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Generation of markerless and multiple-gene knockout in Glaesserella parasuis based on natural transformation and Flp recombinase
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Generation of markerless and multiple-gene knockout in Glaesserella parasuis based on natural transformation and Flp recombinase
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Journal Article
Generation of markerless and multiple-gene knockout in Glaesserella parasuis based on natural transformation and Flp recombinase
2022
Overview
Glaesserella parasuis
is an important bacterial pathogen that affects the swine industry worldwide. Research on the pathogenic mechanism and genetically engineered vaccine remains undeveloped because an effective markerless and multiple-gene knockout system is unavailable for
G. parasuis
yet. To establish a markerless knockout, deleted allelic genes with kanamycin resistance (Kan
R
) cassettes were introduced into the genome of
G. parasuis
by using natural transformation with suicide plasmids. Then, the Kan
R
cassette was excised with a thermosensitive plasmid pGF conferring a constitutive Flp expression. To realize the markerless and multiple-gene knockout, plasmid pGAF was constructed by placing the Flp gene under the control of an arabinose-inducible promoter. Firstly, pGAF was introduced into
G. parasuis
by electroporation, and the marked mutants were produced following natural transformation. Finally, the Kan
R
cassette was excised from the genome by the inducible expression of Flp upon arabinose action. Based on the natural transformation and the inducible expression of Flp, the markerless single-gene knockout mutants of Δ
hsdR
, Δ
neuA2
, Δ
espP2
, Δ
apd
, and Δ
nanH
were constructed. In addition, a five-gene knockout mutant of Δ
hsdR
Δ
neuA2
Δ
espP2
Δ
apd
Δ
nanH
was generated by successive natural transformation with five suicide plasmids. Taken together, a markerless and multiple-gene deletion system was established for
G. parasuis
in the present study for the first time. This system is simple, efficient, and easy to manipulate for
G. parasuis
; thus, our technique will substantially aid the understanding of the etiology, pathogenesis, and genetic engineering of
G. parasuis
and other bacteria that can be naturally transformed in laboratory conditions.
Key points
• Flp recombinase excised the Kan
R
gene flanked by FRT sites in
Glaesserella parasuis.
• The regulatory expression of Flp enabled a multiple-gene knockout for
G. parasuis.
• The technique will promote the understanding of Glässer’s disease pathogens.
Graphical abstract
Publisher
Springer Berlin Heidelberg,Springer,Springer Nature B.V
Subject
