Literature summary extracted from

Feller, C.; Forne, I.; Imhof, A.; Becker, P.B.
Global and specific responses of the histone acetylome to systematic perturbation (2015), Mol. Cell, 57, 559-571.

Protein Variants

EC Number	Protein Variants	Comment	Organism
2.3.1.48	additional information	MOF levels are strongly diminished after incubating cells for 4 days with interfering RNAs directed against MOF transcript, and are undetectable after 5.5 days	Drosophila melanogaster

Localization

EC Number	Localization	Comment	Organism	GeneOntology No.	Textmining
2.3.1.48	nucleus	-	Drosophila melanogaster	5634	-

Natural Substrates/ Products (Substrates)

EC Number	Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
2.3.1.48	acetyl-CoA + histone H3	Drosophila melanogaster	acetylation of Lys9, Lys14, Lys18, Lys23, Lys27, Lys36, and Lys37	CoA + acetylhistone H3	-	?
2.3.1.48	acetyl-CoA + histone H4	Drosophila melanogaster	acetylation of Lys5, Lys8, Lys12, and Lys16	CoA + acetylhistone H4	-	?

Organism

EC Number	Organism	UniProt	Comment	Textmining
2.3.1.48	Drosophila melanogaster	-	-	-

Source Tissue

EC Number	Source Tissue	Comment	Organism	Textmining
2.3.1.48	Kc cell	-	Drosophila melanogaster	-
2.3.1.48	S2 cell	-	Drosophila melanogaster	-

Substrates and Products (Substrate)

EC Number	Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
2.3.1.48	acetyl-CoA + histone H3	acetylation of Lys9, Lys14, Lys18, Lys23, Lys27, Lys36, and Lys37	Drosophila melanogaster	CoA + acetylhistone H3	-	?
2.3.1.48	acetyl-CoA + histone H4	acetylation of Lys5, Lys8, Lys12, and Lys16	Drosophila melanogaster	CoA + acetylhistone H4	-	?

Synonyms

EC Number	Synonyms	Comment	Organism
2.3.1.48	Gcn5	-	Drosophila melanogaster
2.3.1.48	KAT6	-	Drosophila melanogaster
2.3.1.48	NAA10	-	Drosophila melanogaster
2.3.1.48	RPD3	-	Drosophila melanogaster

General Information

EC Number	General Information	Comment	Organism
2.3.1.48	malfunction	aberrant histone acetylation contributes to disease	Drosophila melanogaster
2.3.1.48	additional information	development of a quantitative proteomic strategy to generate a comprehensive catalog of combinatorial histone acetylation and methylation motifs in Drosophila cells, acetylation patterns and their genesis by integrated enzyme activities, e.g. via enzymes MOF, RPD3, KAT6, NAA10, and GCN5, overview	Drosophila melanogaster
2.3.1.48	physiological function	regulation of histone acetylation is fundamental to the utilization of eukaryotic genomes in chromatin. H4K16 acetylation is thought to affect the basic properties of the chromatin fiber. Male cells display twice the amount of H4K16 acetylation but reduced levels of several other acetylation motifs including H4K5, H4K12, and H3K14 acetylation as compared to female cells due to acetyltransferase MOF. Drosophila's histone acetylation system includes (1) the extensively studied model KATs (GCN5/PCAF, CBP/P300, MOF, HAT1, and TIP60), (2) less well characterized KATs (KAT6 [MOZ/MORF], HBO1, ELP3, TAF1, and ATAC2), (3) a mostly uncharacterized class of GCN5-related KATs (NAT6, NAT9, and NAT10), (4) N-terminal acetyltransferases suggested to also acetylate internal lysines (NAA10, NAA20, NAA30, NAA40, NAA50, and NAA60), (5) putative acetyltransferases with no recognizable direct homologue in non-Drosophilid species (CG5783 and CG12560), (6) the acetyltransferase ECO, and (7) a bifunctional enzyme containing a O-GlcNAcase activity and potentially a KAT activity (MGEA5, also known as NCOAT or OGA)	Drosophila melanogaster

Use of this online version of BRENDA is free under the CC BY 4.0 license. See terms of use for full details.

Release 2023.1 (January 2023)