The Engineering Research Center for Plant Health Protection Technology in Henan Province, College of Plant Protection, Henan Agricultural University, Zhengzhou, China.
College of Agronomy, Sichuan Agricultural University, Chengdu, China.
Plant Cell Environ. 2024 Jul;47(7):2459-2474. doi: 10.1111/pce.14893. Epub 2024 Mar 19.
Tilletia horrida is an important soilborne fungal pathogen that causes rice kernel smut worldwide. We found a glycoside hydrolase family 128 protein, designated ThGhd_7, caused cell death in Nicotiana benthamiana leaves. The predicted signal peptide (SP) of ThGhd_7 targets it for secretion. However, loss of the SP did not affect its ability to induce cell death. The 23-201 amino acid sequence of ThGhd_7 was sufficient to trigger cell death in N. benthamiana. ThGhd_7 expression was induced and upregulated during T. horrida infection. ThGhd_7 localised to both the cytoplasm and nucleus of plant cells, and nuclear localisation was required to induce cell death. The ability of ThGhd_7 to trigger cell death in N. benthamiana depends on RAR1 (required for Mla12 resistance), SGT1 (suppressor of G2 allele of Skp1), and BAK1/SERK3 (somatic embryogenesis receptor-like kinase 3). Heterologous overexpression of ThGhd_7 in rice reduced reactive oxygen species (ROS) production and enhanced susceptibility to T. horrida. Further research revealed that ThGhd_7 interacted with and destabilised OsSGT1, which is required for ROS production and is a positive regulator of rice resistance to T. horrida. Taken together, these findings suggest that T. horrida employs ThGhd_7 to disrupt ROS production and thereby promote infection.
厚垣轮枝菌是一种重要的土传真菌病原体,可引起全球范围内的水稻籽粒黑粉病。我们发现一种糖苷水解酶家族 128 蛋白,命名为 ThGhd_7,可导致烟草原生质体叶片细胞死亡。ThGhd_7 的预测信号肽(SP)将其靶向分泌。然而,缺失 SP 并不影响其诱导细胞死亡的能力。ThGhd_7 的 23-201 个氨基酸序列足以在烟草原生质体中引发细胞死亡。ThGhd_7 的表达在厚垣轮枝菌感染过程中被诱导和上调。ThGhd_7 定位于植物细胞的细胞质和细胞核中,核定位是诱导细胞死亡所必需的。ThGhd_7 在烟草原生质体中引发细胞死亡的能力依赖于 RAR1(Mla12 抗性所必需的)、SGT1(Skp1G2 等位基因的抑制子)和 BAK1/SERK3(体细胞胚胎发生受体样激酶 3)。ThGhd_7 在水稻中的异源过表达减少了活性氧(ROS)的产生,并增强了对厚垣轮枝菌的敏感性。进一步的研究表明,ThGhd_7 与 OsSGT1 相互作用并使其不稳定,OsSGT1 是 ROS 产生所必需的,也是水稻对厚垣轮枝菌抗性的正调控因子。综上所述,这些发现表明,厚垣轮枝菌利用 ThGhd_7 破坏 ROS 产生,从而促进感染。
