BmSLC7A5 is essential for silk protein synthesis and larval development in Bombyx mori.

IF 2.9 1区 农林科学 Q1 ENTOMOLOGY Insect Science Pub Date : 2024-10-01 Epub Date: 2024-01-29 DOI:10.1111/1744-7917.13314
Xin Tang, Huawei Liu, Xin Wang, Li Chang, Qingsong Liu, Qingyou Xia, Ping Zhao
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Abstract

Insects produce silk to form cocoons, nests, and webs, which are important for their survival and reproduction. However, little is known about the molecular mechanism of silk protein synthesis at the translation level. The solute carrier family 7 (SLC7) genes are involved in activating the target of rapamycin complex 1 (TORC1) signaling pathway and protein translation process, but the physiological roles of SLC7 genes in silk-producing insects have not been reported. Here, we found that amino acid signaling regulates silk protein synthesis and larval development via the L-type amino acid transporter 1 (LAT1; also known as SLC7A5) in Bombyx mori. A total of 12 SLC7 homologs were identified in the silkworm genome, among which BmSLC7A5 was found to be a silk gland-enriched gene and may be involved in leucine transport. Bioinformatics analysis indicated that SLC7A5 displays high homology and a close phylogenetic relationship in silk-producing insects. Subsequently, we found that leucine treatment significantly increased silk protein synthesis by improving the transcription and protein levels of silk genes. Furthermore, systemic and silk gland-specific knockout of BmSLC7A5 led to decreased silk protein synthesis by inhibiting TORC1 signaling, and somatic mutation also resulted in arrested development from the 5th instar to the early pupal stage. Altogether, our study reveals that BmSLC7A5 is involved in regulating silk protein synthesis and larval development by affecting the TORC1 signaling pathway, which provides a new strategy and target for improving silk yield.

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BmSLC7A5 是蚕丝蛋白合成和幼虫发育所必需的。
昆虫产丝以形成茧、巢和网,这对它们的生存和繁殖非常重要。然而,人们对蚕丝蛋白合成在翻译水平上的分子机制知之甚少。溶质运载体家族 7(SLC7)基因参与激活雷帕霉素靶复合物 1(TORC1)信号通路和蛋白质翻译过程,但 SLC7 基因在产丝昆虫中的生理作用尚未见报道。在这里,我们发现氨基酸信号通过 L 型氨基酸转运体 1(LAT1,又称 SLC7A5)调节蚕丝蛋白的合成和幼虫的发育。在家蚕基因组中总共发现了 12 个 SLC7 同源物,其中 BmSLC7A5 是一个丝腺富集基因,可能参与亮氨酸的转运。生物信息学分析表明,SLC7A5 在产丝昆虫中具有高度同源性和密切的系统发育关系。随后,我们发现亮氨酸处理通过提高丝基因的转录和蛋白水平,显著增加了丝蛋白的合成。此外,BmSLC7A5的系统性和丝腺特异性敲除通过抑制TORC1信号传导导致丝蛋白合成减少,体细胞突变也导致从5龄期到蛹早期的发育停滞。总之,我们的研究揭示了BmSLC7A5通过影响TORC1信号通路参与调节蚕丝蛋白合成和幼虫发育,为提高蚕丝产量提供了新的策略和靶标。
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来源期刊
Insect Science
Insect Science 生物-昆虫学
CiteScore
7.80
自引率
5.00%
发文量
1379
审稿时长
6.0 months
期刊介绍: Insect Science is an English-language journal, which publishes original research articles dealing with all fields of research in into insects and other terrestrial arthropods. Papers in any of the following fields will be considered: ecology, behavior, biogeography, physiology, biochemistry, sociobiology, phylogeny, pest management, and exotic incursions. The emphasis of the journal is on the adaptation and evolutionary biology of insects from the molecular to the ecosystem level. Reviews, mini reviews and letters to the editor, book reviews, and information about academic activities of the society are also published.
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