Plesiomonas shigelloides sipD mutant, generated by an efficient gene transfer system, is less invasive

Publication date: Available online 26 February 2019Source: Journal of Microbiological MethodsAuthor(s): Daoyi Xi, Fuyi Jing, Qian Liu, Boyang CaoAbstractPlesiomonas shigelloides is widely associated with human diarrheal disease. Research on this pathogen has been hampered by the absence of an effective genetic manipulation system. In the present study, an efficient and precise conjugation transfer procedure, mediated by suicide vector pRE112 was used to overcome this limitation. The efficiency of generating double recombinants was average 74.3%, and the conjugation protocol may be applied to other P. shigelloides strains. We also identified that the SipD protein of P. shigelloides G5884 (serotype O45) is 65% similar to the SipD in Salmonella pathogenicity island 1 (SPI-1), which is a key element of the type III secretion system related to Salmonella invasion. A P. shigelloides sipD null mutant was generated via the conjugation system, using the suicide vector pRE112. The isogenic mutant strain lacking sipD showed a 50% reduction in its capacity to invade Caco-2 cells.
Source: Journal of Microbiological Methods - Category: Microbiology Source Type: research