Discovery, structure and function of plasmid mediated shufflon.
- Author:
Tian YI
1
;
Yang WANG
1
;
Jianzhong SHEN
1
;
Congming WU
1
;
Yingbo SHEN
1
Author Information
- Publication Type:Journal Article
- Keywords: conjugation; drug-resistant plasmids; pilV; shufflon; type Ⅳ pili
- MeSH: Plasmids/genetics*; Proteins/genetics*; Bacteria/genetics*; Recombinases; Genes, Bacterial; Anti-Bacterial Agents
- From: Chinese Journal of Biotechnology 2023;39(1):34-44
- CountryChina
- Language:Chinese
- Abstract: Antimicrobial resistance has become a major public health issue of global concern. Conjugation is an important way for fast spreading drug-resistant plasmids, during which the type Ⅳ pili plays an important role. Type Ⅳ pili can adhere on the surfaces of host cell and other medium, facilitating formation of bacterial biofilms, bacterial aggregations and microcolonies, and is also a critical factor in liquid conjugation. PilV is an adhesin-type protein found on the tip of type Ⅳ pili encoded by plasmid R64, and can recognize the lipopolysaccharid (LPS) molecules that locate on bacterial membrane. The shufflon is a clustered inversion region that diversifies the PilV protein, which consequently affects the recipient recognition and conjugation frequency in liquid mating. The shufflon was firstly discovered on an IncI1 plasmid R64 and has been identified subsequently in plasmids IncI2, IncK and IncZ, as well as the pathogenicity island of Salmonella typhi. The shufflon consists of four segments including A, B, C, and D, and a specific recombination site named sfx. The shufflon is regulated by its downstream-located recombinase-encoding gene rci, and different rearrangements of the shufflon region in different plasmids were observed. Mobile colistin resistance gene mcr-1, which has attracted substantial attentions recently, is mainly located in IncI2 plasmid. The shufflon may be one of the contributors to fast spread of mcr-1. Herein, we reviewed the discovery, structure, function and prevalence of plasmid mediated shufflon, aiming to provide a theoretical basis on transmission mechanism and control strategy of drug-resistant plasmids.
