Litcius/Paper detail

Structure of Vibrio Phage XM1, a Simple Contractile DNA Injection Machine

Zhiqing Wang, Andrei Fokine, Xinwu Guo, Wen Jiang, Michael G. Rossmann, Richard Kühn, Zhu-Hua Luo, Thomas Klose

2023Viruses23 citationsDOIOpen Access PDF

Abstract

Antibiotic resistance poses a growing risk to public health, requiring new tools to combat pathogenic bacteria. Contractile injection systems, including bacteriophage tails, pyocins, and bacterial type VI secretion systems, can efficiently penetrate cell envelopes and become potential antibacterial agents. Bacteriophage XM1 is a dsDNA virus belonging to the Myoviridae family and infecting Vibrio bacteria. The XM1 virion, made of 18 different proteins, consists of an icosahedral head and a contractile tail, terminated with a baseplate. Here, we report cryo-EM reconstructions of all components of the XM1 virion and describe the atomic structures of 14 XM1 proteins. The XM1 baseplate is composed of a central hub surrounded by six wedge modules to which twelve spikes are attached. The XM1 tail contains a fewer number of smaller proteins compared to other reported phage baseplates, depicting the minimum requirements for building an effective cell-envelope-penetrating machine. We describe the tail sheath structure in the pre-infection and post-infection states and its conformational changes during infection. In addition, we report, for the first time, the in situ structure of the phage neck region to near-atomic resolution. Based on these structures, we propose mechanisms of virus assembly and infection.

Topics & Concepts

BacteriophageMyoviridaeCapsidBiologyBacterial virusDNAVirusBacteriaPathogenic bacteriaEscherichia coliGenomeCell envelopeVirologyMicrobiologyComputational biologyGeneticsGeneBacteriophages and microbial interactionsBacterial Genetics and BiotechnologyVibrio bacteria research studies