长叶毛霉 T6 丝氨酸蛋白酶 TlSP1 的特征及其在控制小麦枳壳虫中的功能

IF 4.2 2区生物学 Q2 MICROBIOLOGY

Journal of Fungi Pub Date : 2024-08-12 DOI:10.3390/jof10080569

Xiujuan Wang, Shuwu Zhang, Bingliang Xu

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引用次数: 0

摘要

丝氨酸蛋白酶是一种由生物防治真菌分泌的胞外蛋白酶，可通过降解线虫卵壳和增强植物抗性来有效控制线虫病害。长链毛霉（Trichoderma longibrachiatum T6）是一种重要的生物防治真菌，已被证实能有效寄生和降解venae Heterodera的子囊、卵和第二阶段幼虫（J2s）。然而，对T. longibrachiatum T6中编码丝氨酸蛋白酶的基因及其功能尚未进行深入研究。本研究成功克隆并测序了长臂猿 T6 中的丝氨酸蛋白酶基因 TlSP1。结果表明，接种枳壳包囊后，TlSP1 基因在 T. longibrachiatum T6 中的表达水平被诱导并显著增加。TlSP1 基因编码区的全长序列为 1230 bp，编码由 409 个氨基酸组成的蛋白质。将 TlSP1 基因转化到 Pichia pastoris X33 后，纯化的重组 TlSP1 蛋白在温度为 50 ℃、pH 值为 8.0 时表现出最佳活性。用纯化的重组 TlSP1 蛋白处理 4-10 天后，蛋壳和蛋内容物溶解并渗出。与对照组相比，同时使用 TlSP1 和卵单面处理组（P1+N）入侵小麦根部的线虫数量减少了 38.43%，而 TlSP1 和卵双面处理组（P1/N）入侵小麦根部的线虫数量减少了 30.4%。此外，P1+N 和 P1/N 处理都显著上调了与防御酶相关的基因（TaPAL、TaCAT、TaSOD 和 TaPOD）、参与木质素合成途径的基因（TaC4H、Ta4CL2、TaCAD1 和 TaCAD12）、水杨酸（SA）响应基因（TaNPR1、TaPR1 和 TaPR2），并导致茉莉酸（JA）响应基因（TaPR4、TaOPR3 和 TaAOS2）的高表达。这项研究强调了 TlSP1 基因在促进枳壳线虫卵壳溶解、防止线虫入侵寄主植物和增强小麦植物抗性方面的重要作用。

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Characterization of the Serine Protease TlSP1 from Trichoderma longibrachiatum T6 and Its Function in the Control of Heterodera avenae in Wheat

Serine protease is an extracellular protease secreted by biocontrol fungi that can effectively control nematode diseases by degrading nematode eggshells and enhancing plant resistance. Trichoderma longibrachiatum T6, an important biocontrol fungus, has been demonstrated to effectively parasitize and degrade Heterodera avenae cysts, eggs, and second-stage juveniles (J2s). However, the genes that encoding serine protease and their functions in T. longibrachiatum T6 have not been thoroughly investigated. In this study, we successfully cloned and sequenced the serine protease gene TlSP1 in T. longibrachiatum T6. Our results revealed that the expression level of the TlSP1 gene was induced and significantly increased in T. longibrachiatum T6 after inoculation with H. avenae cysts. The full-length sequence of the coding region (CDS) of TlSP1 gene was 1230 bp and encoded a protein consisting of 409 amino acids. Upon the transformation of the TlSP1 gene into Pichia pastoris X33, the purified recombinant TlSP1 protein exhibited optimal activity at a temperature of 50 °C and pH 8.0. Following 4–10-day of treatment with the purified recombinant TlSP1 protein, the eggshells and content were dissolved and exuded. The number of nematodes invading wheat roots was reduced by 38.43% in the group treated with both TlSP1 and eggs on one side (P1+N) compared to the control group, while the number of nematodes invading wheat roots was reduced by 30.4% in the TlSP1 and eggs two-sided treatment group (P1/N). Furthermore, both the P1+N and P1/N treatments significantly upregulated genes associated with defense enzymes (TaPAL, TaCAT, TaSOD, and TaPOD), genes involved in the lignin synthesis pathway (TaC4H, Ta4CL2, TaCAD1, and TaCAD12), and salicylic acid (SA)-responsive genes (TaNPR1, TaPR1, and TaPR2) and led to the high expression of jasmonic acid (JA)-responsive genes (TaPR4, TaOPR3, and TaAOS2). This study has highlighted the significant role of the TlSP1 gene in facilitating H. avenae eggshells’ dissolution, preventing nematode invasion in the host plant, and boosting plant resistance in wheat.

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来源期刊

Journal of Fungi Medicine-Microbiology (medical)

CiteScore

6.70

自引率

14.90%

发文量

1151

审稿时长

11 weeks

期刊介绍： Journal of Fungi (ISSN 2309-608X) is an international, peer-reviewed scientific open access journal that provides an advanced forum for studies related to pathogenic fungi, fungal biology, and all other aspects of fungal research. The journal publishes reviews, regular research papers, and communications in quarterly issues. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on paper length. Full experimental details must be provided so that the results can be reproduced.