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Journal of Bacteriology, December 1998, p. 6252-6259, Vol. 180, No. 23
0021-9193/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.
Department of Entomology and Plant Pathology, Oklahoma State University, Stillwater, Oklahoma 74078-3032
Received 22 January 1998/Accepted 17 September 1998
Coronatine (COR) is a plasmid-encoded phytotoxin synthesized by
several pathovars of phytopathogenic Pseudomonas syringae. The COR biosynthetic gene cluster in P. syringae pv.
glycinea PG4180 is encoded by a 32-kb region which contains both the
structural and regulatory genes needed for COR synthesis. The
regulatory region contains three genes: corP,
corS, and corR. corS is thought to function as
a histidine protein kinase, whereas corP and
corR show relatedness to response regulators of the
two-component regulatory paradigm. In the present study, we
investigated whether CorR is a positive activator of COR gene
expression. We also studied whether CorR specifically binds the DNA
region located upstream of cfl, a gene located at the 5'
end of the gene cluster encoding coronafacic acid, the polyketide
portion of COR. Complementation analysis with a corR
mutant, PG4180.P2, and transcriptional fusions to a promoterless
glucuronidase gene (uidA) indicated that CorR functions as
a positive regulator of COR gene expression. Deletion analysis of the
5' end of the cfl upstream region was used to define the minimal region required for COR gene expression. A 360-bp DNA fragment
located over 500 bp upstream from the cfl transcriptional start site was used in DNase I protection assays to define the specific
bases bound by CorR. An area extending from 
704 to 650 with respect
to the cfl transcriptional start site was protected by
DNase I footprinting, indicating a rather large area of protection. This area was also conserved in the promoter region for
cmaA, which encodes a transcript containing genes for
coronamic acid synthesis, another intermediate in the COR biosynthetic
pathway. The results obtained in the current study suggest that both
the coronafacic acid and the coronamic acid structural genes are
controlled by CorR, a positive activator of COR gene expression.
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