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A frameshift mutation in <i>JAZ10</i> resolves the growth versus defense dilemma in rice

Lei‐Lei Li, Yujie Xiao, Baohui Wang, Yunqi Zhuang, Yumeng Chen, Jing Lü, Yonggen Lou, Ran Li

2024Proceedings of the National Academy of Sciences15 citationsDOIOpen Access PDF

Abstract

CRISPR-Cas9 genome editing systems have revolutionized plant gene functional studies by enabling the targeted introduction of insertion-deletions (INDELs) via the nonhomologous end-joining (NHEJ) pathway. Frameshift-inducing INDELs can introduce a premature termination codon and, in other instances, can lead to the appearance of new proteins. Here, we found that mutations in the rice jasmonate (JA) signaling gene OsJAZ10 by CRISPR-Cas9-based genome editing did not affect canonical JA signaling. However, a type of mutant with an INDEL that yielded a novel frameshift protein named FJ10 ( F rameshift mutation of J AZ 10 ), exhibited enhanced rice growth and increased resistance to brown planthopper attacks. Overexpression of FJ10 in wild-type plants phenocopies OsJAZ10 frameshift mutants. Further characterization revealed that FJ10 interacts with Slender Rice 1 (OsSLR1) and F-box/Kelch 16 (OsFBK16). These interactions disrupt the function of OsSLR1 in suppressing gibberellin-mediated growth and the function of OsFBK16 in repressing lignin-mediated defense responses, respectively. Field experiments with FJ10 -expressing plants demonstrate that this protein uncouples the growth–defense tradeoff, opening broad avenues to obtain cultivars with enhanced yield without compromised defenses.

Topics & Concepts

Frameshift mutationBiologyGeneticsCRISPRGeneMutantMutationPhenocopyIndelSingle-nucleotide polymorphismGenotypeInsect-Plant Interactions and ControlPlant Virus Research StudiesCRISPR and Genetic Engineering
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