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Publication Abstract from PubMed

The sliding DNA clamp is a ring-shaped protein that encircles DNA within its central channel. It binds to multiple proteins, such as DNA polymerases and DNA repair enzymes, and stimulates their enzymatic activities, thereby playing a crucial role in cell survival and proliferation. Accordingly, the bacterial clamp DnaN is considered to be a promising target for bacterial infection therapy. In this regard, 3D structures of DnaN from pathogenic bacteria are essential for the development of chemical compounds with antimicrobial activity. Here, the crystal structure of DnaN from a Gram-positive bacterium Clostridioides difficile, a human pathogen causing infectious diarrhoea, has been determined at 2.13 A resolution. A comparison of the structures of DnaN from other bacteria indicates that the structural features of DnaN in terms of overall organization are essentially conserved within Gram-positive and Gram-negative bacteria. However, DnaN from C. difficile has structural differences in the potential binding pocket for partner proteins, implying a non-conventional interaction with its binding partners. Our findings will provide insight into the development of new therapies for C. difficile infection.

Crystal structure of the sliding DNA clamp from the Gram-positive anaerobic bacterium Clostridioides difficile.,Hishiki A, Okazaki S, Hara K, Hashimoto H J Biochem. 2022 Dec 27;173(1):13-20. doi: 10.1093/jb/mvac079. PMID:36166824^[1]

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