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Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: UMLS:C0231530 (
twitching
)
2,043
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Type 4 fimbriae are surface organelles produced by a wide range of bacterial pathogens. In Pseudomonas aeruginosa they are associated with a form of surface translocation known as
twitching
motility and have also been implicated as the receptor for a number of fimbrial-specific bacteriophages. The infrastructural machinery required for type 4 fimbrial biogenesis appears to be conserved as heterologous subunits from other species can be expressed in P. aeruginosa. All of these studies have, until now, been performed in
non-functional
Pseudomonas host strains which lack
twitching
motility. We have constructed isogenic mutants of two commonly studied wild-type P. aeruginosa strains, PAK and PAO1, by replacing the entire pilA gene which encodes the fimbrial subunit. Fimbrial expression and
twitching
motility were restored by complementation in trans with either the homologous or heterologous subunits from these strains, as well as that from another type 4 fimbriate species, Dichelobacter nodosus. The expression of different subunits allowed us to investigate the precise role that the individual subunit proteins contribute to bacteriophage infection by several fimbrial-specific bacteriophages. Sensitivity to bacteriophages B3cts and D3112cts was restored by the expression of any fimbrial subunit in both PAO1 and PAK cells, indicating that infection by these bacteriophages is fimbrial dependent but not fimbrial specific. In contrast, while sensitivity to the PAK-specific bacteriophage PO4 was restored by the expression of any fimbrial subunit in PAK cells, this did not occur in PAO1 cells except when expressing the PAK subunit. In all cases, the presence of fimbriae was absolutely required to allow a productive bacteriophage infection to occur.
...
PMID:Functional expression of heterologous type 4 fimbriae in Pseudomonas aeruginosa. 891 91
In Pseudomonas aeruginosa, most proteins involved in type IVa pilus (T4aP) biogenesis are highly conserved except for the major pilin PilA and the minor pilins involved in pilus assembly. Here we show that each of the five major pilin alleles is associated with a specific set of minor pilins, and unrelated strains with the same major pilin type have identical minor pilin genes. The sequences of the minor pilin genes of strains with group III and V pilins are identical, suggesting that these groups diverged recently through further evolution of the major pilin cluster. Both gene clusters are localized on a single 'pilin island' containing putative tRNA recombinational hotspots, and a similar organization of pilin genes was identified in other Pseudomonas species. To address the biological significance of group-specific differences, cross-complementation studies using group II (PAO1) and group III (PA14) minor pilins were performed. Heterologous minor pilins complemented
twitching
motility to various extents except in the case of PilX, which was
non-functional
in non-native backgrounds. A recombinant PA14 strain expressing the PAO1 minor pilins regained motility only upon co-introduction of the PA14 pilX gene. Comparison of PilX and PilQ secretin sequences from group II, III and V genomes revealed discrete regions of sequence that co-varied between groups. Our data suggest that changes in PilX sequence have led to compensatory changes in the PilQ secretin monomer such that heterologous PilX proteins are no longer able to promote opening of the secretin to allow pili to appear on the cell surface.
...
PMID:Evolutionary and functional diversity of the Pseudomonas type IVa pilin island. 2073 75
