对 bsr-d1 介导的广谱稻瘟病抗性的新认识。

New insights into bsr-d1-mediated broad-spectrum resistance to rice blast.

机构信息

State Key Laboratory of Crop Gene Exploration and Utilization in Southwest China, State Key Laboratory of Hybrid Rice, Key Laboratory of Major Crop Diseases and Collaborative Innovation Center for Hybrid Rice in Yangtze River Basin, Rice Research Institute, Sichuan Agricultural University at Wenjiang, Chengdu, China.

Department of Plant Pathology, University of California, Davis, CA, USA.

出版信息

Mol Plant Pathol. 2020 Jul;21(7):951-960. doi: 10.1111/mpp.12941. Epub 2020 May 12.

DOI:10.1111/mpp.12941

PMID:32394633

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7280026/

Abstract

bsr-d1, an allele encoding a transcription factor identified from the rice cultivar Digu, confers durable, broad-spectrum resistance to infections by strains of Magnaporthe oryzae. bsr-d1 was predicted to inhibit M. oryzae-induced expression of Bsr-d1 RNA and degradation of hydrogen peroxide to achieve resistance to M. oryzae. However, the global effect of biological process and molecular function on blast resistance mediated by Bsr-d1 remains unknown. In this study, we compared transcriptomic profiling between Bsr-d1 knockout (Bsr-d1KO) lines and the wild type, TP309. Our study revealed that bsr-d1 mainly regulates the redox state of plant cells, but also affects amino acid and unsaturated fatty acid metabolism. We further found that BSR-D1 indirectly regulates salicylic acid biosynthesis, metabolism, and signal transduction downstream of the activation of H O signalling in the bsr-d1-mediated immune response. Furthermore, we identified a novel peroxidase-encoding gene, Perox3, as a new BSR-D1 target gene that reduces resistance to M. oryzae when overexpressed in TP309. These results provide new insights into the bsr-d1-mediated blast resistance.

摘要

bsr-d1 是从水稻品种 Digu 中鉴定出的一种转录因子等位基因，赋予其对稻瘟病菌菌株感染的持久广谱抗性。bsr-d1 被预测可以抑制 M.oryzae 诱导的 Bsr-d1 RNA 的表达和过氧化氢的降解，从而实现对 M.oryzae 的抗性。然而，bsr-d1 介导的抗稻瘟病的生物学过程和分子功能的全局影响尚不清楚。在这项研究中，我们比较了 Bsr-d1 敲除（Bsr-d1KO）系和野生型 TP309 之间的转录组谱。我们的研究表明，bsr-d1 主要调节植物细胞的氧化还原状态，但也影响氨基酸和不饱和脂肪酸代谢。我们进一步发现，BSR-D1 间接调节水杨酸的生物合成、代谢以及 H2O2 信号激活下游的信号转导，在 bsr-d1 介导的免疫反应中。此外，我们鉴定出一个新的过氧化物酶编码基因 Perox3 作为 BSR-D1 的新靶基因，当在 TP309 中过表达时，会降低对 M.oryzae 的抗性。这些结果为 bsr-d1 介导的稻瘟病抗性提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b3ce/7280026/5d5939f66880/MPP-21-951-g001.jpg

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对 bsr-d1 介导的广谱稻瘟病抗性的新认识。

New insights into bsr-d1-mediated broad-spectrum resistance to rice blast.

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