1. Identification of the Capsicum baccatum NLR Protein CbAR9 Conferring Disease Resistance to Anthracnose
- Author
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Soohong Kim, Inchan Choi, Doil Choi, Jae Wahng Do, Kyong Sil Lee, Sang Ryeol Park, Seungmin Son, Jae Bok Yoon, Jung-Heon Han, and Jun Oh
- Subjects
QH301-705.5 ,Virulence ,Nicotiana benthamiana ,Colletotrichum capsici ,Plant disease resistance ,Quantitative trait locus ,Catalysis ,Microbiology ,Inorganic Chemistry ,Physical and Theoretical Chemistry ,Biology (General) ,Molecular Biology ,Gene ,innate immunity ,QD1-999 ,Spectroscopy ,Innate immune system ,biology ,Organic Chemistry ,fungi ,food and beverages ,nucleotide-binding and leucine-rich repeat ,General Medicine ,biology.organism_classification ,Capsicum baccatum ,Computer Science Applications ,Chemistry - Abstract
Anthracnose is caused by Colletotrichum species and is one of the most virulent fungal diseases affecting chili pepper (Capsicum) yield globally. However, the noble genes conferring resistance to Colletotrichum species remain largely elusive. In this study, we identified CbAR9 as the causal locus underlying the large effect quantitative trait locus CcR9 from the anthracnose-resistant chili pepper variety PBC80. CbAR9 encodes a nucleotide-binding and leucine-rich repeat (NLR) protein related to defense-associated NLRs in several other plant species. CbAR9 transcript levels were induced dramatically after Colletotrichum capsici infection. To explore the biological function, we generated transgenic Nicotiana benthamiana lines overexpressing CbAR9, which showed enhanced resistance to C. capsici relative to wild-type plants. Transcript levels of pathogenesis-related (PR) genes increased markedly in CbAR9-overexpressing N. benthamiana plants. Moreover, resistance to anthracnose and transcript levels of PR1 and PR2 were markedly reduced in CbAR9-silenced chili pepper fruits after C. capsici infection. Our results revealed that CbAR9 contributes to innate immunity against C. capsici.
- Published
- 2021