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J. Bacteriol., 07 1997, 4270-4276, Vol 179, No. 13
RG Kok, DA D'Argenio and LN Ornston
We present a procedure for efficient random mutagenesis of selected genes
in a bacterial chromosome. The method combines PCR replication errors with
the uptake of PCR-amplified DNA via natural transformation. Cloning of PCR
fragments is not required, since mutations are transferred directly to the
chromosome via homologous recombination. Random mutations were introduced
into the Acinetobacter chromosomal pobR gene encoding the transcriptional
activator of pobA, the structural gene for 4-hydroxybenzoate 3-hydroxylase.
Mutant strains with strongly reduced PobR activity were selected by
demanding the inability to convert 4-hydroxybenzoate to a toxic metabolite.
Of spontaneous pobR mutants, 80% carry the insertion element IS1236,
rendering them inappropriate for structure-function studies. Transformation
with Taq-amplified pobR DNA increased the mutation frequency 240-fold and
reduced the proportion of IS1236 inserts to undetectable levels. The
relative fidelity of Pfu polymerase compared with Taq polymerase was
illustrated by a reduced effect on the mutation frequency; a procedure for
rapid assessment of relative polymerase fidelity in PCR follows from this
observation. Over 150 independent mutations were localized by
transformation with DNA fragments containing nested deletions of wild-type
pobR. Sequence analysis of 89 of the mutant pobR alleles showed that the
mutations were predominantly single-nucleotide substitutions broadly
distributed within pobR. Promoter mutations were recovered, as were two
mutations that are likely to block pobR translation. One-third of the
recovered mutations conferred a leaky or temperature-sensitive phenotype,
whereas the remaining null mutations completely blocked growth with 4-
hydroxybenzoate. Strains containing two different nonsense mutations in
pobR were transformed with PCR-amplified DNA to identify permissible codon
substitutions. Independently, second-site suppressor mutations were
recovered within pcaG, another member of the supraoperonic pca-qui- pob
cluster on the Acinetobacter chromosome. This shows that combining PCR
mutagenesis with natural transformation is of general utility.
Copyright © 1997, American Society for Microbiology
Combining localized PCR mutagenesis and natural transformation in direct genetic analysis of a transcriptional regulator gene, pobR
Department of Biology, Yale University, New Haven, Connecticut 06520- 8103, USA.
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