Division of Biological Sciences, Section of Cell and Developmental Biology, University of California, San Diego, La Jolla, CA, 92092, USA.
Division of Biology and Biological Engineering, MC 156-29, California Institute of Technology, Pasadena, CA, 91125, USA.
Nat Commun. 2020 Apr 30;11(1):2106. doi: 10.1038/s41467-020-16020-2.
Here, we describe a drug-inducible genetic system for insect sex-separation that demonstrates proof-of-principle for positive sex selection in D. melanogaster. The system exploits the toxicity of commonly used broad-spectrum antibiotics geneticin and puromycin to kill the non-rescued sex. Sex-specific rescue is achieved by inserting sex-specific introns into the coding sequences of antibiotic-resistance genes. When raised on geneticin-supplemented food, the sex-sorter line establishes 100% positive selection for female progeny, while the food supplemented with puromycin positively selects 100% male progeny. Since the described system exploits conserved sex-specific splicing mechanisms and reagents, it has the potential to be adaptable to other insect species of medical and agricultural importance.
在这里,我们描述了一种用于昆虫性别分离的药物诱导遗传系统,该系统证明了在 D. melanogaster 中进行正向性别选择的原理。该系统利用了常用的广谱抗生素遗传霉素和嘌呤霉素的毒性来杀死未获救的性别。通过将性别特异性内含子插入抗生素抗性基因的编码序列,可以实现性别特异性的拯救。当在含有遗传霉素的食物上饲养时,性别分选系建立了 100%的雌性后代阳性选择,而用嘌呤霉素补充的食物则阳性选择 100%的雄性后代。由于所描述的系统利用了保守的性别特异性剪接机制和试剂,因此它有可能适应于其他具有医学和农业重要性的昆虫物种。