Mutagenic effect of ultraviolet radiation and trimethyl psoralen in Mycoplasma towards minimal genome.

IF 1 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Genes & genetic systems Pub Date : 2024-08-10 DOI:10.1266/ggs.24-00061

Kaito Seo, Kensei Okada, Norikazu Ichihashi

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Abstract

Mycoplasma, solely culturable bacteria with the smallest genome, is an important organism to understand the minimal form of life. Mutagenesis using mutagens is a useful methodology for understanding the essential regions of genomic information. Ultraviolet light and trimethyl psoralen are mutagens known to induce various mutations; the latter is reported to specifically induce deletions in nematodes. However, their mutagenic effects on mycoplasma are not known. Here, we exposed Metamycoplasma salivarium to ultraviolet (UV) light or trimethyl psoralen and UV as mutagens, and analyzed the mutational pattern after several rounds of serial cultivation ranging from 34 to 56 for different lineages. Our results showed that more deletions, but fewer point mutations, were induced with TMP and UV-A than with UV alone, indicating the usefulness of TMP in inducing deletions. In addition, we compared our results with mutational data from other studies, which suggested that both TMP-UVA and UV exposure induced point mutations that were highly biased toward C to T and G to A transitions. These data provide useful basic knowledge for mutational studies on M. salivarium.

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紫外线辐射和三甲基补骨脂素对支原体最小基因组的诱变作用

支原体是基因组最小的唯一可培养细菌，是了解生命最小形式的重要生物。使用诱变剂进行诱变是了解基因组信息重要区域的有效方法。紫外线和三甲基补骨脂素是已知可诱导各种突变的诱变剂；据报道，后者可特异性地诱导线虫体内的缺失。然而，它们对支原体的诱变作用尚不清楚。在此，我们将唾液支原体暴露于紫外线（UV）或三甲基补骨脂素和紫外线作为诱变剂，并分析了不同品系经过 34 至 56 轮连续培养后的突变模式。我们的结果表明，与单独使用紫外线相比，使用 TMP 和 UV-A 诱导的缺失更多，但点突变更少，这表明 TMP 有助于诱导缺失。此外，我们还将我们的结果与其他研究的突变数据进行了比较，结果表明 TMP-UVA 和紫外线照射诱导的点突变高度偏向于 C 到 T 和 G 到 A 的转变。这些数据为唾液腺霉菌的突变研究提供了有用的基础知识。

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