| Literature DB >> 30268364 |
Matthew V Kotlajich1, Jun Xia1, Yin Zhai2, Hsin-Yu Lin1, Catherine C Bradley3, Xi Shen4, Qian Mei5, Anthony Z Wang1, Erica J Lynn4, Chandan Shee1, Li-Tzu Chen1, Lei Li4, Kyle M Miller6, Christophe Herman7, P J Hastings8, Susan M Rosenberg9.
Abstract
The N protein of phage Mu was indicated from studies in Escherichia coli to hold linear Mu chromosomes in a circular conformation by non-covalent association, and thus suggested potentially to bind DNA double-stranded ends. Because of its role in association with linear Mu DNA, we tested whether fluorescent-protein fusions to N might provide a useful tool for labeling DNA damage including double-strand break (DSB) ends in single cells. We compared N-GFP with a biochemically well documented DSB-end binding protein, the Gam protein of phage Mu, also fused to GFP. We find that N-GFP produced in live E. coli forms foci in response to DNA damage induced by radiomimetic drug phleomycin, indicating that it labels damaged DNA. N-GFP also labels specific DSBs created enzymatically by I-SceI double-strand endonuclease, and by X-rays, with the numbers of foci corresponding with the numbers of DSBs generated, indicating DSB labeling. However, whereas N-GFP forms about half as many foci as GamGFP with phleomycin, its labeling of I-SceI- and X-ray-induced DSBs is far less efficient than that of GamGFP. The data imply that N-GFP binds and labels DNA damage including DSBs, but may additionally label phleomycin-induced non-DSB damage, with which DSB-specific GamGFP does not interact. The data indicate that N-GFP labels DNA damage, and may be useful for general, not DSB-specific, DNA-damage detection.Entities:
Keywords: DNA damage; Double-strand breaks; Escherichia coli; Phage Mu N protein; Phleomycin; RecBCD; Single-cell analysis
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Year: 2018 PMID: 30268364 PMCID: PMC6287932 DOI: 10.1016/j.dnarep.2018.09.005
Source DB: PubMed Journal: DNA Repair (Amst) ISSN: 1568-7856