Wang Honglei, Tong Xiaoling, Liu Meijing, Hu Hai, Li Zhiquan, Xiang Zhonghuai, Dai Fangyin, Lu Cheng
State Key Laboratory of Silkworm Genome Biology, Key Laboratory for Sericulture Functional Genomics and Biotechnology of Agricultural Ministry, Southwest University, Chongqing, China.
PLoS One. 2017 Jan 12;12(1):e0169224. doi: 10.1371/journal.pone.0169224. eCollection 2017.
In insects, abdominal appendages, also called prolegs, vary due to adaptive evolution. Mutations on prolegs within species provide insights to better understand the mechanisms underlying appendage development and diversity. In silkworm Bombyx mori, extra-crescents and degenerated abdominal legs (Edl) mutant, belonging to the E pseudoallele group, is a spontaneous mutation that adds crescents and degenerates prolegs on the third abdominal segment (A3). This mutation may be a homeotic transformation of A3 to A2. In this study, the Edl locus was mapped within approximately a 211 Kb region that is 10 Kb upstream of Bmabdominal-A (Bmabd-A). RT-quantitative PCR (RT-qPCR) and Western blot analysis of Bmabd-A expression showed a slight but significant decrease, while the expression of BmUltrabithorax (BmUbx) was up-regulated in the Edl mutant compared to wildtype (Dazao). Moreover, we also found that BmDistal-less (BmDll), which regulated the development of distal proleg structures, was missing at the tips of the A3 prolegs in the Edl mutant compared to BmDll expression in normally developed prolegs in both the wildtype and mutant. Collectively, we identified approximately a 211 Kb region in the Edl locus that regulates BmUbx and Bmabd-A expression and found that changes in BmUbx and Bmabd-A expression may lead to the loss of distal proleg structures in B. mori.
在昆虫中,腹部附肢,也称为腹足,因适应性进化而有所不同。物种内腹足的突变有助于更好地理解附肢发育和多样性的潜在机制。在家蚕中,属于E拟等位基因群的额外新月形和退化腹足(Edl)突变体是一种自发突变,它在第三腹节(A3)上增加新月形并使腹足退化。这种突变可能是A3向A2的同源异型转化。在本研究中,Edl基因座被定位在大约211 Kb的区域内,该区域位于家蚕腹部A(Bmabd-A)上游10 Kb处。对Bmabd-A表达的RT-定量PCR(RT-qPCR)和蛋白质印迹分析显示有轻微但显著的下降,而与野生型(大造)相比,Edl突变体中家蚕超双胸(BmUbx)的表达上调。此外,我们还发现,与野生型和突变体中正常发育的腹足中的BmDll表达相比,在Edl突变体的A3腹足尖端缺少调控远端腹足结构发育的家蚕远端缺失(BmDll)。我们共同确定了Edl基因座中大约211 Kb的区域,该区域调控BmUbx和Bmabd-A的表达,并发现BmUbx和Bmabd-A表达的变化可能导致家蚕远端腹足结构的缺失。
