核苷酸切除修复及剂量对硫酸二乙酯在果蝇减数分裂后雄性生殖细胞中诱导产生的朱红色突变类型的影响。

Influence of nucleotide excision repair and of dose on the types of vermilion mutations induced by diethyl sulfate in postmeiotic male germ cells of Drosophila.

作者信息

Sierra L M, Nivard M M, Vogel E W

机构信息

Departamento de Biología Funcional, Area de Genética, University of Oviedo, Spain.

出版信息

Mutat Res. 1999 Dec 16;431(1):69-79. doi: 10.1016/s0027-5107(99)00159-1.

DOI:10.1016/s0027-5107(99)00159-1

PMID:10656487

Abstract

The role of a defect for nucleotide excision repair (NER) in oocytes on the repair of DNA ethyl adducts induced by diethyl sulfate (DES) in male germ cells of Drosophila was analysed. Frequencies of mutations at multiple loci (recessive lethal mutations) and at the vermilion gene induced in NER+ conditions (cross NER+ x NER+) were compared with those fixed in a NER- background (NER- x NER+). The M(NER-)/M(NER+) mutability ratios for two DES concentrations, 10 mM and 15 mM, were 2.21 and 1.49, respectively, indicating that NER repairs part of the DES-induced damage. The majority of 28 fertile vermilion mutations produced by DES in NER- are transitions, both GC-AT (46.4%) and AT-GC (21.4%) transitions are found, the consequences of O6-ethylguanine and O4-ethylthymine, respectively. Transversions (21.5%), one +1 frameshift mutation (3.6%) and two deletions (7.1%) are most likely the result of N-alkylation damage. Furthermore, the DES-induced mutation spectra show interesting differences in relation to the exposure dose. All 10 mutants isolated in this and a previous [L.M. Sierra, A. Pastink, M.J.M. Nivard, E.W. Vogel, DNA base sequence changes induced by DES in postmeiotic male germ cells of Drosophila melanogaster, Mol. Gen. Genet. 237 (1993) 370-374] study from experiments with low DES-effectiveness are exclusively transitions, independent whether the females were of the NER+ or NER-genotype. This indicates that at lower DES effectiveness only O-alkylation damage is relevant, and that N-alkylation damage is repaired. In experiments revealing high DES-effectiveness, vermilion mutations representing N-alkylation damage reached 43% (9/21) with NER- and 26% (7/27) with NER+ females, suggesting (i) that NER becomes involved at high adduct levels because then the base excision repair (BER) may be saturated, and (ii) that this involvement of NER causes the relative decrease from 43% to 26% N-alkylation mediated sequence changes.

摘要

分析了卵母细胞中核苷酸切除修复（NER）缺陷在果蝇雄性生殖细胞中由硫酸二乙酯（DES）诱导的DNA乙基加合物修复中的作用。将在NER+条件下（NER+×NER+杂交）诱导的多个位点的突变频率（隐性致死突变）和朱红眼基因的突变频率与在NER-背景下（NER-×NER+）固定的突变频率进行比较。对于10 mM和15 mM这两种DES浓度，M（NER-）/M（NER+）的突变率分别为2.21和1.49，表明NER修复了部分DES诱导的损伤。在NER-中由DES产生的28个可育朱红眼突变中的大多数是转换，发现了GC-AT（46.4%）和AT-GC（21.4%）转换，分别是O6-乙基鸟嘌呤和O4-乙基胸腺嘧啶的结果。颠换（21.5%）、一个+1移码突变（3.6%）和两个缺失（7.1%）很可能是N-烷基化损伤的结果。此外，DES诱导的突变谱在与暴露剂量的关系上显示出有趣的差异。在本次实验以及之前的一项研究[L.M. 西拉、A. 帕斯汀克、M.J.M. 尼瓦德、E.W. 沃格尔，果蝇黑腹果蝇减数分裂后雄性生殖细胞中DES诱导的DNA碱基序列变化，《分子遗传学与基因组学》237（1993）370 - 374]中，从低DES效力实验中分离出的所有10个突变体均为转换，无论雌性是NER+还是NER-基因型。这表明在较低的DES效力下，只有O-烷基化损伤是相关的，并且N-烷基化损伤得到了修复。在显示高DES效力的实验中，代表N-烷基化损伤的朱红眼突变在NER-雌性中达到43%（9/21），在NER+雌性中达到26%（7/27），这表明（i）在高加合物水平时NER开始起作用，因为此时碱基切除修复（BER）可能已饱和，以及（ii）NER的这种参与导致N-烷基化介导的序列变化从43%相对降低到26%。