DB code: S00232

RLCP classification	4.12.642320.458 : Addition
RLCP classification	5.201.2781500.453 : Elimination
CATH domain	3.20.20.140 : TIM Barrel	Catalytic domain
E.C.	3.5.4.4
CSA	1a4l
M-CSA	1a4l
MACiE

CATH domain	Related DB codes (homologues)
3.20.20.140 : TIM Barrel	S00231 M00186 D00673 D00675 D00801 D00873 M00030 M00225 M00226

Uniprot Enzyme Name
UniprotKB	Protein name	Synonyms	RefSeq	Pfam
P03958	Adenosine deaminase	EC 3.5.4.4 Adenosine aminohydrolase	NP_001258981.1 (Protein) NM_001272052.1 (DNA/RNA sequence) NP_031424.1 (Protein) NM_007398.4 (DNA/RNA sequence)	PF00962 (A_deaminase) [Graphical View]
P56658	Adenosine deaminase	EC 3.5.4.4 Adenosine aminohydrolase	NP_776312.1 (Protein) NM_173887.2 (DNA/RNA sequence)	PF00962 (A_deaminase) [Graphical View]

KEGG enzyme name
adenosine deaminase deoxyadenosine deaminase

UniprotKB: Accession Number	Entry name	Activity	Subunit	Subcellular location	Cofactor
P03958	ADA_MOUSE	Adenosine + H(2)O = inosine + NH(3).
P56658	ADA_BOVIN	Adenosine + H(2)O = inosine + NH(3).

KEGG Pathways
Map code	Pathways	E.C.
MAP00230	Purine metabolism

Compound table
	Cofactors	Substrates		Products		Intermediates
KEGG-id	C00038	C00212	C00001	C00294	C00014	I00018
E.C.
Compound	Zinc	Adenosine	H2O	Inosine	NH3	6-Hydroxy-adenosine
Type	heavy metal	amine group,nucleoside	H2O	amide group,nucleoside	amine group,organic ion
ChEBI	29105 29105	16335 16335	15377 15377	17596 17596	16134 16134
PubChem	32051 32051	60961 60961	22247451 962 22247451 962	6021 6021	222 222

1a4lA	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:DCF
1a4lB	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:DCF
1a4lC	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:DCF
1a4lD	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:DCF
1a4mA	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:PRH
1a4mB	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:PRH
1a4mC	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:PRH
1a4mD	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:PRH
1addA	Bound:_ZN	Analogue:1DA	Bound:HOH_461	Unbound	Unbound	Unbound
1fkwA	Bound:_ZN	Analogue:PUR		Unbound	Unbound	Unbound
1fkxA	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:PRH
1uioA	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:HPR
1uipA	Bound:_ZN	Analogue:PUR		Unbound	Unbound	Unbound
2adaA	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:HPR
1krmA	Bound:_ZN	Unbound		Unbound	Unbound	Intermediate-analogue:PRH
1ndvA	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1ndwA	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1ndyA	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1ndzA	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1o5rA	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1qxlA	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1umlA	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1v78A	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1v79A	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1v7aA	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1w1iE	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1w1iF	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1w1iG	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
1w1iH	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
2bgnE	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
2bgnF	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
2bgnG	Bound:_ZN	Unbound		Unbound	Unbound	Unbound
2bgnH	Bound:_ZN	Unbound		Unbound	Unbound	Unbound

Reference for Active-site residues
resource	references	E.C.
literature [10], [12], [14], [15], [27]

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

1a4lA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1a4lB	GLU 717;HIS 738;ASP 795	HIS 515;HIS 517;HIS 714;ASP 795(Zinc binding)
1a4lC	GLU 1217;HIS 1238;ASP 1295	HIS 1015;HIS 1017;HIS 1214;ASP 1295(Zinc binding)
1a4lD	GLU 1717;HIS 1738;ASP 1795	HIS 1515;HIS 1517;HIS 1714;ASP 1795(Zinc binding)
1a4mA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1a4mB	GLU 717;HIS 738;ASP 795	HIS 515;HIS 517;HIS 714;ASP 795(Zinc binding)
1a4mC	GLU 1217;HIS 1238;ASP 1295	HIS 1015;HIS 1017;HIS 1214;ASP 1295(Zinc binding)
1a4mD	GLU 1717;HIS 1738;ASP 1795	HIS 1515;HIS 1517;HIS 1714;ASP 1795(Zinc binding)
1addA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1fkwA	GLU 217;HIS 238;	HIS 15;HIS 17;HIS 214; (Zinc binding)			mutant D295E
1fkxA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)			mutant D296A
1uioA	GLU 217;;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)			mutant H238A
1uipA	GLU 217;;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)			mutant H238E
2adaA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1krmA	GLU 214;HIS 235;ASP 292	HIS 12;HIS 14;HIS 211;ASP 292(Zinc binding)
1ndvA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1ndwA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1ndyA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1ndzA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1o5rA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1qxlA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1umlA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1v78A	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1v79A	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1v7aA	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1w1iE	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1w1iF	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1w1iG	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
1w1iH	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
2bgnE	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
2bgnF	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
2bgnG	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)
2bgnH	GLU 217;HIS 238;ASP 295	HIS 15;HIS 17;HIS 214;ASP 295(Zinc binding)

References for Catalytic Mechanism
References	Sections	No. of steps in catalysis
[1]	p.8455-8456
[2]	p.7382-7383
[4]	p.1246-1247
[6]	Fig.4, p.1282-1283
[7]	p.7364-7365
[10]	Fig.3, p.1692-1693
[11]	p.693
[12]
[13]	Scheme 1
[14]	Fig.1, p.7863, p.7871
[15]	Fig.1, p.15027-15028
[19]	p.4974-4975
[20]	p.8322-8323
[22]	p.2589-2590

References
[1]
Resource
Comments
Medline ID
PubMed ID	3442668
Journal	Biochemistry
Year	1987
Volume	26
Pages	8450-7
Authors	Kurz LC, Frieden C
Title	Adenosine deaminase converts purine riboside into an analogue of a reactive intermediate: a 13C NMR and kinetic study.
Related PDB
Related UniProtKB
[2]
Resource
Comments
Medline ID
PubMed ID	3427079
Journal	Biochemistry
Year	1987
Volume	26
Pages	7378-84
Authors	Weiss PM, Cook PF, Hermes JD, Cleland WW
Title	Evidence from nitrogen-15 and solvent deuterium isotope effects on the chemical mechanism of adenosine deaminase.
Related PDB
Related UniProtKB
[3]
Resource
Comments
Medline ID
PubMed ID	3398052
Journal	J Mol Biol
Year	1988
Volume	200
Pages	613-4
Authors	Wilson DK, Rudolph FB, Harrison ML, Kellems RE, Quiocho FA
Title	Preliminary X-ray analysis of crystals of murine adenosine deaminase.
Related PDB
Related UniProtKB
[4]
Resource
Comments
Medline ID
PubMed ID	2713361
Journal	Biochemistry
Year	1989
Volume	28
Pages	1242-7
Authors	Jones W, Kurz LC, Wolfenden R
Title	Transition-state stabilization by adenosine deaminase: 1,6-addition of water to purine ribonucleoside, the enzyme's affinity for 6-hydroxy-1,6-dihydropurine ribonucleoside, and the effective concentration of substrate water at the active site.
Related PDB
Related UniProtKB
[5]
Resource
Comments
Medline ID
PubMed ID	2275794
Journal	J Biomol Struct Dyn
Year	1990
Volume	8
Pages	199-212
Authors	Cox MB, Arjunan P, Arora SK
Title	Structural and conformational analysis of pentostatin (2'-deoxycoformycin), a potent inhibitor of adenosine deaminase.
Related PDB
Related UniProtKB
[6]
Resource
Comments	X-RAY CRYSTALLOGRAPHY (2.4 ANGSTROMS).
Medline ID	92022516
PubMed ID	1925539
Journal	Science
Year	1991
Volume	252
Pages	1278-84
Authors	Wilson DK, Rudolph FB, Quiocho FA
Title	Atomic structure of adenosine deaminase complexed with a transition-state analog: understanding catalysis and immunodeficiency mutations.
Related PDB	2ada
Related UniProtKB	P03958
[7]
Resource
Comments
Medline ID
PubMed ID	1510925
Journal	Biochemistry
Year	1992
Volume	31
Pages	7356-66
Authors	Kati WM, Acheson SA, Wolfenden R
Title	A transition state in pieces: major contributions of entropic effects to ligand binding by adenosine deaminase.
Related PDB
Related UniProtKB
[8]
Resource
Comments
Medline ID
PubMed ID	1731884
Journal	Biochemistry
Year	1992
Volume	31
Pages	39-48
Authors	Kurz LC, Moix L, Riley MC, Frieden C
Title	The rate of formation of transition-state analogues in the active site of adenosine deaminase is encounter-controlled: implications for the mechanism.
Related PDB
Related UniProtKB
[9]
Resource
Comments
Medline ID
PubMed ID	1518061
Journal	J Mol Biol
Year	1992
Volume	226
Pages	917-21
Authors	Sharff AJ, Wilson DK, Chang Z, Quiocho FA
Title	Refined 2.5 A structure of murine adenosine deaminase at pH 6.0.
Related PDB
Related UniProtKB
[10]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	8439534
Journal	Biochemistry
Year	1993
Volume	32
Pages	1689-94
Authors	Wilson DK, Quiocho FA
Title	A pre-transition-state mimic of an enzyme: X-ray structure of adenosine deaminase with bound 1-deazaadenosine and zinc-activated water.
Related PDB	1add
Related UniProtKB
[11]
Resource
Comments
Medline ID
PubMed ID	7634072
Journal	Nat Struct Biol
Year	1994
Volume	1
Pages	691-4
Authors	Wilson DK, Quiocho FA
Title	Crystallographic observation of a trapped tetrahedral intermediate in a metalloenzyme.
Related PDB
Related UniProtKB
[12]
Resource
Comments
Medline ID
PubMed ID	8634299
Journal	Biochemistry
Year	1996
Volume	35
Pages	1672-80
Authors	Mohamedali KA, Kurz LC, Rudolph FB
Title	Site-directed mutagenesis of active site glutamate-217 in mouse adenosine deaminase.
Related PDB
Related UniProtKB
[13]
Resource
Comments
Medline ID
PubMed ID	8664259
Journal	Biochemistry
Year	1996
Volume	35
Pages	4697-703
Authors	Shih P, Wolfenden R
Title	Enzyme-substrate complexes of adenosine and cytidine deaminases: absence of accumulation of water adducts.
Related PDB
Related UniProtKB
[14]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	8672487
Journal	Biochemistry
Year	1996
Volume	35
Pages	7862-72
Authors	Sideraki V, Mohamedali KA, Wilson DK, Chang Z, Kellems RE, Quiocho FA, Rudolph FB
Title	Probing the functional role of two conserved active site aspartates in mouse adenosine deaminase.
Related PDB	1fkw 1fkx
Related UniProtKB
[15]
Resource
Comments	X-RAY CRYSTALLOGRAPHY (2.4 ANGSTROMS).
Medline ID	97098127
PubMed ID	8942668
Journal	Biochemistry
Year	1996
Volume	35
Pages	15019-28
Authors	Sideraki V, Wilson DK, Kurz LC, Quiocho FA, Rudolph FB
Title	Site-directed mutagenesis of histidine 238 in mouse adenosine deaminase: substitution of histidine 238 does not impede hydroxylate formation.
Related PDB	1uio 1uip
Related UniProtKB	P03958
[16]
Resource
Comments
Medline ID
PubMed ID	9442929
Journal	Biochem Mol Biol Int
Year	1997
Volume	43
Pages	1339-52
Authors	Lupidi G, Marmocchi F, Venardi G, Cristalli G
Title	Functional residues at the active site of bovine brain adenosine deaminase.
Related PDB
Related UniProtKB
[17]
Resource
Comments
Medline ID
PubMed ID	9361033
Journal	Hum Mol Genet
Year	1997
Volume	6
Pages	2271-8
Authors	Jiang C, Hong R, Horowitz SD, Kong X, Hirschhorn R
Title	An adenosine deaminase (ADA) allele contains two newly identified deleterious mutations (Y97C and L106V) that interact to abolish enzyme activity.
Related PDB
Related UniProtKB
[18]
Resource
Comments
Medline ID
PubMed ID	9341908
Journal	J Med Chem
Year	1997
Volume	40
Pages	3336-45
Authors	Groziak MP, Huan ZW, Ding H, Meng Z, Stevens WC, Robinson PD
Title	Effect of a chemical modification on the hydrated adenosine intermediate produced by adenosine deaminase and a model reaction for a potential mechanism of action of 5-aminoimidazole ribonucleotide carboxylase.
Related PDB
Related UniProtKB
[19]
Resource
Comments
Medline ID
PubMed ID	9538015
Journal	Biochemistry
Year	1998
Volume	37
Pages	4968-76
Authors	Deng H, Kurz LC, Rudolph FB, Callender R
Title	Characterization of hydrogen bonding in the complex of adenosine deaminase with a transition state analogue: a Raman spectroscopic study.
Related PDB
Related UniProtKB
[20]
Resource
Comments	X-RAY CRYSTALLOGRAPHY (2.6 ANGSTROMS).
Medline ID	98285559
PubMed ID	9622483
Journal	Biochemistry
Year	1998
Volume	37
Pages	8314-24
Authors	Wang Z, Quiocho FA
Title	Complexes of adenosine deaminase with two potent inhibitors: X-ray structures in four independent molecules at pH of maximum activity.
Related PDB	1a4l 1a4m
Related UniProtKB	P03958
[21]
Resource
Comments
Medline ID
PubMed ID	9474762
Journal	Biophys Chem
Year	1998
Volume	70
Pages	41-56
Authors	Caiolfa VR, Gill D, Parola AH
Title	Probing the active site of adenosine deaminase by a pH responsive fluorescent competitive inhibitor.
Related PDB
Related UniProtKB
[22]
Resource
Comments
Medline ID
PubMed ID	10704207
Journal	Biochemistry
Year	2000
Volume	39
Pages	2581-92
Authors	Ford H Jr, Dai F, Mu L, Siddiqui MA, Nicklaus MC, Anderson L, Marquez VE, Barchi JJ Jr
Title	Adenosine deaminase prefers a distinct sugar ring conformation for binding and catalysis: kinetic and structural studies.
Related PDB
Related UniProtKB
[23]
Resource
Comments
Medline ID
PubMed ID	10673097
Journal	Bioorg Med Chem Lett
Year	2000
Volume	10
Pages	139-41
Authors	Tritsch D, Jung PM, Burger A, Biellmann JF
Title	3'-Beta-ethynyl and 2'-deoxy-3'-beta-ethynyl adenosines: first 3'-beta-branched-adenosines substrates of adenosine deaminase.
Related PDB
Related UniProtKB
[24]
Resource
Comments
Medline ID
PubMed ID	12057661
Journal	Bioorg Med Chem
Year	2002
Volume	10
Pages	2723-30
Authors	Hernandez S, Ford H Jr, Marquez VE
Title	Is the anomeric effect an important factor in the rate of adenosine deaminase catalyzed hydrolysis of purine nucleosides? A direct comparison of nucleoside analogues constructed on ribose and carbocyclic templates with equivalent heterocyclic bases selected to promote hydration.
Related PDB
Related UniProtKB
[25]
Resource
Comments
Medline ID
PubMed ID	11901152
Journal	J Biol Chem
Year	2002
Volume	277
Pages	19720-6
Authors	Richard E, Alam SM, Arredondo-Vega FX, Patel DD, Hershfield MS
Title	Clustered charged amino acids of human adenosine deaminase comprise a functional epitope for binding the adenosine deaminase complexing protein CD26/dipeptidyl peptidase IV.
Related PDB
Related UniProtKB
[26]
Resource
Comments
Medline ID
PubMed ID	12437375
Journal	J Biomol Struct Dyn
Year	2002
Volume	20
Pages	375-80
Authors	Anderson E, Britt BM
Title	The stability curve of bovine adenosine deaminase is bimodal.
Related PDB
Related UniProtKB
[27]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	12554940
Journal	Acta Crystallogr D Biol Crystallogr
Year	2003
Volume	59
Pages	299-303
Authors	Kinoshita T, Nishio N, Nakanishi I, Sato A, Fujii T
Title	Structure of bovine adenosine deaminase complexed with 6-hydroxy-1,6-dihydropurine riboside.
Related PDB	1krm
Related UniProtKB
[28]
Resource
Comments
Medline ID
PubMed ID	12643924
Journal	Bioorg Med Chem Lett
Year	2003
Volume	13
Pages	1115-8
Authors	Terasaka T, Nakanishi I, Nakamura K, Eikyu Y, Kinoshita T, Nishio N, Sato A, Kuno M, Seki N, Sakane K
Title	Structure-based de novo design of non-nucleoside adenosine deaminase inhibitors.
Related PDB
Related UniProtKB
[29]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	14709046
Journal	J Am Chem Soc
Year	2004
Volume	126
Pages	34-5
Authors	Terasaka T, Kinoshita T, Kuno M, Nakanishi I
Title	A highly potent non-nucleoside adenosine deaminase inhibitor: efficient drug discovery by intentional lead hybridization.
Related PDB	1ndv 1ndw 1ndy 1ndz
Related UniProtKB
[30]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	15213224
Journal	J Biol Chem
Year	2004
Volume	279
Pages	43330-5
Authors	Weihofen WA, Liu J, Reutter W, Saenger W, Fan H
Title	Crystal structure of CD26/dipeptidyl-peptidase IV in complex with adenosine deaminase reveals a highly amphiphilic interface.
Related PDB	1w1i
Related UniProtKB
[31]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	15239652
Journal	J Med Chem
Year	2004
Volume	47
Pages	3730-43
Authors	Terasaka T, Kinoshita T, Kuno M, Seki N, Tanaka K, Nakanishi I
Title	Structure-based design, synthesis, and structure-activity relationship studies of novel non-nucleoside adenosine deaminase inhibitors.
Related PDB	1o5r 1uml 1qxl
Related UniProtKB
[32]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	15139750
Journal	J Med Chem
Year	2004
Volume	47
Pages	2728-31
Authors	Terasaka T, Okumura H, Tsuji K, Kato T, Nakanishi I, Kinoshita T, Kato Y, Kuno M, Seki N, Naoe Y, Inoue T, Tanaka K, Nakamura K
Title	Structure-based design and synthesis of non-nucleoside, potent, and orally bioavailable adenosine deaminase inhibitors.
Related PDB	1v78 1v79 1v7a
Related UniProtKB
[33]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	15695814
Journal	J Biol Chem
Year	2005
Volume	[Epub ahead of print]
Pages	[Epub ahead of print]
Authors	Weihofen WA, Liu J, Reutter W, Saenger W, Fan H
Title	Crystal structures of HIV-1 Tat derived nonapeptides Tat(1-9) and Trp2-Tat(1-9) bound to the active site of dipeptidyl peptidase IV (CD26).
Related PDB	2bgn
Related UniProtKB

Comments
This enzyme belongs to the adenosine and AMP deaminase family. This enzyme is homologous to guanine deaminase (EC 3.5.4.3; D00873 in EzCatDB) and cytosine deaminase (EC 3.5.4.1; D00675 in EzCatDB), sharing a similar catalytic site. This enzyme catalyzes two successive reactions (as in cytidine deaminase (D00406 in EzCatDB), according to the literature [6], [10] & [20]. (A) Additive double-bond deformation; Addition of water to purine C6-carbon to form a tetrahedral intermediate (I00018). (B) Eliminative double-bond formation; Elimination of amine group from the intermediate, forming a carbonyl group. #### Although literature [10] suggested that His238 is a general base to activate the water in the first reaction (A), other papers gave the evidence against it. Instead of His238, Asp295 seems more likely base (see [6], [14] & [15]). Moreover, in the second reaction, some papers ([14] & [15]) suggested that His238 might act as a general acid to protonate the eliminated amine group, it is too distant from the group. Instead of the residue, hydrophobic cluster composed of Leu58, Phe61, Thr269 & Phe300 seems to facilitate the elimination (see [20]). However, these hydrophobic residues are not so conserved among the homologous enzymes (guanine deaminase and cytosine deaminase). In analogy with cytosine deaminase (D00675 in EzCatDB), which adopts Fe2+ ion as cofactor, and guanine deaminase, which uses the same cofactor, zinc ion, as this enzyme, this enzyme may catalyzes the following reactions (addition and elimination): (A) Additive double-bond deformation; Addition of water to purine C6-carbon, forming a tetrahedral intermediate (I00018): (A1) Asp295 acts as a general base to deprotonate the Zinc-bound water. Here, the positive charge of His238 seems to stabilize the activated water. (A2) The activated water makes a nucleophilic attack on the C6 atom, whilst Glu217 acts as a general acid to protonate the N1 atom (protonation site) of the purine. This reaction leads to the formation of tetrahedral intermediate at the C6 atom, transforming the N1-C6 bond from double bond to single bond (I00018). (B) Eliminative double-bond formation; Elimination of amine group from the intermediate, forming a carbonyl group. (B1) Asp295 acts as a general acid to protonate the eliminated amine group, releasing the ammonia. (B2) Asp295 acts as a general base to deprotonate the hydroxyl group, bound to the zinc ion and His238. (Here, His238 may assist the catalytic function of Asp295 as well.) This reaction leads to the enol form of the product, inosine. (This may be an E1-like reaction, as amine elimination occurs prior to deprotonation.)

Comments

This enzyme belongs to the adenosine and AMP deaminase family.
This enzyme is homologous to guanine deaminase (EC 3.5.4.3; D00873 in EzCatDB) and cytosine deaminase (EC 3.5.4.1; D00675 in EzCatDB), sharing a similar catalytic site.
This enzyme catalyzes two successive reactions (as in cytidine deaminase (D00406 in EzCatDB), according to the literature [6], [10] & [20].
(A) Additive double-bond deformation; Addition of water to purine C6-carbon to form a tetrahedral intermediate (I00018).
(B) Eliminative double-bond formation; Elimination of amine group from the intermediate, forming a carbonyl group.
####
Although literature [10] suggested that His238 is a general base to activate the water in the first reaction (A), other papers gave the evidence against it. Instead of His238, Asp295 seems more likely base (see [6], [14] & [15]). Moreover, in the second reaction, some papers ([14] & [15]) suggested that His238 might act as a general acid to protonate the eliminated amine group, it is too distant from the group. Instead of the residue, hydrophobic cluster composed of Leu58, Phe61, Thr269 & Phe300 seems to facilitate the elimination (see [20]). However, these hydrophobic residues are not so conserved among the homologous enzymes (guanine deaminase and cytosine deaminase).
In analogy with cytosine deaminase (D00675 in EzCatDB), which adopts Fe2+ ion as cofactor, and guanine deaminase, which uses the same cofactor, zinc ion, as this enzyme, this enzyme may catalyzes the following reactions (addition and elimination):
(A) Additive double-bond deformation; Addition of water to purine C6-carbon, forming a tetrahedral intermediate (I00018):
(A1) Asp295 acts as a general base to deprotonate the Zinc-bound water. Here, the positive charge of His238 seems to stabilize the activated water.
(A2) The activated water makes a nucleophilic attack on the C6 atom, whilst Glu217 acts as a general acid to protonate the N1 atom (protonation site) of the purine. This reaction leads to the formation of tetrahedral intermediate at the C6 atom, transforming the N1-C6 bond from double bond to single bond (I00018).
(B) Eliminative double-bond formation; Elimination of amine group from the intermediate, forming a carbonyl group.
(B1) Asp295 acts as a general acid to protonate the eliminated amine group, releasing the ammonia.
(B2) Asp295 acts as a general base to deprotonate the hydroxyl group, bound to the zinc ion and His238. (Here, His238 may assist the catalytic function of Asp295 as well.) This reaction leads to the enol form of the product, inosine. (This may be an E1-like reaction, as amine elimination occurs prior to deprotonation.)

Created	Updated
2005-03-22	2012-10-17