4.8 Article

CCR-NB-LRR proteins MdRNL2 and MdRNL6 interact physically to confer broad-spectrum fungal resistance in apple (Malus x domestica)

期刊

PLANT JOURNAL
卷 108, 期 5, 页码 1522-1538

出版社

WILEY
DOI: 10.1111/tpj.15526

关键词

Malus x domestica; apple leaf spot; fungal disease resistance; MdRNL2; MdRNL6

资金

  1. National Natural Science Foundation of China [32002013]
  2. Chinese Universities Scientific Fund [2021TC074]

向作者/读者索取更多资源

The study identified that MdRNL2 and MdRNL6 in apple interact through their NB-ARC domains, crucial for resistance to fungal diseases. Transgenic apple plants with suppressed MdRNL6 expression showed hypersensitivity to various fungal diseases, similar to the effects seen when MdRNL2 expression was suppressed. This finding highlights the importance of MdRNL2 and MdRNL6 in broad-spectrum fungal resistance in apple.
Apple leaf spot, a disease caused by Alternaria alternata f. sp. mali and other fungal species, leads to severe defoliation and results in tremendous losses to the apple (Malus x domestica) industry in China. We previously identified three RPW8, nucleotide-binding, and leucine-rich repeat domain CCR-NB-LRR proteins (RNLs), named MdRNL1, MdRNL2, and MdRNL3, that contribute to Alternaria leaf spot (ALT1) resistance in apple. However, the role of NB-LRR proteins in resistance to fungal diseases in apple remains poorly understood. We therefore used MdRNL1/2/3 as baits to screen ALT1-inoculated leaves for interacting proteins and identified only MdRNL6 (another RNL) as an interactor of MdRNL2. Protein interaction assays demonstrated that MdRNL2 and MdRNL6 interact through their NB-ARC domains. Transient expression assays in apple indicated that complexes containing both MdRNL2 and MdRNL6 are necessary for resistance to Alternaria leaf spot. Intriguingly, the same complexes were also required to confer resistance to Glomerella leaf spot and Marssonina leaf spot in transient expression assays. Furthermore, stable transgenic apple plants with suppressed expression of MdRNL6 showed hypersensitivity to Alternaria leaf spot, Glomerella leaf spot, and Marssonina leaf spot; these effects were similar to the effects of suppressing MdRNL2 expression in transgenic apple plantlets. The identification of these novel broad-spectrum fungal resistance genes will facilitate breeding for fungal disease resistance in apple.

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