CsIVP functions in vasculature development and downy mildew resistance in cucumber

Yan, Shuangshuang and Ning, Kang and Wang, Zhongyi and Liu, Xiaofeng and Zhong, Yanting and Ding, Lian and Zi, Hailing and Cheng, Zhihua and Li, Xuexian and Shan, Hongyan and Lv, Qingyang and Luo, Laixin and Liu, Renyi and Yan, Liying and Zhou, Zhaoyang and Lucas, William John and Zhang, Xiaolan and Nasrallah, June B. (2020) CsIVP functions in vasculature development and downy mildew resistance in cucumber. PLOS Biology, 18 (3). e3000671. ISSN 1545-7885

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Abstract

Domesticated crops with high yield and quality are frequently susceptible to pathogen attack, whereas enhancement of disease resistance generally compromises crop yield. The underlying mechanisms of how plant development and disease resistance are coordinately programed remain elusive. Here, we showed that the basic Helix-Loop-Helix (bHLH) transcription factor Cucumis sativus Irregular Vasculature Patterning (CsIVP) was highly expressed in cucumber vascular tissues. Knockdown of CsIVP caused severe vasculature disorganization and abnormal organ morphogenesis. CsIVP directly binds to vascular-related regulators YABBY5 (CsYAB5), BREVIPEDICELLUS (CsBP), and AUXIN/INDOLEACETIC ACIDS4 (CsAUX4) and promotes their expression. Knockdown of CsYAB5 resulted in similar phenotypes as CsIVP-RNA interference (RNAi) plants, including disturbed vascular configuration and abnormal organ morphology. Meanwhile, CsIVP-RNAi plants were more resistant to downy mildew and accumulated more salicylic acid (SA). CsIVP physically interacts with NIM1-INTERACTING1 (CsNIMIN1), a negative regulator in the SA signaling pathway. Thus, CsIVP is a novel vasculature regulator functioning in CsYAB5-mediated organ morphogenesis and SA-mediated downy mildew resistance in cucumber.

Item Type: Article
Subjects: Science Repository > Biological Science
Depositing User: Managing Editor
Date Deposited: 23 Jan 2023 05:32
Last Modified: 08 Jun 2024 07:25
URI: http://research.manuscritpub.com/id/eprint/1347

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