组织特异性替代剪接与蝗虫中 LmLPMO15-1 的功能分化。

IF 2.9 1区 农林科学 Q1 ENTOMOLOGY
Lin Kong, Huiying Hu, Pengfei Li, Mingbo Qu
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引用次数: 0

摘要

昆虫裂解多糖单氧酶(LPMO15s)是新发现的依赖铜的酶,通过氧化裂解糖苷键促进昆虫体内几丁质的降解。它们是潜在的杀虫剂靶标,因为它们在昆虫蜕皮过程中对昆虫皮膜、气管和中肠周围基质的几丁质周转起着关键作用。然而,人们对 LPMO15s 是否以及如何参与其他组织中几丁质的转化还缺乏足够的了解。本文以直翅目害虫蝗虫(Locusta migratoria)为模型,发现了LmLPMO15-1的一个新的替代剪接位点,并产生了2个变体,即LmLPMO15-1a和LmLPMO15-1b。LmLPMO15-1a和LmLPMO15-1b的转录本分别在气管和前肠特异性表达。针对LmLPMO15-1(LmLPMO15-1a和LmLPMO15-1b共有的片段)、LmLPMO15-1a的特定区域或LmLPMO15-1b的RNA干扰都会显著降低若虫的存活率,并诱导发育停滞或蜕皮失败的致死表型。超微结构分析表明,LmLPMO15-1b专门参与前肠老角质层的降解,而LmLPMO15-1a则专门负责气管老角质层的降解。该研究揭示了LmLPMO15-1通过替代剪接实现了组织特异性功能分化,并证明了剪接变体在昆虫生长发育过程中的重要意义。它为针对LPMO15-1的害虫控制提供了新策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tissue-specific alternative splicing and the functional differentiation of LmLPMO15-1 in Locusta migratoria.

Insect lytic polysaccharide monooxygenases (LPMO15s) are newly discovered copper-dependent enzymes that promote chitin degradation in insect through oxidative cleavage of glycosidic bonds. They are potential pesticide targets due to their critical role for chitin turnover in the integument, trachea, and peritrophic matrix of the midgut during insect molting. However, the knowledge about whether and how LPMO15s participate in chitin turnover in other tissues is still insufficient. Here, using the orthopteran pest Locusta migratoria as a model, a novel alternative splicing site of LmLPMO15-1 was discovered and it produces 2 variants, LmLPMO15-1a and LmLPMO15-1b. The transcripts of LmLPMO15-1a and LmLPMO15-1b were specifically expressed in the trachea and foregut, respectively. RNA interference targeting LmLPMO15-1 (a common fragment shared by both LmLPMO15-1a and LmLPMO15-1b), a specific region of LmLPMO15-1a or LmLPMO15-1b all significantly reduced survival rate of nymphs and induced lethal phenotypes with developmental stasis or molt failure. Ultrastructure analysis demonstrated that LmLPMO15-1b was specifically involved in foregut old cuticle degradation, while LmLPMO15-1a was exclusively responsible for the degradation of the tracheal old cuticle. This study revealed LmLPMO15-1 achieved tissue-specific functional differentiation through alternative splicing, and proved the significance of the spliced variants during insect growth and development. It provides new strategies for pest control targeting LPMO15-1.

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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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