Affiliation:
1. Institute of Genetics, School of Biology, QMC Medical School, University of Nottingham, Nottingham NG7 2UH, United Kingdom
Abstract
ABSTRACT
Early electron microscopy and more recent studies in our laboratory of
Bdellovibrio bacteriovorus
cells indicated the presence of narrow fibers at the nonflagellar pole of this unusual predatory bacterium. Analysis of the
B. bacteriovorus
HD100 genome showed a complete set of genes potentially encoding type IV pili and an incomplete gene set for Flp pili; therefore, the role of type IV pili in the predatory life cycle of
B. bacteriovorus
HD100 was investigated. Alignment of the predicted PilA protein with known type IV pilins showed the characteristic conserved N terminus common to type IVa pilins. The
pilA
gene, encoding the type IV pilus fiber protein, was insertionally inactivated in multiple
Bdellovibrio
replicate cultures, and the effect upon the expression of other pilus genes was monitored by reverse transcriptase PCR. Interruption of
pilA
in replicate isolates abolished
Bdellovibrio
predatory capability in liquid prey cultures and on immobilized yellow fluorescent protein-labeled prey, but the mutants could be cultured prey independently. Expression patterns of
pil
genes involved in the formation of type IV pili were profiled across the predatory life cycle from attack phase predatory
Bdellovibrio
throughout the intraperiplasmic bdelloplast stages to prey lysis and in prey-independent growth. Taken together, the data show that type IV pili play a critical role in
Bdellovibrio
predation.
Publisher
American Society for Microbiology
Subject
Molecular Biology,Microbiology
Cited by
105 articles.
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