acetyl-L-lysine	-	?	454277	
2.3.1.48	acetyl-CoA + [HBsu]-L-lysine	essential histone-like protein HBsu contains seven acetylation sites in vivo, mutational analysis using mutants hbsK86Q, hbsK41Q, hbsK3Q, hbsK41R, and hbsK37R	Bacillus subtilis 168	CoA + [HBsu]-N6-acetyl-L-lysine	-	?	454277	
2.3.1.48	acetyl-CoA + [HBsu]-L-lysine	histone-like protein HBsu	Bacillus subtilis 168	CoA + [HBsu]-N6-acetyl-L-lysine	-	?	454277	
2.3.1.48	acetyl-CoA + [histone H2A]-L-lysine5	-	Homo sapiens	CoA + [histone H2A]-N6-acetyl-L-lysine5	-	ir	454278	
2.3.1.48	acetyl-CoA + [histone H2A]-L-lysine5	-	Homo sapiens	CoA + [histone H2A]-N6-acetyl-L-lysine5	-	?	454278	
2.3.1.48	acetyl-CoA + [histone H2B]-L-lysine	-	Homo sapiens	CoA + [histone H2B]-N6-acetyl-L-lysine	-	?	454281	
2.3.1.48	acetyl-CoA + [histone H2B]-L-lysine12	-	Homo sapiens	CoA + [histone H2B]-N6-acetyl-L-lysine12	-	?	454279	
2.3.1.48	acetyl-CoA + [histone H2B]-L-lysine15	-	Homo sapiens	CoA + [histone H2B]-N6-acetyl-L-lysine15	-	?	454280	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine	-	?	454288	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine	-	Mus musculus	CoA + [histone H3]-N6-acetyl-L-lysine	-	?	454288	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine	-	Saccharomyces cerevisiae	CoA + [histone H3]-N6-acetyl-L-lysine	-	?	454288	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine	-	Drosophila melanogaster	CoA + [histone H3]-N6-acetyl-L-lysine	-	?	454288	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H3]-N6-acetyl-L-lysine	-	?	454288	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine13	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine13	-	ir	455235	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine14	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine14	-	ir	454282	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine14	-	Arabidopsis thaliana	CoA + [histone H3]-N6-acetyl-L-lysine14	-	?	454282	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine14	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine14	-	?	454282	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine14	-	Plasmodium falciparum	CoA + [histone H3]-N6-acetyl-L-lysine14	-	?	454282	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine14	-	Mus musculus	CoA + [histone H3]-N6-acetyl-L-lysine14	-	?	454282	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine14	-	Saccharomyces cerevisiae	CoA + [histone H3]-N6-acetyl-L-lysine14	-	?	454282	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine14	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H3]-N6-acetyl-L-lysine14	-	?	454282	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine18	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine18	-	ir	454283	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine18	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine18	-	?	454283	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine20	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine20	-	?	454284	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine23	-	Saccharomyces cerevisiae	CoA + [histone H3]-N6-acetyl-L-lysine23	-	?	454285	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine23	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H3]-N6-acetyl-L-lysine23	-	?	454285	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine27	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine27	-	ir	455236	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine27	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine27	-	?	455236	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine56	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine56	-	ir	454286	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine56	-	Saccharomyces cerevisiae	CoA + [histone H3]-N6-acetyl-L-lysine56	-	?	454286	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine56	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H3]-N6-acetyl-L-lysine56	-	?	454286	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine79	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine79	-	ir	455237	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine9	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine9	-	ir	454287	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine9	-	Arabidopsis thaliana	CoA + [histone H3]-N6-acetyl-L-lysine9	-	?	454287	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine9	-	Homo sapiens	CoA + [histone H3]-N6-acetyl-L-lysine9	-	?	454287	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine9	-	Saccharomyces cerevisiae	CoA + [histone H3]-N6-acetyl-L-lysine9	-	?	454287	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine9	-	Plasmodium falciparum	CoA + [histone H3]-N6-acetyl-L-lysine9	-	?	454287	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine9	-	Toxoplasma gondii	CoA + [histone H3]-N6-acetyl-L-lysine9	-	?	454287	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine9	-	Ictidomys tridecemlineatus	CoA + [histone H3]-N6-acetyl-L-lysine9	-	?	454287	
2.3.1.48	acetyl-CoA + [histone H3]-L-lysine9	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H3]-N6-acetyl-L-lysine9	-	?	454287	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysin16	-	Mus musculus	CoA + [histone H4]-N6-acetyl-L-lysine16	-	?	454289	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine	-	Saccharomyces cerevisiae	CoA + [histone H4]-N6-acetyl-L-lysine	-	?	454296	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine	-	?	454296	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine	-	Mus musculus	CoA + [histone H4]-N6-acetyl-L-lysine	-	?	454296	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine	-	Drosophila melanogaster	CoA + [histone H4]-N6-acetyl-L-lysine	-	?	454296	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine	-	Saccharomyces cerevisiae BY4741	CoA + [histone H4]-N6-acetyl-L-lysine	-	?	454296	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H4]-N6-acetyl-L-lysine	-	?	454296	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine12	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine12	-	ir	454290	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine12	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine12	-	?	454290	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine12	-	Saccharomyces cerevisiae	CoA + [histone H4]-N6-acetyl-L-lysine12	-	?	454290	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine12	-	Drosophila melanogaster	CoA + [histone H4]-N6-acetyl-L-lysine12	-	?	454290	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine12	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H4]-N6-acetyl-L-lysine12	-	?	454290	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine16	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine16	-	ir	454292	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine16	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine16	-	?	454292	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine16	-	Drosophila melanogaster	CoA + [histone H4]-N6-acetyl-L-lysine16	-	?	454292	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine16	-	Mus musculus	CoA + [histone H4]-N6-acetyl-L-lysine16	-	?	454292	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine16	main substrate	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine16	-	?	454292	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine16	main substrate	Drosophila melanogaster	CoA + [histone H4]-N6-acetyl-L-lysine16	-	?	454292	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine5	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine5	-	ir	454293	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine5	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine5	-	?	454293	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine5	-	Saccharomyces cerevisiae	CoA + [histone H4]-N6-acetyl-L-lysine5	-	?	454293	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine5	-	Drosophila melanogaster	CoA + [histone H4]-N6-acetyl-L-lysine5	-	?	454293	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine5	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H4]-N6-acetyl-L-lysine5	-	?	454293	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine8	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine8	-	ir	454295	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine8	-	Homo sapiens	CoA + [histone H4]-N6-acetyl-L-lysine8	-	?	454295	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine8	-	Saccharomyces cerevisiae	CoA + [histone H4]-N6-acetyl-L-lysine8	-	?	454295	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine8	-	Drosophila melanogaster	CoA + [histone H4]-N6-acetyl-L-lysine8	-	?	454295	
2.3.1.48	acetyl-CoA + [histone H4]-L-lysine8	-	Saccharomyces cerevisiae ATCC 204508	CoA + [histone H4]-N6-acetyl-L-lysine8	-	?	454295	
2.3.1.48	acetyl-CoA + [histone peptide H3-20]-L-lysine	-	Homo sapiens	CoA + [histone peptide H3-20]-N6-acetyl-L-lysine	-	?	455238	
2.3.1.48	acetyl-CoA + [histone peptide H3-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H3-20]-N6-acetyl-L-lysine	-	?	455238	
2.3.1.48	acetyl-CoA + [histone peptide H4-20]-L-lysine	-	Homo sapiens	CoA + [histone peptide H4-20]-N6-acetyl-L-lysine	-	?	455239	
2.3.1.48	acetyl-CoA + [histone peptide H4-20]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [histone peptide H4-20]-N6-acetyl-L-lysine	-	?	455239	
2.3.1.48	acetyl-CoA + [Hsp70]-L-lysine	difference in the acetylation of Hsp70 with or without rhARD1 can be observed at low ratio of enzyme: substrate up to 1:25 but not at that of higher ratio over 1:25. The enzyme targets Lys77 of Hsp70, the hARD1/NAA10-mediated catalysis of Hsp70 is abolished with K77R mutation in Hsp70	Homo sapiens	CoA + [Hsp70]-N6-acetyl-L-lysine	-	?	455240	
2.3.1.48	acetyl-CoA + [MCM2]-L-lysine14	-	Homo sapiens	CoA + [MCM2]-N6-acetyl-L-lysine14	-	?	455241	
2.3.1.48	acetyl-CoA + [MCM2]-L-lysine14	-	Mus musculus	CoA + [MCM2]-N6-acetyl-L-lysine14	-	?	455241	
2.3.1.48	acetyl-CoA + [NFkappaB]-L-lysine	-	Homo sapiens	CoA + [NFkappaB]-N6-acetyl-L-lysine	-	?	454297	
2.3.1.48	acetyl-CoA + [ORC2]-L-lysine14	-	Homo sapiens	CoA + [ORC2]-N6-acetyl-L-lysine14	-	?	455242	
2.3.1.48	acetyl-CoA + [ORC2]-L-lysine14	-	Mus musculus	CoA + [ORC2]-N6-acetyl-L-lysine14	-	?	455242	
2.3.1.48	acetyl-CoA + [p27]-L-lysine	-	Homo sapiens	CoA + [p27]-N6-acetyl-L-lysine	-	?	454298	
2.3.1.48	acetyl-CoA + [p53]-L-lysine	-	Homo sapiens	CoA + [p53]-N6-acetyl-L-lysine	-	?	454300	
2.3.1.48	acetyl-CoA + [p53]-L-lysine	-	Drosophila melanogaster	CoA + [p53]-N6-acetyl-L-lysine	-	?	454300	
2.3.1.48	acetyl-CoA + [p53]-L-lysine120	-	Homo sapiens	CoA + [p53]-N6-acetyl-L-lysine120	-	?	454299	
2.3.1.48	acetyl-CoA + [p53]-L-lysine120	-	Drosophila melanogaster	CoA + [p53]-N6-acetyl-L-lysine120	-	?	454299	
2.3.1.48	acetyl-CoA + [PGC-1alpha]-L-lysine	-	Homo sapiens	CoA + [PGC-1alpha]-N6-acetyl-L-lysine	-	?	454301	
2.3.1.48	acetyl-CoA + [PGC-1]-L-lysine	-	Homo sapiens	CoA + [PGC-1]-N6-acetyl-L-lysine	-	?	454302	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Homo sapiens	CoA + [protein]-N6-acetyl-L-lysine	-	ir	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Saccharomyces cerevisiae	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Homo sapiens	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Mus musculus	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Bacillus subtilis	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Toxoplasma gondii	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Ictidomys tridecemlineatus	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Pseudomonas aeruginosa	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	endogenous GCN5 and EGR2 in iNKT cells	Mus musculus	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	substrate of wild-type enzyme GCN5 and enzyme mutant T612G	Homo sapiens	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Pseudomonas aeruginosa ATCC 15692	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Bacillus subtilis 168	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Saccharomyces cerevisiae BY4741	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Pseudomonas aeruginosa 1C	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Pseudomonas aeruginosa PRS 101	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Saccharomyces cerevisiae D273-10B/A1	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Pseudomonas aeruginosa DSM 22644	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Pseudomonas aeruginosa CIP 104116	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Pseudomonas aeruginosa LMG 12228	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Mus musculus C57BL/6	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	endogenous GCN5 and EGR2 in iNKT cells	Mus musculus C57BL/6	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Pseudomonas aeruginosa JCM 14847	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [protein]-L-lysine	-	Saccharomyces cerevisiae W303-1A	CoA + [protein]-N6-acetyl-L-lysine	-	?	454303	
2.3.1.48	acetyl-CoA + [PTEN]-L-lysine	acetylation of the oncosuppressor protein PTEN on two lysine residues (Lys125 and Lys128)	Homo sapiens	CoA + [PTEN]-N6-acetyl-L-lysine	-	?	454304	
2.3.1.48	acetyl-CoA + [STAT3]-L-lysine	-	Homo sapiens	CoA + [STAT3]-N6-acetyl-L-lysine	-	?	454306	
2.3.1.48	acetyl-CoA + [TIP5]-L-lysine	-	Homo sapiens	CoA + [TIP5]-N6-acetyl-L-lysine	-	?	454307	
2.3.1.48	acetyl-CoA + [TIP5]-L-lysine	-	Drosophila melanogaster	CoA + [TIP5]-N6-acetyl-L-lysine	-	?	454307	
2.3.1.48	acetyl-CoA + [TRRAP]-L-lysine	-	Homo sapiens	CoA + [TRRAP]-N6-acetyl-L-lysine	-	?	454308	
2.3.1.48	acetyl-CoA + [TRRAP]-L-lysine	-	Drosophila melanogaster	CoA + [TRRAP]-N6-acetyl-L-lysine	-	?	454308	
2.3.1.48	activated RNA polymerase II transcriptional coactivator p15 + 4-pentynoyl-CoA	-	Saccharomyces cerevisiae	?	-	?	420234	
2.3.1.48	alpha-tubulin + acetyl-CoA	-	Homo sapiens	acetyl-alpha-tubulin + CoA	-	?	387853	
2.3.1.48	alpha-tubulin + acetyl-CoA	-	Saccharomyces cerevisiae	acetyl-alpha-tubulin + CoA	-	?	387853	
2.3.1.48	androgen receptor + acetyl-CoA	receptor signaling in prostate cancer cells is augmented by the androgen receptor coactivator p300, which transactivates and acetylates the androgen receptor in the presence of 100 nM dihydrotestosterone, involvement of p300 in neuropeptide activation of androgen receptor signaling, overview	Homo sapiens	acetylated androgen receptor + CoA	-	?	386230	
2.3.1.48	androgen receptor + acetyl-CoA	the KLKK motif of androgen receptor protein is both necessary and sufficient for acetylation by p300 in the presence of 100 nM dihydrotestosterone	Homo sapiens	acetylated androgen receptor + CoA	-	?	386230	
2.3.1.48	ATM kinase + acetyl-CoA	ATM protein kinase regulates the cell’s response to DNA damage through the phosphorylation of proteins involved in cell-cycle checkpoints and DNA repair, suppression of Tip60 blocks the activation of ATM’s kinase activity, ATM autophosphorylation e.g. at Ser1981, and prevents the ATM-dependent phosphorylation of p53 and chk2, inactivation of Tip60 sensitizes cells to ionizing radiation, overview	Homo sapiens	acetylated ATM kinase + CoA	-	?	386237	
2.3.1.48	ATM kinase + acetyl-CoA	the ataxia telangiectasia mutant, i.e. ATM, protein kinase, ATM forms a stable complex with Tip60 through the conserved, highly required FATC domain of ATM, the interaction between ATM and Tip60 is not regulated in response to DNA damage, but is specifically induced by DNA damage, overview, mutations in the FATC domain that abolish the interaction between ATM and Tip60	Homo sapiens	acetylated ATM kinase + CoA	-	?	386237	
2.3.1.48	H4 peptide + acetyl-CoA	-	Homo sapiens	?	-	?	420763	
2.3.1.48	H4 peptide + acetyl-CoA	-	Saccharomyces cerevisiae	?	-	?	420763	
2.3.1.48	histone + acetyl-CoA	-	Homo sapiens	acetyl-histone + CoA	-	?	386502	
2.3.1.48	histone + acetyl-CoA	-	Arabidopsis thaliana	acetyl-histone + CoA	-	?	386502	
2.3.1.48	histone + acetyl-CoA	-	Saccharomyces cerevisiae	acetyl-histone + CoA	-	?	386502	
2.3.1.48	histone + acetyl-CoA	histone acetylation is an important posttranslational modification correlated with gene activation, the HAC1 is involved in the regulation of flowering time via repression of flowering locus C, the enzyme participates in many physiological processes, including proliferation, differentiation, and apoptosis	Arabidopsis thaliana	acetyl-histone + CoA	-	?	386502	
2.3.1.48	histone + acetyl-CoA	key enzyme in post-translational modification of histones associated with transcriptionally active genes	Saccharomyces cerevisiae	acetyl-histone + CoA	-	?	386502	
2.3.1.48	histone + acetyl-CoA	phosphorylation of p300 at Ser1834 by the kinase Akt is essential for its histone acetyltransferase and transcriptional activity	Homo sapiens	acetyl-histone + CoA	-	?	386502	
2.3.1.48	histone + acetyl-CoA	histones from the Hela cell core	Homo sapiens	acetyl-histone + CoA	-	?	386502	
2.3.1.48	histone + propionyl-CoA	-	Saccharomyces cerevisiae	propionyl-histone + CoA	-	?	388892	
2.3.1.48	histone H2A + acetyl-CoA	acetylation of the tail of the histone, the enzyme is organized in the NuA4 subcomplex acting on the nucleosome, overview	Saccharomyces cerevisiae	acetyl-histone H2A + CoA	-	?	388893	
2.3.1.48	histone H2B + acetyl-CoA	acetylation of the tail of the histone, the enzyme is organized in the catalytic Ada2/Ada3/Gcn5 subcomplex of SAGA acting on the nucleosome, overview	Saccharomyces cerevisiae	acetyl-histone H2B + CoA	-	?	388895	
2.3.1.48	histone H3 + acetyl-CoA	-	Homo sapiens	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 + acetyl-CoA	-	Saccharomyces cerevisiae	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 + acetyl-CoA	regulation	Rattus norvegicus	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 + acetyl-CoA	acetylation of Lys9, and Lys14	Drosophila melanogaster	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 + acetyl-CoA	acetylation of Lys9, and Lys14	Homo sapiens	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 + acetyl-CoA	the enzyme is involved in ethanol-induced acetylation of histone H3 in hepatocytes, potential mechanism for gene expression activation by the enzyme, overview	Rattus norvegicus	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 + acetyl-CoA	acetylation at Lys9	Rattus norvegicus	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 + acetyl-CoA	acetylation at Lys9 and Lys14	Rattus norvegicus	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 + acetyl-CoA	acetylation of the tail of the histone, the enzyme is organized in the catalytic Ada2/Ada3/Gcn5 subcomplex of SAGA acting on the nucleosome, overview	Saccharomyces cerevisiae	acetyl-histone H3 + CoA	-	?	386505	
2.3.1.48	histone H3 tail peptide + acetyl-CoA	-	Saccharomyces cerevisiae	acetyl-histone H3 tail peptide + CoA	-	?	388897	
2.3.1.48	histone H3.2 + 4-pentynoyl-CoA	-	Saccharomyces cerevisiae	?	-	?	420776	
2.3.1.48	histone H4 + acetyl-CoA	-	Mus musculus	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	-	Homo sapiens	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	-	Schizosaccharomyces pombe	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	-	Saccharomyces cerevisiae	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	acetylation of Lys5, Lys8, and Lys12, Gcn5 and transcriptional adaptor Ada2a are involved in nucleosomal histone H4 acetylation	Drosophila melanogaster	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	acetylation at Lys5 and Lys12, acetylation by Hat1 requires positively charged amino acids at positions 8 and 16 of the H4 tail	Schizosaccharomyces pombe	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	acetylation at Lys8, NCOAT has the ability to directly associate with both an acetylated and unacetylated histone H4 tail in vitro without tequiring acetyl-lysine contacts, binding and interaction mechanism, overview	Mus musculus	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	acetylation of Lys5, Lys8, and Lys12	Drosophila melanogaster	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	acetylation of Lys5, Lys8, and Lys12	Homo sapiens	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 + acetyl-CoA	acetylation of the tail of the histone, the enzyme is organized in the NuA4 subcomplex acting on the nucleosome, overview	Saccharomyces cerevisiae	acetyl-histone H4 + CoA	-	?	386506	
2.3.1.48	histone H4 N-terminal peptide + acetyl-CoA	N-terminal peptide of histone H4 of different length and sequence, prepared in HeLa cell extract, overview, acetylation by Hat1 requires positively charged amino acids at positions 8 and 16 of the H4 tail, substituting glutamine for lysine at Lys8 and Lys16 dramatically reduces the ability of yHat1p to acetylate the H4 tail peptide, phosphorylation of Ser1 also reduces the acetylation of H4 peptides	Schizosaccharomyces pombe	acetyl-histone H4 N-terminal peptide + CoA	-	?	388898	
2.3.1.48	isoform 1 of DNA polymerase zeta catalytic subunit + 4-pentynoyl-CoA	-	Saccharomyces cerevisiae	?	-	?	420806	
2.3.1.48	isoform 1 of transcription factor BTF3 + 4-pentynoyl-CoA	-	Saccharomyces cerevisiae	?	-	?	420807	
2.3.1.48	isoform 2 of protein SET + 4-pentynoyl-CoA	-	Saccharomyces cerevisiae	?	-	?	420808	
2.3.1.48	isoform long of antigen KI-67 + 4-pentynoyl-CoA	-	Saccharomyces cerevisiae	?	-	?	420809	
2.3.1.48	additional information	diaminodipropylamine and 1,3-propanediamine are no substrates	Rattus norvegicus	?	-	?	89	
2.3.1.48	additional information	HeLa nucleosome or core histones are no substrate for recombinant SAS complex	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	protamine, bovine serum albumin, and ubiquitin are no substrates	Bos taurus	?	-	?	89	
2.3.1.48	additional information	for acetylation activity of Sas2, Sas4 is absolutely required, while Sas5 stimulate	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	Gcn5 is a coactivator of transcription	Drosophila melanogaster	?	-	?	89	
2.3.1.48	additional information	Gcn5 is a coactivator of transcription	Mus musculus	?	-	?	89	
2.3.1.48	additional information	Gcn5 is a coactivator of transcription	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	Gcn5 is a coactivator of transcription	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	Gcn5 is a coactivator of transcription	Arabidopsis thaliana	?	-	?	89	
2.3.1.48	additional information	Gcn5 and PCAF protein are transcription cofactors	Drosophila melanogaster	?	-	?	89	
2.3.1.48	additional information	Gcn5 and PCAF protein are transcription cofactors	Mus musculus	?	-	?	89	
2.3.1.48	additional information	Gcn5 and PCAF protein are transcription cofactors	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	Gcn5 and PCAF protein are transcription cofactors	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	Gcn5 and PCAF protein are transcription cofactors	Arabidopsis thaliana	?	-	?	89	
2.3.1.48	additional information	enzyme activity is regulated by phosphorylation and interaction with other regulating protein factors	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	enzyme activity is regulated by phosphorylation and interaction with other regulating protein factors	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	MOZ and MORF genes are rearranged by chromosome abnormalities associated with several types of leukemia	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	MYST-related histone acetyltransferase complex NuA4: required for cell growth, required for p53-dependent transcription activation in yeast, presumably through its Yng2 subunit, homolog of the tumor suppressor ING1. GNAT-related histone acetyltransferase complex SAGA can stimulate Gal4-VP16 activation in a manner dependent on HAT activity. D´SAGA can be recruited by several yeast activators. SAGA is targeted to promoter regions proximal to the activator binding site. Once targeted, SAGA acetylates histone h3 in the vicinity of the promoter. Targeted acetylation by SAGA stabilizes its binding and that of a targeted SWI/SNF chromatin-remodeling complex. SAGA is required for both activation of the yeast ARG1 promoter by Gcn4 activator and repression by the ArgR/Mcm1 repressor complex	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	MYST-related histone acetyltransferase complex Tip60 also acts as a transcriptional coactivator in several systems including class I nuclear hormone receptors, NF-kappaB and at the superoxide dismutase gene. Tip 60 has been implicated in Alzheimer disease because it stimulates transcription when asociated with the cleaved cytoplasmic tail fragment of the amyloid-beta precursor protein	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	Tip60 plays a role in the control of cell-related events	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	no acetylation of adrenocorticotropin or a H3 peptide	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	acetylation of proteins by the enzyme plays a critical role in the regulation of gene expression	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	androgen Src kinase and PKCd kinase are involved in the regulation of p300 HAT activity via bombesin, overview	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	deregulated HAT activity plays a role in the development of a range of cancers	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	the enzyme is involved in Sp1 activation of the cyclin D1 promoter, TAF1-dependent histone acetylation facilitates transcription factor binding to the Sp1 sites, thereby activating cyclin D1 transcription and ultimately G1-to-S-phase progression, regulation, overview	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	the enzyme modulates gene expression in liver nuclei in an epigenetic manner at high blood alcohol levels, no alteratins of MAP kinase levels, overview	Rattus norvegicus	?	-	?	89	
2.3.1.48	additional information	the enzyme plays a role in chromatin structure and gene expression regulation as a catalytic component of multiprotein complexes, some of which also contain Ada2-type transcriptional coactivators	Drosophila melanogaster	?	-	?	89	
2.3.1.48	additional information	the histone acetyltransferase activity of p300 is required for transcriptional repression by the promyelocytic leukemia zinc finger protein	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	in absence of acceptor substrate the enzyme performs autoacetylation, identification of 13 autoacetylation sites and mechanism, autoacetylation catalyzed by p300 HAT is about 1000-fold more efficient than p300/CREB-binding protein-associated factor-mediated acetylation of catalytically defective p300 HAT, overview	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	in the absence of histone acceptor, slow rates of enzyme autoacetylation and of CoA formation occur	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	substrate specificity and order of acetylation of histone H4 by Hat1, overview	Schizosaccharomyces pombe	?	-	?	89	
2.3.1.48	additional information	the nuclear cytoplasmic O-GlcNAcase and acetyltransferase, NCOAT, is a bifunctional enzyme with both glycoside hydrolase and alkyltransferase activity and contains a zinc finger-like motif responsible for substrate recognition, via making contacts with the histone tails within nucleosomes, essential for activity, overview	Mus musculus	?	-	?	89	
2.3.1.48	additional information	 MOZ specifically interacts and associates with transcription factors such as AML1, PU.1, p53, Runx2 and NF-kappaB, functioning as their transcriptional coactivator and cooperatively activating target gene transcription	Mus musculus	?	-	?	89	
2.3.1.48	additional information	a homologue of Moz, zMoz, occurs in zebrafish to perform a potential Moz function in the trunk region	Danio rerio	?	-	?	89	
2.3.1.48	additional information	affects the inflorescence meristem and stamen development in Arabidopsis thaliana	Arabidopsis thaliana	?	-	?	89	
2.3.1.48	additional information	ATAC2 associates with GCN5 and other proteins linked to chromatin metabolism	Mus musculus	?	-	?	89	
2.3.1.48	additional information	ATAC2 associates with GCN5 and other proteins linked to chromatin metabolism	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	besides the male-specific lethal, MSL, HAT complex, MOF is also a component of the second HAT complex, designated the non-specific lethal, NSL complex, substrate specificity of the NSL complex, overview. Assembly of the MOF HAT into MSL or NSL complexes controls its substrate specificity	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	Esa1 is the catalytic subunit of at least two multiprotein complexes, NuA4 and Piccolo NuA4, picNuA4	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	HATs perform a conserved mechanism of acetyl-transfer, where the lysine-containing substrate directly attacks enzyme-bound acetyl-CoA. The ability of HATs to form distinct multi-subunit complexes provide a means to regulate HAT activity by altering substrate specificity, targeting to specific loci, enhancing acetyltransferase activity, restricting access of non-target proteins, and coordinating the multiple enzyme activities of the complex	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	HBO1 histone acetylase is involved in DNA replication licensing and associates with replication origins, located within the HPRT1 coding sequence, specifically during the G1 phase of the cell cycle in a manner that depends on the replication licensing factor Cdt1, but is independent of the Cdt1 repressor geminin	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	HBO1 occurs as a component of a multiprotein complex with histone H3 and H4 acetyltransferase activity in 293 cells. The mammalian complex corresponding to the yeast NuA4 complex contains the MYST HAT Tip60	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	HBO1, Sas2 and Sas3 are involved in transcriptional repression enhancing Sir1-mediated epigenetic gene silencing. NuA3 and NuA4 complexes contain the MYST HATs Sas3 and Esa1, respectively. Sas2 histone acetylation of H4K16 opposed by Sir2 deacetylation of H4K16 at the euchromatin/heterochromatin interface maintains the boundary between regions of transcriptionally active and silent telomeric chromatin. Esa1 plays a role in maintaining the integrity of the DNA, rather than open chromatin structure and high-level transcriptional activity	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	histone acetylation and deacetylation is an epigenetic mechanism in volved in regulation of mIRNA production. GCN5 has a general repressive effect on microRNAs, miRNAs, and it targets a subset of MIRNA genes, GCN5 is required for acetylation of histone H3 lysine 14 at these loci, overview	Arabidopsis thaliana	?	-	?	89	
2.3.1.48	additional information	histones H3 and H4 and their chaperone Asf1, including RbAp48, a regulatory subunit of Hat1 enzyme, are associated with Hat1 in the cytosol of chicken cells. Hat1 regulates integrity of cytosolic histone H3-H4 containing complex, effect of Hat1 on status for the cytosolic histones H3/H4 pre-deposition complexes with respective chaperone proteins, overview	Gallus gallus	?	-	?	89	
2.3.1.48	additional information	in addition to Asf1, Rtt109 is also functionally linked to Rtt101, Mms1, and Mms22	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	in response to DNA damage, Tip60 acetylates ATM, a DNA damage related kinase, allowing for phosphorylation of Chk2 and p53 by ATM. HATs perform a conserved mechanism of acetyl-transfer, where the lysine-containing substrate directly attacks enzyme-bound acetyl-CoA. The ability of HATs to form distinct multi-subunit complexes provide a means to regulate HAT activity by altering substrate specificity, targeting to specific loci, enhancing acetyltransferase activity, restricting access of non-target proteins, and coordinating the multiple enzyme activities of the complex	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	increase in eNOS mRNA, caused by shear stress, is completely blocked by pharmacological inhibition of p300/HAT activity with curcumin or by p300 small interfering RNA	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	mechanistically, p300 acts as a transcriptional coactivator through the direct interaction with a diverse set of transcription factors and RNA polymerase II transcription machinery	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	Mst1 interacts with a number of proteins involved in chromosome integrity and centromere function, including the methyltransferase Skb1, the recombination mediator Rad22, Sc Rad52, the chromatin assembly factor Hip1, Sc Hir1, and the Msc1 protein related to a family of histone demethylases, detailed interaction analysis, overview	Schizosaccharomyces pombe	?	-	?	89	
2.3.1.48	additional information	MYST1 is a part of multiprotein complexes that accomplish functions of male X chromosome activation and thereby functions of dosage compensation in Drosophila and, in mammals, global acetylation of histone H4 K16. Functional links between MYST1 and proteins ATM and p53. Interactions between MSL1 and MYST1 within the MSL complex in Drosophila melanogaster, the compensasome includes proteins MSL1, MSL2, MSL3, MLE, MOF, a histone acetyltransferase homologous to MYST1, JIL1, and two non-coding RNA: roX1 and roX2, structure and function of the compensasome, detailed overview. Cell interactome fragments including protein homologs of hampin and MYST1, overview	Drosophila melanogaster	?	-	?	89	
2.3.1.48	additional information	MYST1 is a part of multiprotein complexes that accomplish functions of male X chromosome activation and thereby functions of dosage compensation in Drosophila and, in mammals, global acetylation of histone H4 K16. Functional links between MYST1 and proteins ATM and p53. MYST1 interacts with WDR5. Cell interactome fragments including protein homologs of hampin and MYST1, overview	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	PCAF is present in USF1/PRMT1 complexes	Mus musculus	?	-	?	89	
2.3.1.48	additional information	Rtt109 facilitates error-free replication to prevent CAG/CTG repeat contractions. The Rtt107/Rtt101 complex is recruited to stalled replication forks in an Rtt109-dependent manner	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	soluble histone H4 Hat1-dependently acetylated on Lys12 is present in cells arrested at all cell cycle stages, G1, S, G2/M and also G0. Histone H3 seems to be no substrate for the HAT-B complex	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	specific role of MOZ-driven acetylation in controlling a desirable balance between proliferation and differentiation during hematopoiesis. MOZ also shows activity either as Runx1 coactivator or in the induction of leukemic transformation via transcriptional intermediary factor 2, TIF2, but is not essentially required	Mus musculus	?	-	?	89	
2.3.1.48	additional information	the mammalian complex corresponding to the yeast NuA4 complex contains the MYST HAT Tip60. Myc recruits the Tip60 complex to the chromatin in Rat1 wild-type cells, but not in Rat1 Myc mutant cells. Hbo1 appears to function predominantly in transcriptional repression	Mus musculus	?	-	?	89	
2.3.1.48	additional information	Tip60 is part of the evolutionarily conserved NuA4 complex	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	Tip60, in complex with homologues of the mammalian Tip60 complex, exhibits functional redundancy with two other groups of genes, known as synthetic multivulva A and B genes, synMUV. Therefore, the genes encoding proteins of the Tip60 complex are termed class C synMUV genes. SynMUV A and B counteract EGF to Ras to MAPK signaling and the Tip60 complex is a chromatin-modifying complex	Caenorhabditis elegans	?	-	?	89	
2.3.1.48	additional information	Gcn5 and p300 appear to be constituitive HATs that do not require helper proteins to exhibit full catalytic activity. Esa1 and Rtt109 represent low-activity HATs that are stimulated by regulatory helper proteins, Yng2-Epl1 and Vps75/Asf1, respectively. p300/CBP exhibits the broadest protein specificity, p300 prefers histone acetylation sites with a positive charge in the -3 or +4 position. Ability of some HATs to utilize longer chain acyl-CoA, i.e. propionyl-CoA	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	Gcn5 appears to be constituitive HAT that does not require helper proteins to exhibit full catalytic activity	Tetrahymena sp.	?	-	?	89	
2.3.1.48	additional information	HBO1 interacts both with transcriptional activator proteins and with MCM2 and ORC1	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	MYST1 specificity to Lys16 of histone H4 is not absolute, because in experiments in vitro the protein is also able to acetylate histones H3 and H2A, whereas in vivo only modification of histone H4 is specific	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	no activity with histones H3, H2A and H2B by recombinant MOF in HeLa nucleosomes	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	p/CAF and p300 appear to be constitutive HATs that do not require helper proteins to exhibit full catalytic activity	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	p300 performs autoacetylation, overview	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	isoform GCN5 is not the enzyme responsible for histone acetylation at cold-regulated genes COR promoters during cold acclimation	Arabidopsis thaliana	?	-	?	89	
2.3.1.48	additional information	assembly of the enzyme into male-specific lethal, MSL, or non-specific lethal, NSL, complexes controls its substrate specificity. Although MSL-associated enzyme acetylates nucleosomal histone H4 almost exclusively on lysine 16, NSL-associated enzyme exhibits a relaxed specificity and also acetylates nucleosomal histone H4 on lysines 5 and 8	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	Glu187 and Glu276 could act as the general catalytic base and together with Asp277 have a cumulative effect on deprotonation of the ?-amino group of substrate Lys12 of the histone H4 peptide, which could be mediated by water molecules	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	histone chaperone Vps75 acts as activiating subunit. The rate-determining step of the activated complex is the transfer of the acetyl group from acetyl-CoA to the acceptor lysine residue. Vps75 stimulates catalysis more than 250fold, not by contributing a catalytic base, but by stabilizing the catalytically active conformation of enzyme Rtt109	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	protein participates in var gene activation	Plasmodium falciparum	?	-	?	89	
2.3.1.48	additional information	removal of lysine residues does not substantially affect the ability of NuA4 histone actyltransferase complex to acetylate remaining sites, and insertion of an additional lysine into the substrate histone H4 tail leads to rapid quintuple-acetylation. Conversion of the native histone H2A tail to an H4-like sequence results in enhanced multi-site acetylation. NuA4's site selectivity is dictated by accessibility on the nucleosome surface, the relative proximity from the histone fold domain, and a preference for intervening glycine residues with a minimal (n + 2) spacing between lysines	Saccharomyces cerevisiae	?	-	?	89	
2.3.1.48	additional information	Brahma is a target of enzyme Kat6B	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	enzyme GCN5b interacts with AP2-domain proteins, apicomplexan plant-like transcription factors, as well as a core complex that includes the co-activator ADA2-A, TFIID subunits, LEO1 polymerase-associated factor (Paf1) subunit, and RRM proteins	Toxoplasma gondii	?	-	?	89	
2.3.1.48	additional information	enzyme p300 can directly interact with myocardin, and consequently induce the acetylation of myocardin and nucleosomal histones surrounding SRF-binding sites. Acetylation of both histone and myocardin by p300	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	GCN5 directly binds to and increases the histone H3 and H4 acetylation of the cyclin E1, cyclin D1, and E2F1 promoters	Homo sapiens	?	-	?	89	
2.3.1.48	additional information	GCN5 directly targets HSFA3 and UVH6 and affects their H3K9 and H3K14 acetylation levels	Arabidopsis thaliana	?	-	?	89	
2.3.1.48	additional information	NuA4 targets histone and nonhistone proteins	Saccharomyces cerevisiae	?	-	-	89	
2.3.1.48	additional information	HBO1 exerts significant acetyltransferase activity on proteins such as ORC2, MCM2, CDC6, and Geminin in in vitro assays	Homo sapiens	?	-	-	89	
2.3.1.48	additional information	HBO1 exerts significant acetyltransferase activity on proteins such as ORC2, MCM2, CDC6, and Geminin in in vitro assays	Mus musculus	?	-	-	89	
2.3.1.48	additional information	high-resolution mass spectrometry investigations identifies 1750 proteins as substrates of the posttranslational modification of acetylation, overview	Saccharomyces cerevisiae	?	-	-	89	
2.3.1.48	additional information	high-resolution mass spectrometry investigations identifies 1750 proteins as substrates of the posttranslational modification of acetylation, overview. Both human Gcn5 and PCAF have H3 and H2B as main substrates, showing the highest in vitro affinity for H3K14	Homo sapiens	?	-	-	89	
2.3.1.48	additional information	high-resolution mass spectrometry investigations identifies 1750 proteins as substrates of the posttranslational modification of acetylation, overview. Hpa3 also acts as D-amino-acid N-acetyltransferase, EC 2.3.1.36	Saccharomyces cerevisiae	?	-	-	89	
2.3.1.48	additional information	lysine acetyltransferase (KAT) activity of recombinant human ARD1/NAA10, overview. Arrest defective 1 (ARD1) is the only enzyme known so far to exhibit both N-terminal acetyltransferase (NAT) and N-terminal lysine acetyltransferase (KAT) activities. Only the monomeric rhARD1/NAA10 form, but not the oligomeric form, can acetylate lysine residues of substrate proteins. rhARD1/NAA10-mediated Hsp70 acetylation increased in a time-dependent manner	Homo sapiens	?	-	-	89	
2.3.1.48	additional information	Nut1 is a mediator of RNA polymerase II transcription subunit 5, that also has histone acetylase activity	Saccharomyces cerevisiae	?	-	-	89	
2.3.1.48	additional information	quantification of HBsu acetylation by parallel reaction monitoring-tandem mass spectrometry	Bacillus subtilis	?	-	-	89	
2.3.1.48	additional information	recombinant hARD1/NAA10 exhibits KAT activity, which disappears soon in vitro due to enzyme oligomerization, which results in the loss of KAT activity. While oligomeric recombinant hARD1/NAA10 loses its ability for lysine acetylation, its monomeric form clearly exhibits lysine acetylation activity in vitro. Assay optimization, under optimal conditions, hARD1/NAA10 retains its KAT activity, overview	Homo sapiens	?	-	-	89	
2.3.1.48	additional information	Rtt109 has a low catalytic efficiency in isolation, but it is much more active when associated with the histone chaperones Asf1 and Vps75. The two chaperones also determine substrate specificity, with the preferred substrate being H3K56 when Rtt109 is associated with Asf1, whereas H3K9 and H3K23 are acetylated when in complex with Vps75	Saccharomyces cerevisiae	?	-	-	89	
2.3.1.48	additional information	screening of interacting proteins for substrate identification, testing of more than four hundred proteins, KAT substrate enrichment with biotin-streptavidin pulldown and semiquantitative LC-MS/MS studies, overview. The proteins are either p300- or GCN5-unique or shared by the two KATs. 3-Azidopropionyl CoA (3AZ-CoA) is applied as a bioorthogonal surrogate of acetyl-, propionyl- and butyryl-CoA for KAT substrate identification, method overview. Comparison of the substrate profiles of p300 and GCN5, different acetyl-CoA surrogates and histone peptide H3-20 or H4-20 (the first 20 amino acids from the N-terminus of histone H3 or H4) are used as substrates. 3AZ-CoA is a sensitive and specific probe for both p300 and GCN5-T612G with comparable or even stronger activity than Ac-CoA. Substrate validations	Homo sapiens	?	-	-	89	
2.3.1.48	additional information	substrate site specificity, overview	Homo sapiens	?	-	-	89	
2.3.1.48	additional information	TgGCN5b performs autoacetylation. Proteome-wide acetylome analyses of Toxoplasma tachyzoites identifies seven acetylated lysines on TgGCN5b, i.e. K811, K857, K941, K989, K997, K1002, and K1027	Toxoplasma gondii	?	-	-	89	
2.3.1.48	additional information	Tip60 preferentially catalyzes acetylation of histone H4	Homo sapiens	?	-	-	89	
2.3.1.48	additional information	Rtt109 facilitates error-free replication to prevent CAG/CTG repeat contractions. The Rtt107/Rtt101 complex is recruited to stalled replication forks in an Rtt109-dependent manner	Saccharomyces cerevisiae BY4705	?	-	?	89	
2.3.1.48	additional information	quantification of HBsu acetylation by parallel reaction monitoring-tandem mass spectrometry	Bacillus subtilis 168	?	-	-	89	
2.3.1.48	additional information	NuA4 targets histone and nonhistone proteins	Saccharomyces cerevisiae BY4741	?	-	-	89	
2.3.1.48	additional information	Gcn5 and PCAF protein are transcription cofactors	Homo sapiens GCN5	?	-	?	89	
2.3.1.48	additional information	enzyme activity is regulated by phosphorylation and interaction with other regulating protein factors	Homo sapiens GCN5	?	-	?	89	
2.3.1.48	additional information	Gcn5 is a coactivator of transcription	Homo sapiens GCN5	?	-	?	89	
2.3.1.48	additional information	specific role of MOZ-driven acetylation in controlling a desirable balance between proliferation and differentiation during hematopoiesis. MOZ also shows activity either as Runx1 coactivator or in the induction of leukemic transformation via transcriptional intermediary factor 2, TIF2, but is not essentially required	Mus musculus C57BL/6	?	-	?	89	
2.3.1.48	additional information	high-resolution mass spectrometry investigations identifies 1750 proteins as substrates of the posttranslational modification of acetylation, overview. Hpa3 also acts as D-amino-acid N-acetyltransferase, EC 2.3.1.36	Saccharomyces cerevisiae ATCC 204508	?	-	-	89	
2.3.1.48	additional information	Nut1 is a mediator of RNA polymerase II transcription subunit 5, that also has histone acetylase activity	Saccharomyces cerevisiae ATCC 204508	?	-	-	89	
2.3.1.48	additional information	high-resolution mass spectrometry investigations identifies 1750 proteins as substrates of the posttranslational modification of acetylation, overview	Saccharomyces cerevisiae ATCC 204508	?	-	-	89	
2.3.1.48	additional information	Rtt109 has a low catalytic efficiency in isolation, but it is much more active when associated with the histone chaperones Asf1 and Vps75. The two chaperones also determine substrate specificity, with the preferred substrate being H3K56 when Rtt109 is associated with Asf1, whereas H3K9 and H3K23 are acetylated when in complex with Vps75	Saccharomyces cerevisiae ATCC 204508	?	-	-	89	
2.3.1.48	additional information	a homologue of Moz, zMoz, occurs in zebrafish to perform a potential Moz function in the trunk region	Danio rerio zMoz	?	-	?	89	
2.3.1.48	additional information	Gcn5 appears to be constituitive HAT that does not require helper proteins to exhibit full catalytic activity	Tetrahymena sp. GCN5	?	-	?	89	
2.3.1.48	nucleolin + 4-pentynoyl-CoA	-	Saccharomyces cerevisiae	?	-	?	421133	
2.3.1.48	piccoloNuA4 peptide + acetyl-CoA	the peptide is part of the physiologic enzme complex, overview	Saccharomyces cerevisiae	acetyl-piccoloNuA4 peptide + CoA	-	?	386664	
2.3.1.48	piccoloNuA4 peptide + propionyl-CoA	-	Saccharomyces cerevisiae	propionyl-piccoloNuA4 peptide + CoA	-	?	389564	
2.3.1.48	promyelotic leukemia zinc finger gene + acetyl-CoA	-	Homo sapiens	acetylated promyelotic leukemia zinc finger gene + CoA	-	?	386667	
2.3.1.48	promyelotic leukemia zinc finger gene + acetyl-CoA	i.e. PLZF, a direct and specific substrate of the p300 HAT, no activity with the substrate deletion mutant lacking zinc fingers 6 to 9	Homo sapiens	acetylated promyelotic leukemia zinc finger gene + CoA	-	?	386667