Plants have evolved complex immune networks to adapt to survival needs,and their immune mechanisms have unique regulatory patterns to cope with different environments.In rice,the maintenance of immune balance involves...Plants have evolved complex immune networks to adapt to survival needs,and their immune mechanisms have unique regulatory patterns to cope with different environments.In rice,the maintenance of immune balance involves the synergistic action of many factors.Yue Wu et al.'s latest research results on the immunomodulatory mechanism of rice(ROD1 and the interaction between various proteins in rice)are introduced in this paper.展开更多
Breeding of disease-resistant and high-yield crops is essential to meet the increasing food demand of the global population.However,the breeding of such crops remains a significant challenge for scientists and breeder...Breeding of disease-resistant and high-yield crops is essential to meet the increasing food demand of the global population.However,the breeding of such crops remains a significant challenge for scientists and breeders.Two recent discoveries may help to overcome this challenge:the discovery of a novel molecular framework to fine-tune disease resistance and yields that includes epigenetic regulation of antagonistic immune receptors,and the discovery of a Ca^(2+)sensor-mediated immune repression network that enables the transfer of subspecies-specific and broad-spectrum disease resistance.These breakthroughs provide a promising roadmap for the future breeding of disease resistant crops.展开更多
基金support of the National Natural Science Foundation of China(32472594)the Independent Deployment Project of Institute of Zoology,Chinese Academy of Sciences(2023IOZ010).
文摘Plants have evolved complex immune networks to adapt to survival needs,and their immune mechanisms have unique regulatory patterns to cope with different environments.In rice,the maintenance of immune balance involves the synergistic action of many factors.Yue Wu et al.'s latest research results on the immunomodulatory mechanism of rice(ROD1 and the interaction between various proteins in rice)are introduced in this paper.
基金supported by the grants from the National Natural Science Foundation of China(32172420)and the Fundamental Research Funds for the Central Universities(KYXK202009ZJ21195012).S.D.received support from National Natural Science Foundation of China(31721004).
文摘Breeding of disease-resistant and high-yield crops is essential to meet the increasing food demand of the global population.However,the breeding of such crops remains a significant challenge for scientists and breeders.Two recent discoveries may help to overcome this challenge:the discovery of a novel molecular framework to fine-tune disease resistance and yields that includes epigenetic regulation of antagonistic immune receptors,and the discovery of a Ca^(2+)sensor-mediated immune repression network that enables the transfer of subspecies-specific and broad-spectrum disease resistance.These breakthroughs provide a promising roadmap for the future breeding of disease resistant crops.
