A dirigent protein redirects extracellular terpenoid metabolism for defense against biotic challenges
7.4
来源:
Nature
关键字:
mRNA
发布时间:
2025-10-20 23:42
摘要:
This study uncovers the role of dirigent proteins (DPs) in cotton, which redirect terpenoid metabolism to enhance plant defense against biotic stresses. The research identifies GhDP1 proteins as crucial for synthesizing specialized metabolites that improve resistance to pests and pathogens. The findings suggest potential applications in biotechnology for crop protection, emphasizing the evolutionary significance of metabolic redirection in plants.
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domain_focus
1.0分
business_impact
1.0分
scientific_rigor
1.5分
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1.5分
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2.5分
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1.0分
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0.5分
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0.5分
关键证据
The study describes a DPs-mediated mechanism of extracellular hydroxylation.
GhDP1 proteins are essential for redirecting terpenoid metabolism.
The findings suggest enhanced resistance to biotic stresses in cotton.
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AI评分总结
This study uncovers the role of dirigent proteins (DPs) in cotton, which redirect terpenoid metabolism to enhance plant defense against biotic stresses. The research identifies GhDP1 proteins as crucial for synthesizing specialized metabolites that improve resistance to pests and pathogens. The findings suggest potential applications in biotechnology for crop protection, emphasizing the evolutionary significance of metabolic redirection in plants.