4.7 Article

GhENODL6 Isoforms from the Phytocyanin Gene Family Regulated Verticillium Wilt Resistance in Cotton

Journal

Publisher

MDPI
DOI: 10.3390/ijms23062913

Keywords

Gossypium hirsutum; GhENODL6; Verticillium wilt resistance; SA; ROS

Funding

  1. Key Research and Development Program of Hebei province [21326314D]
  2. National Youth Talent Support Program

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In this study, 41 conserved ENODLs were identified and characterized in G. hirsutum, with GhENODL6 significantly upregulated under V. dahliae stress and hormonal signal, positively regulating VW resistance. Overexpression of GhENODL6 enhanced the expressions of SA hormone-related transcription factors and PR protein genes, as well as H2O2 and SA contents, resulting in improved VW resistance in transgenic Arabidopsis. The findings broaden our understanding of the biological roles of GhENODL and the molecular mechanisms underlying cotton disease resistance.
Verticillium wilt (VW), a fungal disease caused by Verticillium dahliae, currently devastates cotton fiber yield and quality seriously, yet few resistance germplasm resources have been discovered in Gossypium hirsutum. The cotton variety Nongda601 with suitable VW resistance and high yield was developed in our lab, which supplied elite resources for discovering resistant genes. Early nodulin-like protein (ENODL) is mainly related to nodule formation, and its role in regulating defense response has been seldom studied. Here, 41 conserved ENODLs in G. hirsutum were identified and characterized, which could divide into four subgroups. We found that GhENODL6 was upregulated under V. dahliae stress and hormonal signal and displayed higher transcript levels in resistant cottons than the susceptible. The GhENODL6 was proved to positively regulate VW resistance via overexpression and gene silencing experiments. Overexpression of GhENODL6 significantly enhanced the expressions of salicylic acid (SA) hormone-related transcription factors and pathogenicity-related (PR) protein genes, as well as hydrogen peroxide (H2O2) and SA contents, resulting in improved VW resistance in transgenic Arabidopsis. Correspondingly, in the GhENODL6 silenced cotton, the expression levels of both phenylalanine ammonia lyase (PAL) and 4-coumarate-CoA ligase (4CL) genes significantly decreased, leading to the reduced SA content mediating by the phenylalanine ammonia lyase pathway. Taken together, GhENODL6 played a crucial role in VW resistance by inducing SA signaling pathway and regulating the production of reactive oxygen species (ROS). These findings broaden our understanding of the biological roles of GhENODL and the molecular mechanisms underlying cotton disease resistance.

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