EnzyMine

Enzyme

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2. Transferases

2.3 Acyltransferases

2.3.1 Transferring groups other than aminoacyl groups

ID:	2.3.1.258
Description:	N-terminal methionine N(alpha)-acetyltransferase NatE.

3D structure

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References

External Links

UniProtKB Enzyme Link:	UniProtKB 2.3.1.258
BRENDA Enzyme Link:	BRENDA 2.3.1.258
KEGG Enzyme Link:	KEGG2.3.1.258
BioCyc Enzyme Link:	BioCyc 2.3.1.258
ExPASy Enzyme Link:	ExPASy2.3.1.258
EC2PDB Enzyme Link:	EC2PDB 2.3.1.258
ExplorEnz Enzyme Link:	ExplorEnz 2.3.1.258
PRIAM enzyme-specific profiles Link:	PRIAM 2.3.1.258
IntEnz Enzyme Link:	IntEnz 2.3.1.258
MEDLINE Enzyme Link:	MEDLINE 2.3.1.258

MSA:	2.3.1.258;
Phylogenetic Tree:	2.3.1.258;
Uniprot:
M-CSA:

RHEA:50520	acetyl-CoA + N-terminal L-methionyl-L-leucyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-methionyl-L-leucyl-[protein]
RULE(radius=1)	[:1]-[NH2;+0:2].[:3]=[C;H0;+0:4](-[:5])-[S;H0;+0:6]-[:7]>>[:7]-[SH;+0:6].[:3]=[C;H0;+0:4](-[:5])-[NH;+0:2]-[:1]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

References

Title	Authors	Date	PubMed ID
Biochemical evidence for relaxed substrate specificity of Nα-acetyltransferase (Rv3420c/rimI) of Mycobacterium tuberculosis.	Pathak D, Bhat AH, Sapehia V, Rai J, Rao A	2016 Jun 29	27353550
Knockdown of human N alpha-terminal acetyltransferase complex C leads to p53-dependent apoptosis and aberrant human Arl8b localization.	Starheim KK, Gromyko D, Evjenth R, Ryningen A, Varhaug JE, Lillehaug JR, Arnesen T	2009 Jul	19398576
Embryonic growth-associated protein is one subunit of a novel N-terminal acetyltransferase complex essential for embryonic vascular development.	Wenzlau JM, Garl PJ, Simpson P, Stenmark KR, West J, Artinger KB, Nemenoff RA, Weiser-Evans MC	2006 Mar 31	16484612
Cytoplasmic N-terminal protein acetylation is required for efficient photosynthesis in Arabidopsis.	Pesaresi P, Gardner NA, Masiero S, Dietzmann A, Eichacker L, Wickner R, Salamini F, Leister D	2003 Aug	12897255
Composition and function of the eukaryotic N-terminal acetyltransferase subunits.	Polevoda B, Sherman F	2003 Aug 15	12890471
NatC Nalpha-terminal acetyltransferase of yeast contains three subunits, Mak3p, Mak10p, and Mak31p.	Polevoda B, Sherman F	2001 Jun 8	11274203

RHEA:50528	acetyl-CoA + N-terminal L-methionyl-L-phenylalanyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-methionyl-L-phenylalanyl-[protein]
RULE(radius=1)	[:1]-[NH2;+0:2].[:3]=[C;H0;+0:4](-[:5])-[S;H0;+0:6]-[:7]>>[:7]-[SH;+0:6].[:3]=[C;H0;+0:4](-[:5])-[NH;+0:2]-[:1]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

References

Title	Authors	Date	PubMed ID
Biochemical evidence for relaxed substrate specificity of Nα-acetyltransferase (Rv3420c/rimI) of Mycobacterium tuberculosis.	Pathak D, Bhat AH, Sapehia V, Rai J, Rao A	2016 Jun 29	27353550
Knockdown of human N alpha-terminal acetyltransferase complex C leads to p53-dependent apoptosis and aberrant human Arl8b localization.	Starheim KK, Gromyko D, Evjenth R, Ryningen A, Varhaug JE, Lillehaug JR, Arnesen T	2009 Jul	19398576
Embryonic growth-associated protein is one subunit of a novel N-terminal acetyltransferase complex essential for embryonic vascular development.	Wenzlau JM, Garl PJ, Simpson P, Stenmark KR, West J, Artinger KB, Nemenoff RA, Weiser-Evans MC	2006 Mar 31	16484612
Cytoplasmic N-terminal protein acetylation is required for efficient photosynthesis in Arabidopsis.	Pesaresi P, Gardner NA, Masiero S, Dietzmann A, Eichacker L, Wickner R, Salamini F, Leister D	2003 Aug	12897255
Composition and function of the eukaryotic N-terminal acetyltransferase subunits.	Polevoda B, Sherman F	2003 Aug 15	12890471
NatC Nalpha-terminal acetyltransferase of yeast contains three subunits, Mak3p, Mak10p, and Mak31p.	Polevoda B, Sherman F	2001 Jun 8	11274203

RHEA:50532	acetyl-CoA + N-terminal L-methionyl-L-tyrosyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-methionyl-L-tyrosyl-[protein]
RULE(radius=1)	[:1]-[NH2;+0:2].[:3]=[C;H0;+0:4](-[:5])-[S;H0;+0:6]-[:7]>>[:7]-[SH;+0:6].[:3]=[C;H0;+0:4](-[:5])-[NH;+0:2]-[:1]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

References

Title	Authors	Date	PubMed ID
Biochemical evidence for relaxed substrate specificity of Nα-acetyltransferase (Rv3420c/rimI) of Mycobacterium tuberculosis.	Pathak D, Bhat AH, Sapehia V, Rai J, Rao A	2016 Jun 29	27353550
Knockdown of human N alpha-terminal acetyltransferase complex C leads to p53-dependent apoptosis and aberrant human Arl8b localization.	Starheim KK, Gromyko D, Evjenth R, Ryningen A, Varhaug JE, Lillehaug JR, Arnesen T	2009 Jul	19398576
Embryonic growth-associated protein is one subunit of a novel N-terminal acetyltransferase complex essential for embryonic vascular development.	Wenzlau JM, Garl PJ, Simpson P, Stenmark KR, West J, Artinger KB, Nemenoff RA, Weiser-Evans MC	2006 Mar 31	16484612
Cytoplasmic N-terminal protein acetylation is required for efficient photosynthesis in Arabidopsis.	Pesaresi P, Gardner NA, Masiero S, Dietzmann A, Eichacker L, Wickner R, Salamini F, Leister D	2003 Aug	12897255
Composition and function of the eukaryotic N-terminal acetyltransferase subunits.	Polevoda B, Sherman F	2003 Aug 15	12890471
NatC Nalpha-terminal acetyltransferase of yeast contains three subunits, Mak3p, Mak10p, and Mak31p.	Polevoda B, Sherman F	2001 Jun 8	11274203

RHEA:50564	acetyl-CoA + N-terminal L-methionyl-L-alanyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-methionyl-L-alanyl-[protein]
RULE(radius=1)	[:1]-[NH2;+0:2].[:3]=[C;H0;+0:4](-[:5])-[S;H0;+0:6]-[:7]>>[:7]-[SH;+0:6].[:3]=[C;H0;+0:4](-[:5])-[NH;+0:2]-[:1]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

References

Title	Authors	Date	PubMed ID
Biochemical evidence for relaxed substrate specificity of Nα-acetyltransferase (Rv3420c/rimI) of Mycobacterium tuberculosis.	Pathak D, Bhat AH, Sapehia V, Rai J, Rao A	2016 Jun 29	27353550
N-terminal acetylome analysis reveals the specificity of Naa50 (Nat5) and suggests a kinetic competition between N-terminal acetyltransferases and methionine aminopeptidases.	Van Damme P, Hole K, Gevaert K, Arnesen T	2015 Jul	25886145
Human Naa50p (Nat5/San) displays both protein N alpha- and N epsilon-acetyltransferase activity.	Evjenth R, Hole K, Karlsen OA, Ziegler M, Arnesen T, Lillehaug JR	2009 Nov 6	19744929
Differential requirements of a mitotic acetyltransferase in somatic and germ line cells.	Pimenta-Marques A, Tostões R, Marty T, Barbosa V, Lehmann R, Martinho RG	2008 Nov 15	18801358
The acetyltransferase activity of San stabilizes the mitotic cohesin at the centromeres in a shugoshin-independent manner.	Hou F, Chu CW, Kong X, Yokomori K, Zou H	2007 May 21	17502424

RHEA:50568	acetyl-CoA + N-terminal L-methionyl-L-seryl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-methionyl-L-seryl-[protein]
RULE(radius=1)	[:1]-[NH2;+0:2].[:3]=[C;H0;+0:4](-[:5])-[S;H0;+0:6]-[:7]>>[:7]-[SH;+0:6].[:3]=[C;H0;+0:4](-[:5])-[NH;+0:2]-[:1]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

References

Title	Authors	Date	PubMed ID
Biochemical evidence for relaxed substrate specificity of Nα-acetyltransferase (Rv3420c/rimI) of Mycobacterium tuberculosis.	Pathak D, Bhat AH, Sapehia V, Rai J, Rao A	2016 Jun 29	27353550
N-terminal acetylome analysis reveals the specificity of Naa50 (Nat5) and suggests a kinetic competition between N-terminal acetyltransferases and methionine aminopeptidases.	Van Damme P, Hole K, Gevaert K, Arnesen T	2015 Jul	25886145
Human Naa50p (Nat5/San) displays both protein N alpha- and N epsilon-acetyltransferase activity.	Evjenth R, Hole K, Karlsen OA, Ziegler M, Arnesen T, Lillehaug JR	2009 Nov 6	19744929
Differential requirements of a mitotic acetyltransferase in somatic and germ line cells.	Pimenta-Marques A, Tostões R, Marty T, Barbosa V, Lehmann R, Martinho RG	2008 Nov 15	18801358
The acetyltransferase activity of San stabilizes the mitotic cohesin at the centromeres in a shugoshin-independent manner.	Hou F, Chu CW, Kong X, Yokomori K, Zou H	2007 May 21	17502424

RHEA:50572	acetyl-CoA + N-terminal L-methionyl-L-valyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-methionyl-L-valyl-[protein]
RULE(radius=1)	[:1]-[NH2;+0:2].[:3]=[C;H0;+0:4](-[:5])-[S;H0;+0:6]-[:7]>>[:7]-[SH;+0:6].[:3]=[C;H0;+0:4](-[:5])-[NH;+0:2]-[:1]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

References

Title	Authors	Date	PubMed ID
Biochemical evidence for relaxed substrate specificity of Nα-acetyltransferase (Rv3420c/rimI) of Mycobacterium tuberculosis.	Pathak D, Bhat AH, Sapehia V, Rai J, Rao A	2016 Jun 29	27353550
N-terminal acetylome analysis reveals the specificity of Naa50 (Nat5) and suggests a kinetic competition between N-terminal acetyltransferases and methionine aminopeptidases.	Van Damme P, Hole K, Gevaert K, Arnesen T	2015 Jul	25886145
Human Naa50p (Nat5/San) displays both protein N alpha- and N epsilon-acetyltransferase activity.	Evjenth R, Hole K, Karlsen OA, Ziegler M, Arnesen T, Lillehaug JR	2009 Nov 6	19744929
Differential requirements of a mitotic acetyltransferase in somatic and germ line cells.	Pimenta-Marques A, Tostões R, Marty T, Barbosa V, Lehmann R, Martinho RG	2008 Nov 15	18801358
The acetyltransferase activity of San stabilizes the mitotic cohesin at the centromeres in a shugoshin-independent manner.	Hou F, Chu CW, Kong X, Yokomori K, Zou H	2007 May 21	17502424

RHEA:50576	acetyl-CoA + N-terminal L-methionyl-L-threonyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-methionyl-L-threonyl-[protein]
RULE(radius=1)	[:1]-[NH2;+0:2].[:3]=[C;H0;+0:4](-[:5])-[S;H0;+0:6]-[:7]>>[:7]-[SH;+0:6].[:3]=[C;H0;+0:4](-[:5])-[NH;+0:2]-[:1]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

References

Title	Authors	Date	PubMed ID
Biochemical evidence for relaxed substrate specificity of Nα-acetyltransferase (Rv3420c/rimI) of Mycobacterium tuberculosis.	Pathak D, Bhat AH, Sapehia V, Rai J, Rao A	2016 Jun 29	27353550
N-terminal acetylome analysis reveals the specificity of Naa50 (Nat5) and suggests a kinetic competition between N-terminal acetyltransferases and methionine aminopeptidases.	Van Damme P, Hole K, Gevaert K, Arnesen T	2015 Jul	25886145
Human Naa50p (Nat5/San) displays both protein N alpha- and N epsilon-acetyltransferase activity.	Evjenth R, Hole K, Karlsen OA, Ziegler M, Arnesen T, Lillehaug JR	2009 Nov 6	19744929
Differential requirements of a mitotic acetyltransferase in somatic and germ line cells.	Pimenta-Marques A, Tostões R, Marty T, Barbosa V, Lehmann R, Martinho RG	2008 Nov 15	18801358
The acetyltransferase activity of San stabilizes the mitotic cohesin at the centromeres in a shugoshin-independent manner.	Hou F, Chu CW, Kong X, Yokomori K, Zou H	2007 May 21	17502424

RHEA:50580	acetyl-CoA + N-terminal L-methionyl-L-lysyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-methionyl-L-lysyl-[protein]
RULE(radius=1)	[:1]-[NH2;+0:2].[:3]=[C;H0;+0:4](-[:5])-[S;H0;+0:6]-[:7]>>[:7]-[SH;+0:6].[:3]=[C;H0;+0:4](-[:5])-[NH;+0:2]-[:1]
Reaction
Core-to-Core	No scaffolds atoms were exchanged as a result of the reaction

References

Title	Authors	Date	PubMed ID
Biochemical evidence for relaxed substrate specificity of Nα-acetyltransferase (Rv3420c/rimI) of Mycobacterium tuberculosis.	Pathak D, Bhat AH, Sapehia V, Rai J, Rao A	2016 Jun 29	27353550
N-terminal acetylome analysis reveals the specificity of Naa50 (Nat5) and suggests a kinetic competition between N-terminal acetyltransferases and methionine aminopeptidases.	Van Damme P, Hole K, Gevaert K, Arnesen T	2015 Jul	25886145
Human Naa50p (Nat5/San) displays both protein N alpha- and N epsilon-acetyltransferase activity.	Evjenth R, Hole K, Karlsen OA, Ziegler M, Arnesen T, Lillehaug JR	2009 Nov 6	19744929
Differential requirements of a mitotic acetyltransferase in somatic and germ line cells.	Pimenta-Marques A, Tostões R, Marty T, Barbosa V, Lehmann R, Martinho RG	2008 Nov 15	18801358
The acetyltransferase activity of San stabilizes the mitotic cohesin at the centromeres in a shugoshin-independent manner.	Hou F, Chu CW, Kong X, Yokomori K, Zou H	2007 May 21	17502424

EC number:2.3.1.258

Enzyme

3D structure

References

External Links

EC number:2.3.1.258

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Reaction analysis:2.3.1.258