DB code: S00291

RLCP classification	3.707.90500.391 : Transfer
CATH domain	3.40.50.150 : Rossmann fold	Catalytic domain
E.C.	2.1.1.6
CSA	1vid
M-CSA	1vid
MACiE

CATH domain	Related DB codes (homologues)
3.40.50.150 : Rossmann fold	S00637 S00639 S00262 S00261 S00412 D00075 D00076 D00079 D00080 D00082 D00083 D00823

Uniprot Enzyme Name
UniprotKB	Protein name	Synonyms	RefSeq	Pfam
P22734	Catechol O-methyltransferase	EC 2.1.1.6	NP_036663.1 (Protein) NM_012531.2 (DNA/RNA sequence)	PF01596 (Methyltransf_3) [Graphical View]
P21964	Catechol O-methyltransferase	EC 2.1.1.6	NP_000745.1 (Protein) NM_000754.3 (DNA/RNA sequence) NP_001128633.1 (Protein) NM_001135161.1 (DNA/RNA sequence) NP_001128634.1 (Protein) NM_001135162.1 (DNA/RNA sequence) NP_009294.1 (Protein) NM_007310.2 (DNA/RNA sequence)	PF01596 (Methyltransf_3) [Graphical View]

KEGG enzyme name
catechol O-methyltransferase COMT I COMT II S-COMT (soluble form of catechol-O-methyltransferase) MB-COMT (membrane-bound form of catechol-O-methyltransferase) catechol methyltransferase catecholamine O-methyltransferase

UniprotKB: Accession Number	Entry name	Activity	Subunit	Subcellular location	Cofactor
P22734	COMT_RAT	S-adenosyl-L-methionine + a catechol = S-adenosyl-L-homocysteine + a guaiacol.		Isoform 2: Cytoplasm. Isoform 1: Cell membrane, Single-pass type II membrane protein, Extracellular side.	Binds 1 magnesium ion per subunit.
P21964	COMT_HUMAN	S-adenosyl-L-methionine + a catechol = S-adenosyl-L-homocysteine + a guaiacol.		Isoform Soluble: Cytoplasm. Isoform Membrane-bound: Cell membrane, Single-pass type II membrane protein, Extracellular side.	Binds 1 magnesium ion per subunit.

KEGG Pathways
Map code	Pathways	E.C.
MAP00350	Tyrosine metabolism

Compound table
	Cofactors	Substrates					Products		Intermediates
KEGG-id	C00305	C00019	C00090	C02012	C00788	C00547	C00021	C01502
E.C.
Compound	Magnesium	S-Adenosyl-L-methionine	Catechol	Catecholamine	(R)-(-)-Adrenaline	Noradrenaline	S-Adenosyl-L-homocysteine	Guaiacol
Type	divalent metal (Ca2+, Mg2+)	amino acids,amine group,nucleoside,sulfonium ion	aromatic ring (only carbon atom)	amine group,aromatic ring (only carbon atom)	amine group,aromatic ring (only carbon atom),carbohydrate	amine group,aromatic ring (only carbon atom),carbohydrate	amino acids,amine group,nucleoside,sulfide group	aromatic ring (only carbon atom),carbohydrate
ChEBI	18420 18420	67040 67040	18135 18135		28918 28918	18357 18357	16680 57856 16680 57856	28591 28591
PubChem	888 888	34755 34755	289 289		5816 5816	439260 439260	25246222 439155 25246222 439155	460 460

1vidA	Bound:_MG	Bound:SAM	Analogue:DNC	Unbound	Unbound	Unbound	Unbound	Unbound
1h1dA	Bound:_MG	Bound:SAM	Unbound	Analogue:BIA	Unbound	Unbound	Unbound	Unbound
1jr4A	Bound:_MG	Analogue:CL4	Analogue:CL4	Unbound	Unbound	Unbound	Unbound	Unbound
2cl5A	Bound:_MG	Bound:SAM	Analogue:BIE	Unbound	Unbound	Unbound	Unbound	Unbound
2cl5B	Bound:_MG	Bound:SAM	Analogue:BIE	Unbound	Unbound	Unbound	Unbound	Unbound
2zlbA	Unbound	Unbound	Unbound	Unbound	Unbound	Unbound	Unbound	Unbound
2zthA	Bound:_MG	Bound:SAM	Unbound	Unbound	Unbound	Unbound	Unbound	Unbound
2zvjA	Bound:_MG	Bound:SAM	Analogue:KOM	Unbound	Unbound	Unbound	Unbound	Unbound
3a7dA	Bound:_MG	Analogue:FBN	Analogue:FBN	Unbound	Unbound	Unbound	Unbound	Unbound
3hvhA	Bound:_MG	Analogue:542	Analogue:542	Unbound	Unbound	Unbound	Unbound	Unbound
3hviA	Bound:_MG	Analogue:619	Analogue:619	Unbound	Unbound	Unbound	Unbound	Unbound
3hvjA	Bound:_MG	Analogue:705	Analogue:705	Unbound	Unbound	Unbound	Unbound	Unbound
3hvjB	Bound:_MG	Analogue:705	Analogue:705	Unbound	Unbound	Unbound	Unbound	Unbound
3hvkA	Bound:_MG	Analogue:719	Analogue:719	Unbound	Unbound	Unbound	Unbound	Unbound
3a7eA	Bound:_MG	Bound:SAM	Analogue:DNC	Unbound	Unbound	Unbound	Unbound	Unbound
3bwmA	Bound:_MG	Bound:SAM	Analogue:DNC	Unbound	Unbound	Unbound	Unbound	Unbound
3bwyA	Bound:_MG	Bound:SAM	Analogue:DNC	Unbound	Unbound	Unbound	Unbound	Unbound

Reference for Active-site residues
resource	references	E.C.

Active-site residues
PDB	Catalytic residues	Cofactor-binding residues	Modified residues	Main-chain involved in catalysis	Comment

1vidA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
1h1dA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
1jr4A	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
2cl5A	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
2cl5B	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
2zlbA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
2zthA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
2zvjA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
3a7dA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
3hvhA	LYS 187;GLU 242	ASP 184;ASP 212;ASN 213(Magnesium binding)
3hviA	LYS 187;GLU 242	ASP 184;ASP 212;ASN 213(Magnesium binding)
3hvjA	LYS 187;GLU 242	ASP 184;ASP 212;ASN 213(Magnesium binding)
3hvjB	LYS 187;GLU 242	ASP 184;ASP 212;ASN 213(Magnesium binding)
3hvkA	LYS 187;GLU 242	ASP 184;ASP 212;ASN 213(Magnesium binding)
3a7eA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
3bwmA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)
3bwyA	LYS 144;GLU 199	ASP 141;ASP 169;ASN 170(Magnesium binding)			mutant V108M

References for Catalytic Mechanism
References	Sections	No. of steps in catalysis
[2]	p.356
[4]	Fig.1
[5]	p.276-277
[7]	p.804
[10]	p.496
[11]	p.136-138

References
[1]
Resource
Comments
Medline ID
PubMed ID	1749777
Journal	Proteins
Year	1991
Volume	11
Pages	233-6
Authors	Vidgren J, Tilgmann C, Lundstrom K, Liljas A
Title	Crystallization and preliminary X-ray investigation of a recombinant form of rat catechol O-methyltransferase.
Related PDB
Related UniProtKB
[2]
Resource
Comments	X-RAY CRYSTALLOGRAPHY (2.0 ANGSTROMS) OF SOLUBLE FORM.; rat
Medline ID
PubMed ID	8127373
Journal	Nature
Year	1994
Volume	368
Pages	354-8
Authors	Vidgren J, Svensson LA, Liljas A
Title	Crystal structure of catechol O-methyltransferase.
Related PDB	1vid
Related UniProtKB	P22734
[3]
Resource
Comments
Medline ID
PubMed ID	7703232
Journal	Biochemistry
Year	1995
Volume	34
Pages	4202-10
Authors	Lotta T, Vidgren J, Tilgmann C, Ulmanen I, Melen K, Julkunen I, Taskinen J
Title	Kinetics of human soluble and membrane-bound catechol O-methyltransferase: a revised mechanism and description of the thermolabile variant of the enzyme.
Related PDB
Related UniProtKB
[4]
Resource
Comments
Medline ID
PubMed ID	10785817
Journal	Chemistry
Year	2000
Volume	6
Pages	971-82
Authors	Masjost B, Ballmer P, Borroni E, Zurcher G, Winkler FK, Jakob-Roetne R, Diederich F
Title	Structure-based design, synthesis, and in vitro evaluation of bisubstrate inhibitors for catechol O-methyltransferase (COMT).
Related PDB
Related UniProtKB
[5]
Resource
Comments	X-RAY CRYSTALLOGRAPHY; very distant homologue (plant)
Medline ID
PubMed ID	11224575
Journal	Nat Struct Biol
Year	2001
Volume	8
Pages	271-9
Authors	Zubieta C, He XZ, Dixon RA, Noel JP
Title	Structures of two natural product methyltransferases reveal the basis for substrate specificity in plant O-methyltransferases.
Related PDB	1fpq 1fp1 1fpx 1fp2
Related UniProtKB
[6]
Resource
Comments
Medline ID
PubMed ID	12404486
Journal	Angew Chem Int Ed Engl
Year	2001
Volume	40
Pages	4040-4042
Authors	Lerner C, Ruf A, Gramlich V, Masjost B, Zurcher G, Jakob-Roetne R, Borroni E, Diederich F
Title	X-ray Crystal Structure of a Bisubstrate Inhibitor Bound to the Enzyme Catechol-O-methyltransferase: A Dramatic Effect of Inhibitor Preorganization on Binding Affinity We thank F. Hoffmann-La Roche for generous support of this work. We are grateful to P. Malherbe for the cloning of COMT, P. Caspers for the expression of COMT, A. Cesura for enzyme purification, B. Wipf for fermentation, and H. W. Lahm for sequencing. .
Related PDB	1jr4
Related UniProtKB
[7]
Resource
Comments
Medline ID
PubMed ID	12237326
Journal	Mol Pharmacol
Year	2002
Volume	62
Pages	795-805
Authors	Bonifacio MJ, Archer M, Rodrigues ML, Matias PM, Learmonth DA, Carrondo MA, Soares-Da-Silva P
Title	Kinetics and crystal structure of catechol-o-methyltransferase complex with co-substrate and a novel inhibitor with potential therapeutic application.
Related PDB	1h1d
Related UniProtKB
[8]
Resource
Comments
Medline ID
PubMed ID	16618795
Journal	Mol Pharmacol
Year	2006
Volume	70
Pages	143-53
Authors	Palma PN, Rodrigues ML, Archer M, Bonifacio MJ, Loureiro AI, Learmonth DA, Carrondo MA, Soares-da-Silva P
Title	Comparative study of ortho- and meta-nitrated inhibitors of catechol-O-methyltransferase: interactions with the active site and regioselectivity of O-methylation.
Related PDB	2cl5
Related UniProtKB
[9]
Resource
Comments
Medline ID
PubMed ID	18486144
Journal	J Mol Biol
Year	2008
Volume	380
Pages	120-30
Authors	Rutherford K, Le Trong I, Stenkamp RE, Parson WW
Title	Crystal structures of human 108V and 108M catechol O-methyltransferase.
Related PDB	3bwm 3bwy
Related UniProtKB
[10]
Resource
Comments
Medline ID
PubMed ID	19056347
Journal	Biochem Biophys Res Commun
Year	2009
Volume	378
Pages	494-7
Authors	Tsuji E, Okazaki K, Takeda K
Title	Crystal structures of rat catechol-O-methyltransferase complexed with coumarine-based inhibitor.
Related PDB	2zvj
Related UniProtKB
[11]
Resource
Comments
Medline ID
PubMed ID	19111934
Journal	J Struct Biol
Year	2009
Volume	165
Pages	133-9
Authors	Tsuji E, Okazaki K, Isaji M, Takeda K
Title	Crystal structures of the apo and holo form of rat catechol-O-methyltransferase.
Related PDB	2zlb 2zth
Related UniProtKB
[12]
Resource
Comments
Medline ID
PubMed ID	19882607
Journal	Angew Chem Int Ed Engl
Year	2009
Volume	48
Pages	9092-6
Authors	Ellermann M, Jakob-Roetne R, Lerner C, Borroni E, Schlatter D, Roth D, Ehler A, Rudolph MG, Diederich F
Title	Molecular recognition at the active site of catechol-o-methyltransferase: energetically favorable replacement of a water molecule imported by a bisubstrate inhibitor.
Related PDB	3hvh 3hvi 3hvj 3hvk
Related UniProtKB

Comments
According to the literature [5], which describes the mechanisms of the homologues of this enzymes, O-methyltransferases, methylation most likely proceeds via base-assisted deprotonation of the hydroxyl group followed by a nucleophilic attack of the newly generated phenolate anion of the substrate on the ractive methyl group of SAM. Because the sulfur of SAM is positively charged, the transmethylation process is easily facilitated by the deprotonation step. In catechol O-methyltransferase, O-methylation reaction is facilitated by metal-mediated deprotonation. The literature [2] suggests that the methyl transfer from SAM to the catechol substrate catalysed by this enzyme is a direct bimolecular transfer of the methyl group from the sulfur of SAM to the oxygen of the catchol hydroxyl in an SN2-like transition state. One of the hydroxyl group of the substrate is surrounded by three positively charged groups inducing it to release its proton to become a negatively charged phenolate ion. These moieties are the Mg2+, the methyl group of SAM, and Lys144. The Mg2+ ion in particular probably lowers the pKa of the hydroxyl group significantly. In contrast, the proton of the other hydroxyl group is stabilized by the negatively charged carboxyl group of Glu199. The ionized hydroxyl makes a direct nucleophilic attack on the electron-deficient methyl of SAM.

Comments

According to the literature [5], which describes the mechanisms of the homologues of this enzymes, O-methyltransferases, methylation most likely proceeds via base-assisted deprotonation of the hydroxyl group followed by a nucleophilic attack of the newly generated phenolate anion of the substrate on the ractive methyl group of SAM. Because the sulfur of SAM is positively charged, the transmethylation process is easily facilitated by the deprotonation step. In catechol O-methyltransferase, O-methylation reaction is facilitated by metal-mediated deprotonation.
The literature [2] suggests that the methyl transfer from SAM to the catechol substrate catalysed by this enzyme is a direct bimolecular transfer of the methyl group from the sulfur of SAM to the oxygen of the catchol hydroxyl in an SN2-like transition state. One of the hydroxyl group of the substrate is surrounded by three positively charged groups inducing it to release its proton to become a negatively charged phenolate ion. These moieties are the Mg2+, the methyl group of SAM, and Lys144. The Mg2+ ion in particular probably lowers the pKa of the hydroxyl group significantly. In contrast, the proton of the other hydroxyl group is stabilized by the negatively charged carboxyl group of Glu199. The ionized hydroxyl makes a direct nucleophilic attack on the electron-deficient methyl of SAM.

Created	Updated
2002-05-01	2010-12-02