Phytopathology Research (Sep 2024)

Function of ZmBT2a gene in resistance to pathogen infection in maize

  • Fan Zhou,
  • Yonggui Wang,
  • Pengfei Liu,
  • Wenxiao Ma,
  • Ruobing He,
  • Hongzhe Cao,
  • Jihong Xing,
  • Kang Zhang,
  • Jingao Dong

DOI
https://doi.org/10.1186/s42483-024-00263-8
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 13

Abstract

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Abstract The BTB-TAZ protein is a subfamily of the BTB protein family and plays a crucial regulatory role in plant resistance to pathogen infection. However, the function of the maize BTB-TAZ protein ZmBT2a in maize resistance to pathogens has not been reported. Here, we investigate the role of ZmBT2a in maize resistance to pathogen infection by examining its expression characteristics. The results showed that the expression level of ZmBT2a changed significantly in response to biotic and abiotic stresses in maize. Moreover, ZmBT2a-OE exhibited enhanced resistance to Botrytis cinerea and Pseudomonas syringae pv. tomato DC3000, while the maize ZmBT2a mutants Zmbt2a-1 and Zmbt2a-2 showed increased sensitivity to Fusarium graminearum and Cochliobolus carbonum infections. Notably, the expression of the key synthetic genes ZmLOXs and pathogenesis-related genes ZmPRs in the JA synthesis pathway was significantly down-regulated during F. graminearum infection. Additionally, yeast two-hybrid assays confirmed the direct interaction between ZmBT2a and E3 ubiquitinated proteins ZmCUL3a and ZmCUL3b. These findings suggest that the ZmBT2a gene is crucial in maize resistance to pathogen infection. It is hypothesized that ZmBT2a binds to ZmCUL3 and, through ubiquitination, affects the transcriptional regulation of ZmLOXs and ZmPRs by downstream transcription factors, thus participating in the disease resistance process of maize.

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