生物
上位性
遗传建筑学
基因组学
种质资源
生物技术
计算生物学
疾病
进化生物学
植物抗病性
遗传学
抗性(生态学)
基因组选择
农业
复杂疾病
遗传变异
功能基因组学
适应(眼睛)
作物
全基因组关联研究
关联映射
比较基因组学
数量性状位点
作者
Shavannor M. Smith,Usha Bhatta,Margaret R. Woodhouse,Matthew B. Hufford
标识
DOI:10.1146/annurev-phyto-011325-102141
摘要
Plant diseases threaten global food security, causing up to 40% crop yield losses and more than $220 billion in annual economic damage. This review synthesizes recent advances in understanding the genomic variations and mutational events underlying plant-pathogen interactions and durable plant disease resistance. Key insights into evolutionary dynamics, genetic variability, and coadaptive strategies reveal the complexity of host-pathogen relationships and the implications for developing durable disease resistance. Integrative approaches combining genome-wide association studies and functional genomics have uncovered the polygenic and epistatic architecture of quantitative resistance. Advances in pan-genomics and high-throughput sequencing have revealed extensive genetic variability in cultivated/elite germplasm and wild relatives. Emerging technologies, including gene editing, multi-omics, and machine learning, enable predictive modeling of resistance traits and support evolution that informs plant breeding strategies. Collectively, these advances provide a robust framework for developing durable resistance and sustainable crop protection in the face of global agricultural challenges.
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