Enriched Flavonoid Compounds Confer Enhanced Resistance to Fusarium‐Induced Root Rot in Oil Tea Plants DOI
Junqia Kong,

Zhanhua Zhou,

Zhong Li

et al.

Plant Cell & Environment, Journal Year: 2025, Volume and Issue: unknown

Published: April 17, 2025

ABSTRACT Root rot in Camellia oleifera complicates the development of targeted control measures owing to its complex aetiology. Although breeding resistant varieties C. presents a promising solution, research into cultivation strategies and potential resistance mechanisms against root remains limited. In this study, we investigated six cultivars that exhibit varying levels rot. We conducted transcriptome analysis, measurements soil physicochemical properties an analysis fungal microbiome explore relationship between Fusarium ‐induced flavonoid compounds rhizosphere. The cultivar CL18 demonstrated superior performance concerning incidence, health status expression genes associated with biosynthesis study. Significant differences were observed composition diversity rhizosphere communities among various . abundance was low, negative correlation identified content Our study uncovers role flavonoids rot, thereby offering new for disease management cultivars.

Language: Английский

Enriched Flavonoid Compounds Confer Enhanced Resistance to Fusarium‐Induced Root Rot in Oil Tea Plants DOI
Junqia Kong,

Zhanhua Zhou,

Zhong Li

et al.

Plant Cell & Environment, Journal Year: 2025, Volume and Issue: unknown

Published: April 17, 2025

ABSTRACT Root rot in Camellia oleifera complicates the development of targeted control measures owing to its complex aetiology. Although breeding resistant varieties C. presents a promising solution, research into cultivation strategies and potential resistance mechanisms against root remains limited. In this study, we investigated six cultivars that exhibit varying levels rot. We conducted transcriptome analysis, measurements soil physicochemical properties an analysis fungal microbiome explore relationship between Fusarium ‐induced flavonoid compounds rhizosphere. The cultivar CL18 demonstrated superior performance concerning incidence, health status expression genes associated with biosynthesis study. Significant differences were observed composition diversity rhizosphere communities among various . abundance was low, negative correlation identified content Our study uncovers role flavonoids rot, thereby offering new for disease management cultivars.

Language: Английский

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