DB code: S00308

RLCP classification	3.133.90030.392 : Transfer
CATH domain	3.40.50.300 : Rossmann fold	Catalytic domain
E.C.	2.7.4.14
CSA
M-CSA
MACiE

CATH domain	Related DB codes (homologues)
3.40.50.300 : Rossmann fold	S00527 S00547 S00548 S00550 S00554 S00555 S00671 S00672 S00676 S00680 S00682 S00913 S00914 S00301 S00302 S00303 S00304 S00307 S00305 S00306 S00309 S00310 S00311 M00114 M00199 D00129 D00130 D00540 M00186

Uniprot Enzyme Name
UniprotKB	Protein name	Synonyms	RefSeq	Pfam
P20425	Cytidylate kinase	EC 2.7.4.14 Deoxycytidylate kinase UMP-CMP kinase	XP_637196.1 (Protein) XM_632104.1 (DNA/RNA sequence)	PF00406 (ADK) [Graphical View]
P30085	UMP-CMP kinase	EC 2.7.4.14 Cytidylate kinase Deoxycytidylate kinase Cytidine monophosphate kinase Uridine monophosphate kinase Uridine monophosphate/cytidine monophosphate kinase UMP/CMP kinase UMP/CMPK	NP_001129612.1 (Protein) NM_001136140.1 (DNA/RNA sequence) NP_057392.1 (Protein) NM_016308.2 (DNA/RNA sequence)	PF00406 (ADK) [Graphical View]

KEGG enzyme name
cytidylate kinase deoxycytidylate kinase deoxycytidylate kinase CMP kinase CTP:CMP phosphotransferase dCMP kinase deoxycytidine monophosphokinase UMP-CMP kinase ATP:UMP-CMP phosphotransferase pyrimidine nucleoside monophosphate kinase

UniprotKB: Accession Number	Entry name	Activity	Subunit	Subcellular location	Cofactor
P20425	KCY_DICDI	ATP + (d)CMP = ADP + (d)CDP.	Monomer.
P30085	KCY_HUMAN	ATP + (d)CMP = ADP + (d)CDP.		Nucleus. Cytoplasm. Note=Mainly nuclear.	Magnesium.

KEGG Pathways
Map code	Pathways	E.C.
MAP00240	Pyrimidine metabolism

Compound table
	Cofactors	Substrates			Products			Intermediates
KEGG-id	C00305	C00002	C00055	C00239	C00008	C00112	C00705
E.C.
Compound	Magnesium	ATP	CMP	dCMP	ADP	CDP	dCDP
Type	divalent metal (Ca2+, Mg2+)	amine group,nucleotide	amine group,nucleotide	amine group,nucleotide	amine group,nucleotide	amine group,nucleotide	amine group,nucleotide
ChEBI	18420 18420	15422 15422	17361 17361	15918 15918	16761 16761	17239 17239	28846 28846
PubChem	888 888	5957 5957	6131 6131	13945 13945	6022 6022	6132 6132	150855 150855

1qf9A	Bound:_MG	Unbound	Bound:C5P	Unbound	Bound:ADP	Unbound	Unbound	Transition-state-analogue:ALF
1ukdA	Unbound	Analogue:UP5(ATP)	Analogue:UP5(CMP)	Unbound	Unbound	Unbound	Unbound	Unbound
1ukeA	Bound:_MG	Analogue:UP5(ATP)	Analogue:UP5(CMP)	Unbound	Unbound	Unbound	Unbound	Unbound
2ukdA	Bound:_MG	Unbound	Bound:C5P	Unbound	Bound:ADP	Unbound	Unbound	Unbound
3ukdA	Bound:_MG	Unbound	Bound:C5P	Unbound	Bound:ADP	Unbound	Unbound	Transition-state-analogue:AF3
4ukdA	Bound:_MG	Unbound	Unbound	Unbound	Bound:ADP	Analogue:UDP	Unbound	Transition-state-analogue:BF2
5ukdA	Bound:_MG	Unbound	Bound:C5P	Unbound	Bound:ADP	Unbound	Unbound	Transition-state-analogue:AF3
1tevA	Unbound	Unbound	Unbound	Unbound	Unbound	Unbound	Unbound	Unbound

Reference for Active-site residues
resource	references	E.C.
similar to S00305

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

1qf9A	LYS 19;ARG 42;ARG 93;ARG 131;ARG 137;ARG 148
1ukdA	LYS 19;ARG 42;ARG 93;ARG 131;ARG 137;ARG 148
1ukeA	LYS 19;ARG 42;ARG 93;ARG 131;ARG 137;ARG 148
2ukdA	LYS 19;ARG 42;ARG 93;ARG 131;ARG 137;ARG 148
3ukdA	LYS 19;ARG 42;ARG 93;ARG 131;ARG 137;ARG 148
4ukdA	LYS 19;ARG 42;ARG 93;ARG 131;ARG 137;ARG 148
5ukdA	LYS 19;ARG 42;ARG 93;ARG 131;ARG 137;ARG 148
1tevA	LYS 16;ARG 39;ARG 96;ARG 134;ARG 140;ARG 151

References for Catalytic Mechanism
References	Sections	No. of steps in catalysis
[4]	p.9724-9726
[6]	Fig.1, p.9294-9295	2
[9]	p.111-119
[10]	Fig.1, Fig.2	2
[12]	p.1106-1108

References
[1]
Resource
Comments
Medline ID
PubMed ID	7729545
Journal	FEBS Lett
Year	1995
Volume	363
Pages	22-4
Authors	Wiesmuller L, Scheffzek K, Kliche W, Goody RS, Wittinghofer A, Reinstein J
Title	Crystallization and preliminary X-ray analysis of UMP/CMP-kinase from Dictyostelium discoideum with the specific bisubstrate inhibitor P1-(adenosine 5')-P5-(uridine 5')-pentaphosphate (UP5A).
Related PDB
Related UniProtKB
[2]
Resource
Comments
Medline ID
PubMed ID	7663945
Journal	Structure
Year	1995
Volume	3
Pages	483-90
Authors	Vonrhein C, Schlauderer GJ, Schulz GE
Title	Movie of the structural changes during a catalytic cycle of nucleoside monophosphate kinases.
Related PDB
Related UniProtKB
[3]
Resource
Comments
Medline ID
PubMed ID	8576266
Journal	J Biol Chem
Year	1996
Volume	271
Pages	2856-62
Authors	Bucurenci N, Sakamoto H, Briozzo P, Palibroda N, Serina L, Sarfati RS, Labesse G, Briand G, Danchin A, Barzu O, Gilles AM
Title	CMP kinase from Escherichia coli is structurally related to other nucleoside monophosphate kinases.
Related PDB
Related UniProtKB
[4]
Resource
Comments
Medline ID
PubMed ID	8703943
Journal	Biochemistry
Year	1996
Volume	35
Pages	9716-27
Authors	Scheffzek K, Kliche W, Wiesmuller L, Reinstein J
Title	Crystal structure of the complex of UMP/CMP kinase from Dictyostelium discoideum and the bisubstrate inhibitor P1-(5'-adenosyl) P5-(5'-uridyl) pentaphosphate (UP5A) and Mg2+ at 2.2 A: implications for water-mediated specificity.
Related PDB	1ukd 1uke
Related UniProtKB	P20425
[5]
Resource
Comments
Medline ID
PubMed ID	9126287
Journal	Arch Biochem Biophys
Year	1997
Volume	340
Pages	144-53
Authors	Schultz CP, Ylisastigui-Pons L, Serina L, Sakamoto H, Mantsch HH, Neuhard J, Barzu O, Gilles AM
Title	Structural and catalytic properties of CMP kinase from Bacillus subtilis: a comparative analysis with the homologous enzyme from Escherichia coli.
Related PDB
Related UniProtKB	P0A6I0
[6]
Resource
Comments
Medline ID
PubMed ID	9280438
Journal	Biochemistry
Year	1997
Volume	36
Pages	9290-6
Authors	Schlichting I, Reinstein J
Title	Structures of active conformations of UMP kinase from Dictyostelium discoideum suggest phosphoryl transfer is associative.
Related PDB	2ukd 3ukd 4ukd
Related UniProtKB	P20425
[7]
Resource
Comments
Medline ID
PubMed ID	9862805
Journal	Structure
Year	1998
Volume	6
Pages	1517-27
Authors	Briozzo P, Golinelli-Pimpaneau B, Gilles AM, Gaucher JF, Burlacu-Miron S, Sakamoto H, Janin J, Barzu O
Title	Structures of escherichia coli CMP kinase alone and in complex with CDP: a new fold of the nucleoside monophosphate binding domain and insights into cytosine nucleotide specificity.
Related PDB	1cke 2cmk
Related UniProtKB	P0A6I0
[8]
Resource
Comments
Medline ID
PubMed ID	10426946
Journal	Nat Struct Biol
Year	1999
Volume	6
Pages	721-3
Authors	Schlichting I, Reinstein J
Title	pH influences fluoride coordination number of the AlFx phosphoryl transfer transition state analog.
Related PDB	1qf9 5ukd
Related UniProtKB
[9]
Resource
Comments
Medline ID
PubMed ID	10218107
Journal	Adv Enzymol Relat Areas Mol Biol
Year	1999
Volume	73
Pages	103-34
Authors	Yan H, Tsai MD
Title	Nucleoside monophosphate kinases: structure, mechanism, and substrate specificity.
Related PDB
Related UniProtKB
[10]
Resource
Comments
Medline ID
PubMed ID	11152133
Journal	Protein Sci
Year	2000
Volume	9
Pages	2225-31
Authors	Hutter MC, Helms V
Title	Phosphoryl transfer by a concerted reaction mechanism in UMP/CMP-kinase.
Related PDB
Related UniProtKB
[11]
Resource
Comments
Medline ID
PubMed ID	11123913
Journal	Biochemistry
Year	2000
Volume	39
Pages	15870-8
Authors	Li de La Sierra IM, Gallay J, Vincent M, Bertrand T, Briozzo P, Barzu O, Gilles AM
Title	Substrate-induced fit of the ATP binding site of cytidine monophosphate kinase from Escherichia coli: time-resolved fluorescence of 3'-anthraniloyl-2'-deoxy-ADP and molecular modeling.
Related PDB
Related UniProtKB
[12]
Resource
Comments
Medline ID
PubMed ID	11827479
Journal	J Mol Biol
Year	2002
Volume	315
Pages	1099-110
Authors	Bertrand T, Briozzo P, Assairi L, Ofiteru A, Bucurenci N, Munier-Lehmann H, Golinelli-Pimpaneau B, Barzu O, Gilles AM
Title	Sugar specificity of bacterial CMP kinases as revealed by crystal structures and mutagenesis of Escherichia coli enzyme.
Related PDB
Related UniProtKB
[13]
Resource
Comments
Medline ID
PubMed ID	15163660
Journal	J Biol Chem
Year	2004
Volume	279
Pages	33882-9
Authors	Segura-Pena D, Sekulic N, Ort S, Konrad M, Lavie A
Title	Substrate-induced conformational changes in human UMP/CMP kinase.
Related PDB	1tev
Related UniProtKB

Comments
Literature [6] concluded that the mechanism of phosphoryl transfer has a strong associative character rather than dissociative character. According to the literature [6] & [10], the positions of the catalytic Mg2+ ion and the conserved lysine residue, Lys19, of the P-loop are invariant during the reaction, suggesting that they just provide a structural template for phosphoryl transfer. In contrast, catalytic arginine residues move to stabilize negative charges that develop during the reaction [6]. The paper [10] proposed a concerted reaction mechanism, in which a proton shifts synchronously from the monophosphate of the acceptor substrate to the transferred phosphate group.

Comments

Literature [6] concluded that the mechanism of phosphoryl transfer has a strong associative character rather than dissociative character.
According to the literature [6] & [10], the positions of the catalytic Mg2+ ion and the conserved lysine residue, Lys19, of the P-loop are invariant during the reaction, suggesting that they just provide a structural template for phosphoryl transfer. In contrast, catalytic arginine residues move to stabilize negative charges that develop during the reaction [6].
The paper [10] proposed a concerted reaction mechanism, in which a proton shifts synchronously from the monophosphate of the acceptor substrate to the transferred phosphate group.

Created	Updated
2002-05-31	2010-05-24