Dzhelepov Laboratory of Nuclear Problems, Joint Institute for Nuclear Research, 141980, Dubna, Moscow Region, Russia.
Dzhelepov Laboratory of Nuclear Problems, Joint Institute for Nuclear Research, 141980, Dubna, Moscow Region, Russia.
Mutat Res. 2021 Jul-Dec;823:111755. doi: 10.1016/j.mrfmmm.2021.111755. Epub 2021 Jun 25.
Sequence analysis of 7 spontaneous, 27 γ-ray- and 20 neutron/neutron+γ-ray-induced black (b) point mutants was carried out. All these mutants were isolated as non-mosaic transmissible recessive visibles in the progeny of irradiated males from the wild-type high-inbred laboratory D32 strain of Drosophila melanogaster. Among spontaneous mutants, there were two (28.5 %) mutants with copia insertion in intron 1 and exon 2, three (42.8 %) with replacement of b paternal sequence with maternal b sequence (gene conversion), one (14.3 %) with 142-bp-long insertion in exon 2, and one (14.3 %) with a short deletion and two single-base substitutions in exon 3. Among γ-ray-induced mutants, there were 1 (3.7 %) with copia insertion in intron 2, 6 (22.2 %) with gene conversion, and the remaining 20 (74.1 %) mutants had 37 different small-scale DNA changes. There were 20 (54.1 %) single- or double-base substitutions, 7 (18.9 %) frameshifts (indels), 9 (24.3 %) extended deletions or insertions, and 1(2.7 %) mutant with a short insertion instead of a short deletion. Remarkably, clusters of independent small-scale changes inside the gene or within one DNA helical turn were recovered. The spectrum of DNA changes in 20 neutron/ neutron+γ-ray-induced mutants was drastically different from that induced by γ-rays in that 18 (90.0 %) mutants had the bsequence. In addition, 2 (10.0 %) with gene conversion had 600- or 19-bp-long deletion in exon 3 and 1 (5.0 %) mutant with a short insertion instead of a short deletion. Analysis of all 27 mutants with gene conversion events shows that 20 (74.1 %) had full b sequence whereas 7 others (25.9 %) contained a partial b sequence. These data are the first experimental evidence for gene conversion in the early stages of animal embryogenesis in the first diploid cleavage nucleus after male and female pronuclei have united. The gene conversion, frameshifts (indels), and deletions between short repeats were considered as products of a relevant DNA repair pathways described in the literature. As the first step, the gametic doubling doses for phenotypic black point mutations and for intragenic base substitution mutations in mature sperm cells irradiated by 40 Gy of γ-rays were estimated as 5.8 and 1.2 Gy, respectively, showing that doubling dose for mutations at the molecular level is about 5 times lower than that at the phenotypic level.
对 7 个自发突变、27 个γ射线诱导和 20 个中子/中子+γ射线诱导的黑(b)点突变进行了序列分析。所有这些突变体都是从野生型高纯度实验室黑腹果蝇 D32 品系雄性辐射后代的非嵌合体可传递隐性可见突变体中分离出来的。在自发突变体中,有两个(28.5%)突变体在内含子 1 和外显子 2 中插入了 copia,三个(42.8%)突变体用母本 b 序列替换了 b 父本序列(基因转换),一个(14.3%)突变体在外显子 2 中插入了 142-bp 长的序列,一个(14.3%)突变体在外显子 3 中发生了短缺失和两个单碱基取代。在γ射线诱导的突变体中,有 1 个(3.7%)突变体在内含子 2 中插入了 copia,6 个(22.2%)突变体发生了基因转换,其余 20 个(74.1%)突变体有 37 个不同的小尺度 DNA 变化。有 20 个(54.1%)单碱基或双碱基取代,7 个(18.9%)移码突变(插入缺失),9 个(24.3%)扩展缺失或插入,以及 1 个(2.7%)突变体发生了短插入而非短缺失。值得注意的是,在基因内或一个 DNA 螺旋内回收了独立的小尺度变化簇。20 个中子/中子+γ射线诱导的突变体的 DNA 变化谱与γ射线诱导的突变体有很大不同,其中 18 个(90.0%)突变体具有 b 序列。此外,有 2 个(10.0%)发生基因转换的突变体在外显子 3 中有 600-或 19-bp 长的缺失,1 个(5.0%)突变体发生了短插入而非短缺失。对所有发生基因转换的 27 个突变体的分析表明,20 个(74.1%)具有完整的 b 序列,而其余 7 个(25.9%)含有部分 b 序列。这些数据是雄性和雌性原核融合后第一个二倍体卵裂核中动物胚胎发生早期基因转换的第一个实验证据。基因转换、移码突变(插入缺失)和短重复之间的缺失被认为是文献中描述的相关 DNA 修复途径的产物。作为第一步,用 40 Gy γ射线照射成熟精子细胞后,表型黑点突变和基因内碱基取代突变的配子加倍剂量分别估计为 5.8 和 1.2 Gy,表明分子水平突变的加倍剂量比表型水平低约 5 倍。
