青枯菌
青枯病
微生物学
生物
钥匙(锁)
发病机制
病菌
生态学
免疫学
作者
Zaid Chachar,Xiaoming Xue,Junteng Fang,Ming Chen,Jiarui Chen,Weiwei Chen,Nazir Ahmed,Sadaruddin Chachar,Mehar-un-Nisa Narejo,Naseer Ahmed,Lina Fan,Ruiqiang Lai,Qi Yongwen
标识
DOI:10.3389/fmicb.2025.1521422
摘要
Ralstonia solanacearum , a Gram-negative bacterium, is the causative agent of bacterial wilt, a devastating disease affecting a wide range of economically important crops worldwide. This study explores the dynamic interactions between Ralstonia solanacearum and its host plants, emphasizing key mechanisms underlying infection and host response. The pathogen initiates infection through root wounds or natural openings, rapidly colonizing xylem vessels where it forms biofilms that disrupt water and nutrient transport. Its virulence is driven by cell wall-degrading enzymes and effector proteins delivered via a Type III secretion system, which subvert plant immune responses and facilitate systemic spread. In turn, host plants activate hormonal and stress-related defense pathways, though these are often manipulated by the pathogen, leading to disease progression and reduced productivity. This review highlights critical gaps in our understanding of molecular host-pathogen interactions and the role of environmental conditions in disease development. Addressing these gaps is vital for improving management strategies, with breeding for resistance and advanced biotechnological tools offering promising solutions to combat bacterial wilt and support sustainable agriculture. Future research should focus on leveraging genetic insights to enhance host resistance, employing advanced biotechnological tools to develop crop varieties with enhanced resistance to Ralstonia solanacearum , thereby promoting sustainable agriculture and strengthening global food security.
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