毒力
生物
噬菌体
微生物学
铜绿假单胞菌
分泌物
蛋白酶
溶解循环
毒力因子
细菌
基因组
溶原循环
激活剂(遗传学)
噬菌体展示
肌病毒科
VI型分泌系统
细菌遗传学
细菌基因组大小
基因
噬菌体分型
病毒学
噬菌体疗法
细菌病毒
遗传学
寄主(生物学)
噬菌体
假单胞菌
作者
Jingru Zhao,Yanan Zhu,Chenchen Wang,Fan Tian,Jun Deng,Jianglin Liao,Zhuojun Zhong,J. B. Liu,Nannan Guo,Shuai Le,Haihua Liang
标识
DOI:10.1038/s44318-026-00740-0
摘要
Bacteriophages have evolved diverse inhibitors targeting key bacterial processes, including virulence and anti-phage defense systems, which could inspire novel antimicrobial strategies and enhance phage therapy approaches. In this study, we characterize Dap2, a protein encoded by a Pseudomonas aeruginosa phage PaoP5, which disrupts host virulence by sequestering the type III secretion system (T3SS) transcriptional activator ExsA, thus suppressing bacterial pathogenicity. Furthermore, Dap2 also directly binds the host Lon protease to prevent degradation of the phage-encoded HNH endonuclease. Deletion of dap2 in PaoP5 strongly impairs phage genome packaging due to insufficient levels of HNH. Finally, Dap2 synergizes with its genomically adjacent partner Dap1, a previously identified HNH-binding protein providing partial Lon resistance, to completely protect HNH against degradation. Together, these findings reveal a dual-function phage protein that simultaneously modulates bacterial virulence and anti-phage immunity, and showcase a synergistic mechanism for complete neutralization of bacterial defense system against which individual components provide only partial protection.
科研通智能强力驱动
Strongly Powered by AbleSci AI