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UeSho1调节菰黑粉菌致病力的作用研究

张雅芬冯雨宸胡映莉叶子弘汤近天吴骏成谢舻胡妙丹

农业生物技术学报2025，Vol.33Issue(5)：1117-1129,13.

农业生物技术学报2025，Vol.33Issue(5)：1117-1129,13.DOI:10.3969/j.issn.1674-7968.2025.05.015

UeSho1调节菰黑粉菌致病力的作用研究

Study on the Role of UeSho1 in Regulating the Pathogenicity of Ustilago esculenta

张雅芬 ¹冯雨宸 ¹胡映莉 ¹叶子弘 ¹汤近天 ¹吴骏成 ¹谢舻 ²胡妙丹²

作者信息

1. 中国计量大学生命科学学院/国家市场监督管理总局重点实验室(微生物计量检测与生物制品质量安全),杭州 310018
2. 绍兴市农业科学研究院,绍兴 312000
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摘要

Abstract

Ustilago esculenta exclusively infected Zizania latifolia and could enlarge the host stems to form edible Jiaobai.Its pathogenicity was closely related to the formation and phenotypic differentiation of Jiaobai.It was found that synthetic high osmolarity-sensitive protein(Sho1),as an environmental signal receptor upstream of the high osmolarity glycerol(HOG)pathway,plays an important role in the regulation of fungal pathogenicity.In order to study the role of Sho1 in the regulation of the pathogenicity of U.esculenta,the UeSho1 gene(GenBank No.MW768948.1)was cloned and identified.Its open reading frame was 1 137 bp in length with one 126 bp intron,encoding 336 amino acids including a SH3 conserved domain.It was obviously induced expressed during in vitro mycelial growth and infection process of U.esculenta.Further in vitro growth and infection experiments were carried out after knocking out UeSho1 in U.esculenta,and the results showed that the deletion of UeSho1 did not affect the haploid morphology,growth rate,or mating process of U.esculenta in vitro,but it inhibited the filamentous growth of mycelia,slowed down the infection process,and suppressed the expression of b signaling pathway genes related to pathogenicity.Additionally,the absence of UeSho1 did not affect the growth state of U.esculenta in vitro under osmotic,temperature or oxidative stress.This study reveals the critical role of UeSho1 in the regulation of U.esculenta pathogenicity and provides a theoretical basis for further exploration of its role in the interaction between U.esculenta and Zizania latifolia,particularly in inducing host stem swelling.

关键词

菰黑粉菌/合成高渗性敏感蛋白(Sho1)/致病力/丝状生长

Key words

Ustilago esculenta/Synthetic high osmolarity-sensitive protein(Sho1)/Pathogenicity/Filamentous growth

分类

园艺学与植物营养学

引用本文复制引用

张雅芬,冯雨宸,胡映莉,叶子弘,汤近天,吴骏成,谢舻,胡妙丹..UeSho1调节菰黑粉菌致病力的作用研究[J].农业生物技术学报,2025,33(5):1117-1129,13.

基金项目

国家自然科学基金(U20A2043) （U20A2043）

农业生物技术学报

OA北大核心

ISSN：1674-7968

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