Post-translational phosphorylation of serine 74 of human deoxycytidine kinase 
favors the enzyme adopting the open conformation making it competent for 
nucleoside binding and release.

Hazra, S.; Szewczak, A.; Ort, S.; Konrad, M.; Lavie, A.

doi:10.1021/bi2001032

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Post-translational phosphorylation of serine 74 of human deoxycytidine kinase favors the enzyme adopting the open conformation making it competent for nucleoside binding and release.

Hazra, S., Szewczak, A., Ort, S., Konrad, M., & Lavie, A. (2011). Post-translational phosphorylation of serine 74 of human deoxycytidine kinase favors the enzyme adopting the open conformation making it competent for nucleoside binding and release. Biochemistry, 50(14), 2870-2880. doi:10.1021/bi2001032.

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Hazra, S., Author
Szewczak, A.¹, Author
Ort, S.¹, Author
Konrad, M.¹, Author
Lavie, A., Author

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1Research Group of Enzyme Biochemistry, MPI for biophysical chemistry, Max Planck Society, ou_578612

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Abstract: Deoxycytidine kinase (dCK) uses either ATP or UTP as a phosphoryl donor to catalyze the phosphorylation of nucleoside acceptors. The kinetic properties of human dCK are modulated in vivo by phosphorylation of serine 74. This residue is a part of the insert region and is distant from the active site. Replacing the serine with a glutamic acid (S74E variant) can mimic phosphorylation of Ser74. To understand how phosphorylation affects the catalytic properties of dCK, we examined the S74E variant of dCK both structurally and kinetically. We observe that the presence of a glutamic acid at position 74 favors the adoption by the enzyme of the open conformation. Glu74 stabilizes the open conformation by directly interacting with the indole side chain of Trp58, a residue that is in the proximity of the base of the nucleoside substrate. The open dCK conformation is competent for the binding of nucleoside but not for phosphoryl transfer. In contrast, the closed conformation is competent for phosphoryl transfer but not for product release. Thus, dCK must make the transition between the open and closed states during the catalytic cycle. We propose a reaction scheme for dCK that incorporates the transition between the open and closed states, and this serves to rationalize the observed kinetic differences between wild-type dCK and the S74E variant.

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Language(s): eng - English

Dates: Published Online: 2011-02-25Date issued: 2011-04-12

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Rev. Type: Peer

Identifiers: DOI: 10.1021/bi2001032

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Title: Biochemistry

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Pages: - Volume / Issue: 50 (14) Sequence Number: - Start / End Page: 2870 - 2880 Identifier: ISSN: 0006-2960