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黑腹果蝇雌性在交配后对时间以及四种雄性附腺蛋白的基因表达谱。

Post-mating gene expression profiles of female Drosophila melanogaster in response to time and to four male accessory gland proteins.

作者信息

McGraw Lisa A, Clark Andrew G, Wolfner Mariana F

机构信息

Department of Molecular Biology and Genetics, Cornell University, Ithaca, New York 14853, USA.

出版信息

Genetics. 2008 Jul;179(3):1395-408. doi: 10.1534/genetics.108.086934. Epub 2008 Jun 18.

DOI:10.1534/genetics.108.086934
PMID:18562649
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2475742/
Abstract

In Drosophila melanogaster, the genetic and molecular bases of post-mating changes in the female's behavior and physiology are poorly understood. However, DNA microarray studies have demonstrated that, shortly after mating, transcript abundance of >1700 genes is altered in the female's reproductive tract as well as in other tissues. Many of these changes are elicited by sperm and seminal fluid proteins (Acps) that males transfer to females. To further dissect the transcript-level changes that occur following mating, we examined gene expression profiles of whole female flies at four time points following copulation. We found that, soon after copulation ends, a large number of small-magnitude transcriptional changes occurred in the mated female. At later time points, larger magnitude changes were seen, although these occurred in a smaller number of genes. We then explored how four individual Acps (ovulin, Acp36DE, Acp29AB, and Acp62F) with unique functions independently affected gene expression in females shortly after mating. Consistent with their early and possibly local action within the female, ovulin and Acp36DE caused relatively few gene expression changes in whole bodies of mated females. In contrast, Acp29AB and Acp62F modulated a large number of transcriptional changes shortly after mating.

摘要

在黑腹果蝇中,雌性在交配后行为和生理变化的遗传和分子基础尚不清楚。然而,DNA微阵列研究表明,交配后不久,雌性生殖道以及其他组织中超过1700个基因的转录丰度发生了改变。其中许多变化是由雄性传递给雌性的精子和精液蛋白(Acps)引发的。为了进一步剖析交配后发生的转录水平变化,我们在交配后的四个时间点检查了整个雌蝇的基因表达谱。我们发现,交配结束后不久,交配后的雌性中发生了大量小幅度的转录变化。在随后的时间点,虽然发生变化的基因数量较少,但出现了幅度更大的变化。然后,我们研究了具有独特功能的四种个体精液蛋白(卵子生成素、Acp36DE、Acp29AB和Acp62F)如何在交配后不久独立影响雌性的基因表达。与它们在雌性体内早期且可能是局部的作用一致,卵子生成素和Acp36DE在交配后的雌性全身引起的基因表达变化相对较少。相比之下,Acp29AB和Acp62F在交配后不久调节了大量的转录变化。

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