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Infection and Immunity, March 2001, p. 1781-1794, Vol. 69, No. 3
Section of Molecular Genetics and
Microbiology, Institute for Cellular and Molecular Biology, The
University of Texas at Austin, Austin, Texas
787121; Microbiology Department,
University of Tennessee, Knoxville, Tennessee
379192; and Institute of Medical
Microbiology, University Hospital RWTH Aachen, Aachen,
Germany3
Received 21 September 2000/Returned for modification 11 October
2000/Accepted 17 November 2000
1,8-Dihydroxynaphthalene (1,8-DHN) is a fungal polyketide that
contributes to virulence when polymerized to 1,8-DHN melanin in the
cell walls of Wangiella dermatitidis, an agent of
phaeohyphomycosis in humans. To begin a genetic analysis of the initial
synthetic steps leading to 1,8-DHN melanin biosynthesis, a 772-bp PCR
product was amplified from genomic DNA using primers based on conserved regions of fungal polyketide synthases (Pks) known to produce the first
cyclized 1,8-DHN-melanin pathway intermediate,
1,3,6,8-tetrahydroxynaphthalene. The cloned PCR product was then used
as a targeting sequence to disrupt the putative polyketide synthase
gene, WdPKS1, in W. dermatitidis. The resulting
wdpks1
0019-9567/01/$04.00+0 DOI: 10.1128/IAI.69.3.1781-1794.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.
Molecular Cloning and Characterization of
WdPKS1, a Gene Involved in Dihydroxynaphthalene Melanin
Biosynthesis and Virulence in Wangiella
(Exophiala) dermatitidis
disruptants showed no morphological defects other
than an albino phenotype and grew at the same rate as their black
wild-type parent. Using a marker rescue approach, the intact WdPKS1 gene was then successfully recovered from two
plasmids. The WdPKS1 gene was also isolated independently
by complementation of the mel3 mutation in an albino mutant
of W. dermatitidis using a cosmid library. Sequence
analysis substantiated that WdPKS1 encoded a putative
polyketide synthase (WdPks1p) in a single open reading frame consisting
of three exons separated by two short introns. This conclusion was
supported by the identification of highly conserved Pks domains for a
-ketoacyl synthase, an acetyl-malonyl transferase, two acyl carrier
proteins, and a thioesterase in the deduced amino acid sequence.
Studies using a neutrophil killing assay and a mouse acute-infection
model confirmed that all wdpks1 strains were less
resistant to killing and less virulent, respectively, than their
wild-type parent. Reconstitution of 1,8-DHN melanin biosynthesis in a
wdpks1 strain reestablished its resistance to killing by
neutrophils and its ability to cause fatal mouse infections.
*
Corresponding author. Mailing address: Section of
Molecular Genetics and Microbiology, School of Biological Sciences,
University of Texas at Austin, Austin, TX 78712. Phone: (512) 471-3384. Fax: (512) 471-7088. E-mail:
pjszaniszlo{at}mail.utexas.edu.
Infection and Immunity, March 2001, p. 1781-1794, Vol. 69, No. 3
0019-9567/01/$04.00+0 DOI: 10.1128/IAI.69.3.1781-1794.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.
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