DB code: S00720

RLCP classification	1.12.30000.10 : Hydrolysis
CATH domain	3.40.50.1820 : Rossmann fold	Catalytic domain
E.C.	3.1.1.2
CSA
M-CSA
MACiE

CATH domain	Related DB codes (homologues)
3.40.50.1820 : Rossmann fold	S00544 S00344 S00517 S00525 S00526 S00723 S00724 S00725 S00919 S00057 S00374 S00345 S00347 S00348 S00346 S00350 S00352 S00353 S00355 S00356 S00358 D00189 D00210 D00539 T00253

Uniprot Enzyme Name
UniprotKB	Protein name	Synonyms	Pfam
P22862	Arylesterase	EC 3.1.1.2 Aryl-ester hydrolase PFE Putative bromoperoxidase EC 1.-.-.-	[Graphical View]
D0VWZ4		None	PF00756 (Esterase) [Graphical View]

KEGG enzyme name
Arylesterase A-esterase Paraoxonase Aromatic esterase

UniprotKB: Accession Number	Entry name	Activity	Subunit	Subcellular location	Cofactor
P22862	ESTE_PSEFL	A phenyl acetate + H(2)O = a phenol + acetate.	Homodimer.
D0VWZ4	D0VWZ4_OLEAN

KEGG Pathways
Map code	Pathways	E.C.
MAP00363	Bisphenol A degradation

Compound table
	Substrates		Products		Intermediates
KEGG-id	C00548	C00001	C00146	C00033	I00078	I00125	I00126
E.C.
Compound	phenyl acetate	H2O	phenol	acetate	Phenyl-tetrahedral intermediate (Peptidyl-Ser-phenylacetate-tetrahedral intermediate)	Acetyl-enzyme (Peptidyl-Ser-acetyl group)	Peptidyl-Ser-acetyl-tetrahedral-intermediate
Type	aromatic ring (only carbon atom),carbohydrate	H2O	aromatic ring (only carbon atom)	carboxyl group
ChEBI	8082 8082	15377 15377	15882 15882	15366 15366
PubChem	31229 31229	22247451 962 22247451 962	20488062 996 20488062 996	176 21980959 176 21980959

1va4A00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound
1va4B00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound
1va4C00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound
1va4D00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound
1va4E00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound
1va4F00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound
3heaA00	Unbound		Unbound	Unbound	Transition-state-analogue:EEE	Unbound	Unbound
3heaB00	Unbound		Unbound	Unbound	Transition-state-analogue:EEE	Unbound	Unbound
3heaC00	Unbound		Unbound	Unbound	Transition-state-analogue:EEE	Unbound	Unbound
3heaD00	Unbound		Unbound	Unbound	Transition-state-analogue:EEE	Unbound	Unbound
3heaE00	Unbound		Unbound	Unbound	Transition-state-analogue:EEE	Unbound	Unbound
3heaF00	Unbound		Unbound	Unbound	Transition-state-analogue:EEE	Unbound	Unbound
3hi4A00	Unbound		Unbound	Bound:ACT_272	Unbound	Unbound	Unbound
3hi4B00	Unbound		Unbound	Bound:ACT_272	Unbound	Unbound	Unbound
3hi4C00	Unbound		Unbound	Bound:ACT_272	Unbound	Unbound	Unbound
3hi4D00	Unbound		Unbound	Bound:ACT_272	Unbound	Unbound	Unbound
3hi4E00	Unbound		Unbound	Bound:ACT_272	Unbound	Unbound	Unbound
3hi4F00	Unbound		Unbound	Bound:ACT_272	Unbound	Unbound	Unbound
3ia2A00	Unbound		Unbound	Unbound	Unbound	Unbound	Transition-state-analogue:J6Z
3ia2B00	Unbound		Unbound	Unbound	Unbound	Unbound	Transition-state-analogue:J6Z
3ia2C00	Unbound		Unbound	Unbound	Unbound	Unbound	Transition-state-analogue:J6Z
3ia2D00	Unbound		Unbound	Unbound	Unbound	Unbound	Transition-state-analogue:J6Z
3ia2E00	Unbound		Unbound	Unbound	Unbound	Unbound	Transition-state-analogue:J6Z
3ia2F00	Unbound		Unbound	Unbound	Unbound	Unbound	Transition-state-analogue:J6Z
3i6yA00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound
3i6yB00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound
3s8yA00	Unbound		Unbound	Unbound	Unbound	Unbound	Unbound

Reference for Active-site residues
resource	references	E.C.
Literature [6], [9] & Swiss-prot;P22862

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

1va4A00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
1va4B00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
1va4C00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
1va4D00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
1va4E00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
1va4F00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3heaA00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3heaB00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3heaC00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3heaD00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3heaE00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3heaF00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3hi4A00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3hi4B00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3hi4C00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3hi4D00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3hi4E00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3hi4F00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3ia2A00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3ia2B00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3ia2C00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3ia2D00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3ia2E00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3ia2F00	SER 94;ASP 222;HIS 251			TRP 28;MET 95
3i6yA00	SER 148;ASP 224;HIS 257			LEU 55;MET 149
3i6yB00	SER 148;ASP 224;HIS 257			LEU 55;MET 149
3s8yA00	SER 148;ASP 224;HIS 257			LEU 55;MET 149

References for Catalytic Mechanism
References	Sections	No. of steps in catalysis
[6]	Figure 1
[7]	Fig. 5
[8]	Figure 3
[9]	FIGURE 1a

References
[1]
Resource
Comments
Medline ID
PubMed ID	7632719
Journal	Biochim Biophys Acta
Year	1995
Volume	1250
Pages	149-57
Authors	Pelletier I, Altenbuchner J, Mattes R
Title	A catalytic triad is required by the non-heme haloperoxidases to perform halogenation.
Related PDB
Related UniProtKB
[2]
Resource
Comments
Medline ID
PubMed ID	7704276
Journal	Microbiology
Year	1995
Volume	141
Pages	459-68
Authors	Pelletier I, Altenbuchner J
Title	A bacterial esterase is homologous with non-haem haloperoxidases and displays brominating activity.
Related PDB
Related UniProtKB
[3]
Resource
Comments
Medline ID
PubMed ID
Journal	Enzyme Microb Technol
Year	1998
Volume	22
Pages	641-6
Authors	Krebsfanger N, Zocher F, Altenbuchner J, Bornscheuer UT
Title	Characterization and enantioselectivity of a recombinant esterase from Pseudomonas fluorescens.
Related PDB
Related UniProtKB
[4]
Resource
Comments
Medline ID
PubMed ID	9642069
Journal	J Mol Biol
Year	1998
Volume	279
Pages	889-900
Authors	Hofmann B, Tolzer S, Pelletier I, Altenbuchner J, van Pee KH, Hecht HJ
Title	Structural investigation of the cofactor-free chloroperoxidases.
Related PDB
Related UniProtKB
[5]
Resource
Comments
Medline ID
PubMed ID	12369917
Journal	Curr Protein Pept Sci
Year	2000
Volume	1
Pages	209-35
Authors	Holmquist M
Title	Alpha/Beta-hydrolase fold enzymes: structures, functions and mechanisms.
Related PDB
Related UniProtKB
[6]
Resource
Comments	X-RAY CRYSTALLOGRAPHY (1.8 ANGSTROMS).
Medline ID
PubMed ID	15213385
Journal	Acta Crystallogr D Biol Crystallogr
Year	2004
Volume	60
Pages	1237-43
Authors	Cheeseman JD, Tocilj A, Park S, Schrag JD, Kazlauskas RJ
Title	Structure of an aryl esterase from Pseudomonas fluorescens.
Related PDB	1va4
Related UniProtKB	P22862
[7]
Resource
Comments
Medline ID
PubMed ID	15381402
Journal	Bioorg Chem
Year	2004
Volume	32
Pages	367-75
Authors	Bugg TD
Title	Diverse catalytic activities in the alphabeta-hydrolase family of enzymes: activation of H2O, HCN, H2O2, and O2.
Related PDB
Related UniProtKB
[8]
Resource
Comments
Medline ID
PubMed ID	15803517
Journal	Angew Chem Int Ed Engl
Year	2005
Volume	44
Pages	2742-6
Authors	Bernhardt P, Hult K, Kazlauskas RJ
Title	Molecular basis of perhydrolase activity in serine hydrolases.
Related PDB
Related UniProtKB
[9]
Resource
Comments
Medline ID
PubMed ID	20112920
Journal	Biochemistry
Year	2010
Volume	49
Pages	1931-42
Authors	Yin de LT, Bernhardt P, Morley KL, Jiang Y, Cheeseman JD, Purpero V, Schrag JD, Kazlauskas RJ
Title	Switching catalysis from hydrolysis to perhydrolysis in Pseudomonas fluorescens esterase.
Related PDB	3hea 3hi4
Related UniProtKB	P22862

Comments
This enzyme has got a classical catalytic triad composed of Ser/His/Asp witha an oxyanion hole (see [6], [8], [9]). Thus, this enzyme seems to have a similar mechanism to that by other serine esterases. Although this enzyme catalyzes hydrolysis of aryl esters, this enzyme shows low perhydrolysis activity, which is similar to that of non-heme chloroperoxidase (EC 1.11.1.10; S00344 in EzCatDB) (see [8], [9]). Moreover, this enzyme also shows structural similarity with the chloroperoxidase enzyme. Thus, the perhydrolysis mechanism must be similar to that of ester hydrolysis.

Comments

This enzyme has got a classical catalytic triad composed of Ser/His/Asp witha an oxyanion hole (see [6], [8], [9]). Thus, this enzyme seems to have a similar mechanism to that by other serine esterases.
Although this enzyme catalyzes hydrolysis of aryl esters, this enzyme shows low perhydrolysis activity, which is similar to that of non-heme chloroperoxidase (EC 1.11.1.10; S00344 in EzCatDB) (see [8], [9]). Moreover, this enzyme also shows structural similarity with the chloroperoxidase enzyme. Thus, the perhydrolysis mechanism must be similar to that of ester hydrolysis.

Created	Updated
2011-01-19	2012-10-22