DB code: D00416

RLCP classification	3.103.70000.357 : Transfer
CATH domain	3.40.1190.20 : UDP-N-acetylmuramoyl-L-alanine	Catalytic domain
CATH domain	3.30.1110.10 : Adenosine kinase, small domain	Catalytic domain
E.C.	2.7.1.20
CSA	1lij 1lio
M-CSA	1lij 1lio
MACiE	M0209

CATH domain	Related DB codes (homologues)
3.40.1190.20 : UDP-N-acetylmuramoyl-L-alanine	S00534 S00541 S00678 S00705 S00903 S00904 S00905 S00453

Uniprot Enzyme Name
UniprotKB	Protein name	Synonyms	RefSeq	Pfam
P55263	Adenosine kinase	AK EC 2.7.1.20 Adenosine 5''-phosphotransferase	NP_001114.2 (Protein) NM_001123.3 (DNA/RNA sequence) NP_001189378.1 (Protein) NM_001202449.1 (DNA/RNA sequence) NP_001189379.1 (Protein) NM_001202450.1 (DNA/RNA sequence) NP_006712.2 (Protein) NM_006721.3 (DNA/RNA sequence)	PF00294 (PfkB) [Graphical View]
Q9TVW2	Adenosine kinase	AK EC 2.7.1.20 Adenosine 5''-phosphotransferase		PF00294 (PfkB) [Graphical View]

KEGG enzyme name
adenosine kinase adenosine kinase (phosphorylating)

UniprotKB: Accession Number	Entry name	Activity	Subunit	Subcellular location	Cofactor
P55263	ADK_HUMAN	ATP + adenosine = ADP + AMP.	Monomer.		Binds 3 magnesium ions per subunit.
Q9TVW2	ADK_TOXGO	ATP + adenosine = ADP + AMP.			Binds 1 magnesium ion per subunit.

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

Compound table
	Cofactors	Substrates		Products		Intermediates
KEGG-id	C00305	C00002	C00212	C00008	C00020
E.C.
Compound	Magnesium	ATP	Adenosine	ADP	AMP
Type	divalent metal (Ca2+, Mg2+)	amine group,nucleotide	amine group,nucleotide	amine group,nucleotide	amine group,nucleotide
ChEBI	18420 18420	15422 15422	16335 16335	16761 16761	16027 16027
PubChem	888 888	5957 5957	60961 60961	6022 6022	6083 6083

1dgmA01	Unbound	Unbound	Bound:ADN	Unbound	Unbound
1dgyA01	Bound:_MG	Analogue:ACP	Bound:ADN	Unbound	Unbound
1dh0A01	Unbound	Unbound	Bound:ADN	Analogue:ADN	Unbound
1dh1A01	Bound:_MG	Analogue:ACP	Analogue:RPP	Unbound	Unbound
1dh2A01	Unbound	Unbound	Unbound	Unbound	Unbound
1liiA01	Bound:_MG	Analogue:ACP	Bound:ADN	Unbound	Unbound
1lijA01	Bound:_MG	Analogue:ACP	Analogue:RPP	Unbound	Unbound
1likA01	Unbound	Unbound	Bound:ADN	Analogue:ADN	Unbound
1lioA01	Unbound	Unbound	Unbound	Unbound	Unbound
1bx4A01	Bound:_MG	Unbound	Bound:ADN	Analogue:ADN	Unbound
1dgmA02	Unbound	Unbound	Unbound	Unbound	Unbound
1dgyA02	Unbound	Unbound	Unbound	Unbound	Unbound
1dh0A02	Unbound	Unbound	Unbound	Unbound	Unbound
1dh1A02	Unbound	Unbound	Unbound	Unbound	Unbound
1dh2A02	Unbound	Unbound	Unbound	Unbound	Unbound
1liiA02	Unbound	Unbound	Unbound	Unbound	Unbound
1lijA02	Unbound	Unbound	Unbound	Unbound	Unbound
1likA02	Unbound	Unbound	Unbound	Unbound	Unbound
1lioA02	Unbound	Unbound	Unbound	Unbound	Unbound
1bx4A02	Bound:2x_MG	Unbound	Unbound	Unbound	Unbound

Reference for Active-site residues
resource	references	E.C.
Swiss-prot;P55263, Q9TVW2 & literature [2], [10]

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

1dgmA01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1dgyA01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1dh0A01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1dh1A01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1dh2A01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1liiA01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1lijA01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1likA01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1lioA01	ASP 318	THR 313(magnesium binding)		GLY 315;GLY 317
1bx4A01	ASP 300	THR 295(magnesium binding)		GLY 297;GLY 299
1dgmA02	ARG 136
1dgyA02	ARG 136
1dh0A02	ARG 136
1dh1A02	ARG 136
1dh2A02	ARG 136
1liiA02	ARG 136
1lijA02	ARG 136
1likA02	ARG 136
1lioA02	ARG 136
1bx4A02	ARG 132

References for Catalytic Mechanism
References	Sections	No. of steps in catalysis
[2]	Fig.12, p.15617-15618	2
[5]	Fig.6, p.392	3
[10]	p.886-890, Fig.6

References
[1]
Resource
Comments
Medline ID
PubMed ID	2538441
Journal	J Biol Chem
Year	1989
Volume	264
Pages	4356-61
Authors	Bhaumik D, Datta AK
Title	Immunochemical and catalytic characteristics of adenosine kinase from Leishmania donovani.
Related PDB
Related UniProtKB
[2]
Resource
Comments	X-RAY CRYSTALLOGRAPHY (1.5 ANGSTROMS) OF SHORT ISOFORM
Medline ID	99060037
PubMed ID	9843365
Journal	Biochemistry
Year	1998
Volume	37
Pages	15607-20
Authors	Mathews II, Erion MD, Ealick SE
Title	Structure of human adenosine kinase at 1.5 A resolution.
Related PDB	1bx4
Related UniProtKB	P55263
[3]
Resource
Comments
Medline ID
PubMed ID	10518797
Journal	Eur J Biochem
Year	1999
Volume	265
Pages	1015-21
Authors	Carret C, Delbecq S, Labesse G, Carcy B, Precigout E, Moubri K, Schetters TP, Gorenflot A
Title	Characterization and molecular cloning of an adenosine kinase from Babesia canis rossi.
Related PDB
Related UniProtKB
[4]
Resource
Comments
Medline ID
PubMed ID	10666633
Journal	Acta Crystallogr D Biol Crystallogr
Year	2000
Volume	56
Pages	76-8
Authors	Recacha R, Talalaev A, DeLucas LJ, Chattopadhyay D
Title	Toxoplasma gondii adenosine kinase: expression, purification, characterization, crystallization and preliminary crystallographic analysis.
Related PDB
Related UniProtKB
[5]
Resource
Comments
Medline ID
PubMed ID	10964675
Journal	Biochem Biophys Res Commun
Year	2000
Volume	275
Pages	386-93
Authors	Maj MC, Singh B, Gupta RS
Title	Structure-activity studies on mammalian adenosine kinase.
Related PDB
Related UniProtKB
[6]
Resource
Comments
Medline ID
PubMed ID	11123986
Journal	J Med Chem
Year	2000
Volume	43
Pages	4781-6
Authors	Hajduk PJ, Gomtsyan A, Didomenico S, Cowart M, Bayburt EK, Solomon L, Severin J, Smith R, Walter K, Holzman TF, Stewart A, McGaraughty S, Jarvis MF, Kowaluk EA, Fesik SW
Title	Design of adenosine kinase inhibitors from the NMR-based screening of fragments.
Related PDB
Related UniProtKB
[7]
Resource
Comments
Medline ID
PubMed ID	10956197
Journal	J Med Chem
Year	2000
Volume	43
Pages	2894-905
Authors	Ugarkar BG, Castellino AJ, DaRe JM, Kopcho JJ, Wiesner JB, Schanzer JM, Erion MD
Title	Adenosine kinase inhibitors. 2. Synthesis, enzyme inhibition, and antiseizure activity of diaryltubercidin analogues.
Related PDB
Related UniProtKB
[8]
Resource
Comments	X-RAY CRYSTALLOGRAPHY (1.72 ANGSTROMS)
Medline ID	20135988
PubMed ID	10669608
Journal	J Mol Biol
Year	2000
Volume	296
Pages	549-67
Authors	Schumacher MA, Scott DM, Mathews II, Ealick SE, Roos DS, Ullman B, Brennan RG
Title	Crystal structures of Toxoplasma gondii adenosine kinase reveal a novel catalytic mechanism and prodrug binding.
Related PDB	1dgy 1dh0 1dh2
Related UniProtKB	Q9TVM2
[9]
Resource
Comments	X-ray crystallography
Medline ID
PubMed ID	10794412
Journal	Protein Sci
Year	2000
Volume	9
Pages	704-12
Authors	Cook WJ, DeLucas LJ, Chattopadhyay D
Title	Crystal structure of adenosine kinase from Toxoplasma gondii at 1.8 A resolution.
Related PDB	1dgm 1dh1
Related UniProtKB
[10]
Resource
Comments
Medline ID
PubMed ID	10801355
Journal	J Mol Biol
Year	2000
Volume	298
Pages	875-93
Authors	Schumacher MA, Scott DM, Mathews II, Ealick SE, Roos DS, Ullman B, Brennan RG
Title	Crystal structures of Toxoplasma gondii adenosine kinase reveal a novel catalytic mechanism and prodrug binding.
Related PDB	1lii 1lij 1lik 1lio
Related UniProtKB
[11]
Resource
Comments
Medline ID
PubMed ID	11286887
Journal	Structure (Camb)
Year	2001
Volume	9
Pages	205-14
Authors	Ito S, Fushinobu S, Yoshioka I, Koga S, Matsuzawa H, Wakagi T
Title	Structural basis for the ADP-specificity of a novel glucokinase from a hyperthermophilic archaeon.
Related PDB
Related UniProtKB
[12]
Resource
Comments
Medline ID
PubMed ID	12244046
Journal	J Biol Chem
Year	2002
Volume	277
Pages	47451-60
Authors	Chakraborty A, Das I, Datta R, Sen B, Bhattacharyya D, Mandal C, Datta AK
Title	A single-domain cyclophilin from Leishmania donovani reactivates soluble aggregates of adenosine kinase by isomerase-independent chaperone function.
Related PDB
Related UniProtKB
[13]
Resource
Comments
Medline ID
PubMed ID	12166937
Journal	J Med Chem
Year	2002
Volume	45
Pages	3639-48
Authors	Gomtsyan A, Didomenico S, Lee CH, Matulenko MA, Kim K, Kowaluk EA, Wismer CT, Mikusa J, Yu H, Kohlhaas K, Jarvis MF, Bhagwat SS
Title	Design, synthesis, and structure-activity relationship of 6-alkynylpyrimidines as potent adenosine kinase inhibitors.
Related PDB
Related UniProtKB

Comments
According to the literature [2], [5], & [10], the catalytic reaction of this enzyme proceeds via SN2-mechanism, in which acceptor 5'-hydroxyl group activated by a general base makes a nucleophilic attack on gamma-phosphate of ATP. Here, Asp318 (PDB;1dgy) acts as the general base. Moreover, Arg136 (PDB;1dgy) stabilizes the negatively charged gamma-phosphate group during transition state, together with an anion hole composed of mainchain amide of Gly315 and Gly317. These positive charged elements will increase the electrophilicity of the gamma-phosphate. Furthermore, magnesium ion plays an important role in the catalysis. However, whilst the ion is bridging beta- and gamma-phosphate groups of ATP in the enzyme from human, the magnesium ion interacts with alpha- and beta-phosphate groups in the enzyme from T. gondii. In either case, the magnesium ion would neutralize the negatively charged phosphate groups to facilitate the catalysis (see [10]).

Comments

According to the literature [2], [5], & [10], the catalytic reaction of this enzyme proceeds via SN2-mechanism, in which acceptor 5'-hydroxyl group activated by a general base makes a nucleophilic attack on gamma-phosphate of ATP. Here, Asp318 (PDB;1dgy) acts as the general base. Moreover, Arg136 (PDB;1dgy) stabilizes the negatively charged gamma-phosphate group during transition state, together with an anion hole composed of mainchain amide of Gly315 and Gly317. These positive charged elements will increase the electrophilicity of the gamma-phosphate.
Furthermore, magnesium ion plays an important role in the catalysis. However, whilst the ion is bridging beta- and gamma-phosphate groups of ATP in the enzyme from human, the magnesium ion interacts with alpha- and beta-phosphate groups in the enzyme from T. gondii. In either case, the magnesium ion would neutralize the negatively charged phosphate groups to facilitate the catalysis (see [10]).

Created	Updated
2003-07-22	2009-02-26