Karin C Kiontke, R Antonio Herrera, D Adam Mason, Alyssa Woronik, Stephanie Vernooy, Yash Patel, David H A Fitch
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引用次数: 0
摘要
雄性秀丽隐杆线虫(Caenorhabditis elegans)在DM-domain转录因子DMD-3的控制下进行性别特异性尾尖形态发生(TTM)。为了找到受DMD-3调控的基因,我们对激光解剖的尾尖进行了RNA-seq分析。我们在野生型雄性与 dmd-3(-)雄性和雌雄同体中发现了 564 个差异表达基因(DE)。dmd-3(-)尾尖的转录谱与雌雄同体相似。为了进行验证,我们分析了 49 个基因的转录报告,发现 26 个基因的表达具有雄性特异性或雄性偏向性。只有 11 个 DE 基因与之前针对 TTM 缺陷的 RNAi 筛选中发现的基因重叠。对 DE 基因的 GO 富集分析发现,未折叠蛋白反应途径中的基因上调,而参与角质层维护的基因下调。在 DE 基因中,有 40 个是转录因子,这表明 DMD-3 下游的基因网络是复杂的,而且可能是模块化的。我们提出了在 TTM 中共同作用并受 DMD-3 核心调节的基因模块,其中包括软骨素合成途径和高渗应激反应。
Tissue-specific RNA-seq defines genes governing male tail tip morphogenesis in C. elegans.
Caenorhabditis elegans males undergo sex-specific tail tip morphogenesis (TTM) under the control of the DM-domain transcription factor DMD-3. To find genes regulated by DMD-3, we performed RNA-seq of laser-dissected tail tips. We identified 564 genes differentially expressed (DE) in wild-type males versus dmd-3(-) males and hermaphrodites. The transcription profile of dmd-3(-) tail tips is similar to that in hermaphrodites. For validation, we analyzed transcriptional reporters for 49 genes and found male-specific or male-biased expression for 26 genes. Only 11 DE genes overlapped with genes found in a previous RNAi screen for defective TTM. GO enrichment analysis of DE genes finds upregulation of genes within the unfolded protein response pathway and downregulation of genes involved in cuticle maintenance. Of the DE genes, 40 are transcription factors, indicating that the gene network downstream of DMD-3 is complex and potentially modular. We propose modules of genes that act together in TTM and are co-regulated by DMD-3, among them the chondroitin synthesis pathway and the hypertonic stress response.
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