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Biochemistry. 2017 Jul 5;56(26):3307-3317. doi: 10.1021/acs.biochem.7b00042. Epub 2017 Jun 19.

Characterization of DNA Binding by the Isolated N-Terminal Domain of Vaccinia Virus DNA Topoisomerase IB.

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Department of Chemistry and Biochemistry, The City College of New York , New York, New York 10031, United States.
Molecular Biology Program, Sloan-Kettering Institute , New York, New York 10021, United States.


Vaccinia TopIB (vTopIB), a 314-amino acid eukaryal-type IB topoisomerase, recognizes and transesterifies at the DNA sequence 5'-(T/C)CCTT↓, leading to the formation of a covalent DNA-(3'-phosphotyrosyl274)-enzyme intermediate in the supercoil relaxation reaction. The C-terminal segment of vTopIB (amino acids 81-314), which engages the DNA minor groove at the scissile phosphodiester, comprises an autonomous catalytic domain that retains cleavage specificity, albeit with a cleavage site affinity lower than that of the full-length enzyme. The N-terminal domain (amino acids 1-80) engages the major groove on the DNA face opposite the scissile phosphodiester. Whereas DNA contacts of the N-terminal domain have been implicated in the DNA site affinity of vTopIB, it was not known whether the N-terminal domain per se could bind DNA. Here, using isothermal titration calorimetry, we demonstrate the ability of the isolated N-terminal domain to bind a CCCTT-containing 24-mer duplex with an apparent affinity that is ∼2.2-fold higher than that for an otherwise identical duplex in which the pentapyrimidine sequence is changed to ACGTG. Analyses of the interactions of the isolated N-terminal domain with duplex DNA via solution nuclear magnetic resonance methods are consistent with its DNA contacts observed in DNA-bound crystal structures of full-length vTopIB. The chemical shift perturbations and changes in hydrodynamic properties triggered by CCCTT DNA versus non-CCCTT DNA suggest differences in DNA binding dynamics. The importance of key N-terminal domain contacts in the context of full-length vTopIB is underscored by assessing the effects of double-alanine mutations on DNA transesterification and its sensitivity to ionic strength.

[Indexed for MEDLINE]

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