Structural basis for the recognition of sulfur in phosphorothioated DNA
Liu Guang, Fu Wencheng, Zhang Zhenyi, He Yao, Yu Hao, Wang Yuli, Wang Xiaolei, Zhao Yi-Lei, Deng Zixin, Wu Geng, He Xinyi
Journal:Nature Communications
IF:12.35
DOI:10.1038/s41467-018-07093-1
PMID:30409991
Published:2018-11-08
research field:分子生物学结构生物学微生物学生物化学
Abstract
There have been very few reports on protein domains that specifically recognize sulfur. Here we present the crystal structure of the sulfur-binding domain (SBD) from the DNA phosphorothioation (PT)-dependent restriction endonuclease ScoMcrA. SBD contains a hydrophobic surface cavity that is formed by the aromatic ring of Y164, the pyrolidine ring of P165, and the non-polar side chains of four other residues that serve as lid, base, and wall of the cavity. The SBD and PT-DNA undergo conformational changes upon binding. The S 187 RGRR 191 loop inserts into the DNA major groove to make contacts with the bases of the G PS GCC core sequence. Mutating key residues of SBD impairs PT-DNA association. More than 1000 sequenced microbial species from fourteen phyla contain SBD homologs. We show that three of these homologs bind PT-DNA in vitro and restrict PT-DNA gene transfer in vivo. These results show that SBD-like PT-DNA readers exist widely in prokaryotes.
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