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Publication Abstract from PubMed

Mycobacterium tuberculosis O 6-methylguanine-DNA methyltransferase ( Mt OGT) contributes to protect the bacterial GC-rich genome from the pro-mutagenic potential of O 6-methylated guanine in DNA. Several worldwide spread M. tuberculosis strains encode a point-mutated OGT ( Mt OGT-R37L) variant, which displays an arginine-to-leucine substitution at position 37 of the poorly functionally characterized N-terminal domain of the protein. Although the impact of this mutation on the Mt OGT activity has not yet been proven in vivo , we previously demonstrated that a recombinant Mt OGT-R37L variant performs a sub-optimal alkylated-DNA repair in vitro , suggesting a direct role for the Arg37-bearing region in catalysis. The herein reported crystal structure of Mt OGT in complex with modified DNA reveals details of the protein/protein and protein/DNA interactions occurring during alkylated-DNA binding, and the protein capability to host also unmodified bases inside the active site, in a fully extra-helical conformation. Our data provide the first experimental picture at the atomic level of a possible mode of assembling of three adjacent Mt OGT monomers on the same mono-alkylated double-stranded DNA molecule, and disclose the conformational flexibility of discrete regions of Mt OGT, including the Arg37-bearing random coil. This peculiar structural plasticity of Mt OGT could be instrumental to proper protein clustering at damaged DNA sites, as well as to protein-DNA complexes disassembling upon repair.

Crystal structure of Mycobacterium tuberculosis O6-methylguanine-DNA methyltransferase protein clusters assembled onto damaged DNA.,Miggiano R, Perugino G, Ciaramella M, Serpe M, Rejman D, Pav O, Pohl R, Garavaglia S, Lahiri S, Rizzi M, Rossi F Biochem J. 2015 Oct 28. pii: BJ20150833. PMID:26512127^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.