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The class III chitin synthase (WdChs3p) of the fungal pathogen of humans Wangiella dermatitidis is expressed differentially under stress growth conditions and, together with WdChs2p, it contributes to virulence. However, because this fungus produces four other chitin synthases, and a quadruple disruption strain with only WdChs3p activity has not been derived, we characterized this enzyme further after heterologous expression of the WdCHS3 cDNA under the regulation of the inducible GAL1 promoter in Saccharomyces cerevisiae. In contrast to our prior conclusions about the zymogenic nature of WdChs3p produced in W. dermatitidis, the enzyme expressed in yeast had a non-zymogenic activity, that is, an activity not potentiated by controlled proteolysis. Nonetheless, other characteristics of WdChs3p activity expressed in yeast were similar to those of the enzyme from its parent, including being stable over a broad range of pH and temperature values, which should facilitate attempts to purify this unique chitin synthase and better define its structure.

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Stricter regulations on volatile organic compounds and hazardous air pollutants have increased the demand for abatement technologies. Biofiltration, a process in which contaminated air is passed through a biologically active bed, can be used to remove these pollutants from air streams. In this study, a fungal vapor-phase bioreactor containing a strain of the dimorphic black yeast, Exophiala lecanii-corni, was used to treat a gas stream contaminated with toluene. The maximum toluene elimination capacity in short-term tests was 270 g m(-3) h(-1), which is 2 to 7 times greater than the toluene elimination capacities typically reported for bacterial systems. The fungal bioreactor also maintained toluene removal efficiencies of greater than 95% throughout the 175-day study. Harsh operating conditions such as low moisture content, acidic biofilms, and nitrogen limitation did not adversely affect performance. The fungal bioreactor also rapidly reestablished high toluene removal efficiencies after an 8-day shutdown period. These results indicate that fungal bioreactors may be an effective alternative to conventional abatement technologies for treating high concentrations of pollutants in waste gas streams.

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The chitin synthase structural gene WdCHS2 was isolated by screening a subgenomic DNA library of Wangiella dermatitidis by using a 0.6-kb PCR product of the gene as a probe. The nucleotide sequence revealed a 2,784-bp open reading frame, which encoded 928 amino acids, with a 59-bp intron near its 5' end. Derived protein sequences showed highest amino acid identities with those derived from the CiCHS1 gene of Coccidioides immitis and the AnCHSC gene of Aspergillus nidulans. The derived sequence also indicated that WdChs2p is an orthologous enzyme of Chs1p of Saccharomyces cerevisiae, which defines the class I chitin synthases. Disruptions of WdCHS2 produced strains that showed no obvious morphological defects in yeast vegetative growth or in ability to carry out polymorphic transitions from yeast cells to hyphae or to isotropic forms. However, assays showed that membranes of wdchs2Delta mutants were drastically reduced in chitin synthase activity. Other assays of membranes from a wdchs1Deltawdchs3Deltawdchs4Delta triple mutant showed that their residual chitin synthase activity was extremely sensitive to trypsin activation and was responsible for the majority of zymogenic activity. Although no loss of virulence was detected when wdchs2Delta strains were tested in a mouse model of acute infection, wdchs2Deltawdchs3Delta disruptants were considerably less virulent in the same model, even though wdchs3Delta strains also had previously shown no loss of virulence. This virulence attenuation in the wdchs2Deltawdchs3Delta mutants was similarly documented in a limited fashion in more-sensitive cyclophosphamide-induced immunocompromised mice. The importance of WdChs2p and WdChs3p to the virulence of W. dermatitidis was then confirmed by reconstituting virulence in the double mutant by the reintroduction of either WdCHS2 or WdCHS3 into the wdchs2Deltawdchs3Delta mutant background.

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Ground-level O3 formation is becoming a major concern in many cities due to recent tightening of O3 regulations. To control O3 formation, more efficient treatment processes for O3 precursors, such as NOx and volatile organic compounds (VOCs), are needed. One promising new technology for removing both NOx and VOCs from off-gas streams is biofiltration, a simple process whereby contaminated air is passed through a biologically active packed bed. In this study, a toluene-degrading fungal bioreactor was used to treat an aerobic gas stream contaminated with NO. The fungal bioreactor removed 93% of the inlet 250-ppmv NO at an empty bed contact time (EBCT) of 1 min when supplied with 90 g/m3/hr toluene. The presence of NH4+ concentrations greater than 0.4 mg NH3/g dry packing medium, however, resulted in poor NO removal. The bioreactor achieved a maximum toluene elimination capacity of 270 g/m3/hr and maintained greater than 95% toluene removal efficiencies over the 175-day study period.

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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 wdpks1Delta 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 beta-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 wdpks1Delta strains were less resistant to killing and less virulent, respectively, than their wild-type parent. Reconstitution of 1,8-DHN melanin biosynthesis in a wdpks1Delta strain reestablished its resistance to killing by neutrophils and its ability to cause fatal mouse infections.

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In contrast to the CDC42 homologues of Saccharomyces cerevisiae and Schizosaccharomyces pombe, the WdCDC42 gene in the human pathogenic fungus Wangiella (Exophiala) dermatitidis was found to be nonessential for cell viability. Expression of the constitutively active allele wdcdc42(G14V) at 37 degrees C induced nonpolarized growth that led to cell enlargement and multiple nucleation. The swollen cells subsequently converted into planate divided bicellular forms or multiply septated sclerotic bodies in post-log phase, when the G14V-altered protein was diminished. The wdcdc42(G14V) mutation also strongly repressed filamentous growth both in the wild-type strain and in the temperature-sensitive hyphal-form mutant Hf1. In contrast, overexpression of the dominant negative alleles wdcdc42(T19N) and wdcdc42(D120A) had no obvious effect on fungal-cell polarization. These results suggested that WdCdc42p plays a unique regulatory role in cellular morphogenesis in W. dermatitidis. Activation of this protein in response to extracellular or intracellular signals seems to commit its yeast-like cells to a phenotype transition that produces sclerotic bodies while repressing hyphal development.

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Class III chitin synthases are important for hyphal growth in some filamentous fungi but are not found in yeasts. Using a specific PCR product that encodes a portion of the class III chitin synthase of W. dermatitidis as a probe, we isolated the chitin synthase gene, WdCHS3, from this polymorphic melanized pathogen of humans. Northern blotting showed that WdCHS3 was highly expressed under stress conditions, such as the shift of cells to temperatures commensurate with infection, or to conditions that induce cellular morphogenesis in this fungus. Analysis of the 5' upstream sequence of WdCHS3 provided evidence for a negative regulatory element at between -780 and -1600 bp. Western blotting indicated that the production of the WdChs3p was temperature dependent and temporally regulated. Disruption of WdCHS3 in a wild-type strain and in two temperature-sensitive morphological mutants resulted in significantly reduced chitin synthase activities but did not obviously affect their morphologies, growth rates, chitin contents, or virulence. This paradox suggested that the contributions of the high levels of WdCHS3 gene expression and WdChs3p production in strains subjected to stress reside in unknown or unexamined parts of the life cycle of this ecologically poorly known member of the Fungi Imperfecti. Nonetheless, this report presents the first evidence that transcription of a chitin synthase gene is regulated by a negative regulatory element in its 5' upstream sequence.

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To explore potential virulence factors in the dematiaceous (melanized) fungus Wangiella dermatitidis, we established a gene expression system with properties of homologous transformation and color identification. Using a polyketide synthase gene (WdPKS1) fragment for targeting, we found that 52% of transformants became albinos easily distinguishable from nonspecific transformants. Southern analysis confirmed that the integrations were at the WdPKS1 locus, which however did not affect transformant growth. With a heterologous promoter, P-glaA, enhanced expression of lacZ was found at 37 degrees C. Our results indicated that this system allows the efficient production of isogenic strains for gene function analysis in W. dermatitidis.

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By using improved transformation methods for Wangiella dermatitidis, and a cloned fragment of its chitin synthase 4 structural gene (WdCHS4) as a marking sequence, the full-length gene was rescued from the genome of this human pathogenic fungus. The encoded chitin synthase product (WdChs4p) showed high homology with Chs3p of Saccharomyces cerevisiae and other class IV chitin synthases, and Northern blotting showed that WdCHS4 was expressed at constitutive levels under all conditions tested. Reduced chitin content, abnormal yeast clumpiness and budding kinetics, and increased melanin secretion resulted from the disruption of WdCHS4 suggesting that WdChs4p influences cell wall structure, cellular reproduction, and melanin deposition, respectively. However, no significant loss of virulence was detected when the wdchs4Delta strain was tested in an acute mouse model. Using a wdchs1Delta wdchs2Delta wdchs3Delta triple mutant of W. dermatitidis, which grew poorly but adequately at 25 degrees C, we assayed WdChs4p activity in the absence of activities contributed by its three other WdChs proteins. Maximal activity required trypsin activation, suggesting a zymogenic nature. The activity also had a pH optimum of 7.5, was most stimulated by Mg(2+), and was more inhibited by polyoxin D than by nikkomycin Z. Although the WdChs4p activity had a broad temperature optimum between 30 to 45 degrees C in vitro, this activity alone did not support the growth of the wdchs1Delta wdchs2Delta wdchs3Delta triple mutant at 37 degrees C, a temperature commensurate with infection.

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A genomic clone encoding the Wangiella dermatitidis orotidine monophosphate pyrophosphorylase gene (WdURA5) was isolated by screening a subgenomic plasmid DNA library of this phaeohyphomycotic agent using a PCR amplification product of the gene as a probe. When plasmid DNA containing the cloned WdURA5 gene was introduced by electroporation into a wdura5 auxotrophic recipient strain derived previously by selection with 5-fluoroorotic acid (5-FOA), an apparent gene repair event occurred at high frequency without any evidence of integration of the plasmid DNA. Therefore, the hygromycin B resistance gene (the hph gene) was used as a dominant selective marker for the disruption of WdURA5 to generate a new, more stable, wdura5 auxotrophic strain. Transformation of this strain was then achieved with high efficiency and high frequency by site-specific integration using WdURA5 as a selective marker. To initiate attempts to use this marker repeatedly for multiple chitin synthase (WdCHS) gene disruptions in single strains of W. dermatitidis, a hisG_WdURA5_hisG cassette was constructed and used to disrupt WdCHS2. The WdURA5 gene in the disruptant was then successfully recycled under selection for resistance to 5-FOA.

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The OPRTase (URA5) gene of the human pathogenic fungus, Coccidioides immitis (Ci), was cloned, sequenced, chromosome-mapped and expressed both by transformation of Escherichia coli and by complementation of wdura5Delta, an auxotrophic strain of Wangiella dermatitidis (Wd) with a disrupted URA5 gene. A functional assay of the recombinant URA5 expressed by E. coli was conducted to ensure that the isolated Ci gene encodes the appropriate enzyme. In the absence of a transformation system for Ci, we also used a reported method of introduction of heterologous DNA into cells of the phylogenetically related fungus, Wangiella dermatitidis, to confirm the function of the Ci URA5 gene. Both the genomic and cDNA sequences of the Ci URA5 gene are presented. The transcription start point and two poly(A) addition sites were confirmed. The gene contains a 714-bp ORF that translates a 238-amino-acid (aa) protein of 25.5kDa and pI of 6.5. No introns are present. The translated protein contains a single, putative N-glycosylation site. The deduced Ci protein showed 55-63% aa sequence similarity to reported fungal OPRTases. The URA5 gene was mapped to chromosome IV of Ci, and was shown to be a single copy gene by Southern and Northern hybridizations. Transformation of the wdura5Delta mutant to prototrophy was accomplished by electroporation of Wd yeast cells with the Ci URA5 gene. Cellular uptake of the heterologous DNA was confirmed by Southern hybridization. The stable transformants were unable to grow on a medium containing 5-FOA. Expression of the Ci URA5 gene can be used as a selectable marker for a transformation system, and the latter is essential for molecular studies of this pathogenic fungus.

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Genetic engineering is an important tool in helping us to define the molecular basis of pathogenicity and is also useful in helping us to identify new therapeutic targets in pathogenic fungi. Molecular genetic manipulation of micro-organisms requires the development of plasmid-mediated transformation systems that include: (i) infusion of exogenous DNA into recipient cells, (ii) expression of genes present on the incoming DNA, and (iii) stable maintenance and replication of the inserted DNA leading to expression of the desired phenotypic trait. Transformation systems have been developed for only a handful of fungi that are pathogenic to humans including several species of Candida, Cryptococcus neoformans, Histoplasma capsulatum, Blastomyces derrmatitidis, Aspergillus fumigatus, Wangiella dermatitidis (Exophiala dermatitidis) and Coccidioides immitis. Except for Candida species and A. fumigatus, where passage of exogenous DNA into recipient cells has been achieved readily using methods developed for transformation of Saccharomyces cerevisiae and Aspergillus nidulans, respectively, development of transformation systems in other pathogenic fungi has been delayed considerably and has only been possible recently with the introduction of electroporation and biolistic methods. Conventional spheroplasting methods or cell wall permeabilization methods using lithium acetate have not been successful for transformation of C. neoformans and work with only low efficiency in H. capsulatum. The fate of incoming DNA varies greatly in these pathogenic species regardless of their phylogenetic relationships. Understanding the fate of incoming DNA is critical for the construction of transforming vectors and the molecular manipulation of the organisms. In this symposium, recent advances in molecular genetic systems including transformation systems, the fate of incoming DNA and strategies for targeted integration are discussed in relation to four pathogenic fungi.

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Critical steps implicated in the polymorphism of Wangiella dermatitidis were found to be sensitive to calcium ion availability. When grown in a defined, synthetic medium under various pH and temperature conditions, two thresholds of calcium ion concentrations were identified: a lower concentration favouring non-polarized growth leading to multicellular form development and a higher concentration promoting polarized growth characterized by yeast budding or pseudo/true hyphal growth. The phenotypic transition of yeasts to multicellular forms or to hyphae was induced at both 25 and 37 degrees C in the wild-type strain by the addition of calcium to the synthetic medium adjusted to pH 2.5, which was otherwise not conducive to the production of either growth form. However, the calcium additions did not allow maintenance of polarized growth of yeasts or hyphae in a temperature-sensitive, cell-division-cycle mutant (wdcdc2) derived from the same strain and grown at 37 degrees C in the same medium adjusted to either pH 2.5 or 6.5. Instead these conditions allowed only the nonpolarized, multicellular form development associated with this conditional mutant cultured in rich media at the 37 degree C restrictive temperature for yeast bud formation. Results from experiments using the calcium chelator EGTA added to the synthetic medium supported these conclusions at neutral pH with both the wild type and the wdcdc2 mutant cultured at 37 degrees C. The results suggested that during infection different concentrations of calcium may be encountered by W. dermatitidis in different tissues, which might directly regulate its growth and polymorphism and indirectly its virulence depending on host conditions.

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Primers having designs based on highly conserved stretches in the deduced amino acid sequences of chitin synthase (CHS) genes were used in PCR reactions to amplify 600 bp and 366 bp products from the genomic DNA of three major causal agents of chromoblastomycosis. Cloning and sequencing of the PCR products of one of these fungi, Fonsecaea pedrosoi, identified three CHS sequences designated as FpCHS1, FpCHS2 and FpCHS3. FpCHS1 and FpCHS2 were homologous to regions of CHS1 and CHS2 of Saccharomyces cerevisiae, and their derived amino acid sequences fell into chitin synthase classes I and II, respectively. FpCHS3 was homologous to a region of the CAL1/CSD2 gene of S. cerevisiae, which codes for the chitin synthase three (Chs3) enzyme in that fungus. Phylogenetic trees constructed using the deduced amino acid sequences of PCR-amplified CHS products from many fungi clustered F. pedrosoi with other dematiaceous fungi, providing new molecular evidence for the genetic relatedness of these organisms. The identification of these CHS genes in F. pedrosoi will facilitate future studies of the functional roles of chitin synthases in the unique in vivo dimorphism exhibited by chromoblastomycotic fungi.

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Genetic transformation of Wangiella dermatitidis was studied using three plasmid vectors (pAN7-1, pWU44, and pKK5) and both electroporation and polyethyleneglycol-mediated methods. pAN7-1 contains the E. coli hygromycin B (HmB) phosphotransferase (hph) gene. Expression of the hph gene confers resistance to antibiotic HmB. Selection for resistance, indicative of transformation, resulted in 10 203 HmB-resistant colonies/micrograms pAN7-1 on medium containing 100 micrograms HmB/ml. Strains of W. dermatitidis used in this study have innate sensitivity to HmB at a critical inhibitory concentration of 20-40 micrograms/ml. Vectors pWU44 and pKK5 contain a URA5 gene from Podospora anserina. A ura5 auxotroph of W. dermatitidis was transformed to prototrophy with pWU44 or pKK5 by complementation. Transformation frequencies for these two plasmids were between 17-50 transformants/micrograms vector DNA. Southern blotting analysis and polymerase chain reaction detection of DNA from putative transformants confirmed transformation.

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Based on conserved amino-acid regions predicted for the chitin synthases (Chs) of Saccharomyces cerevisiae, two different primer sets were synthesized and used in polymerase chain reactions (PCRs) to amplify 614-bp and 366-bp sequences from genomic DNA of the zoopathogenic fungus Phialophora verrucosa. DNA-sequencing and Southern-blotting analyses of the 614-bp DNA amplification products suggested that portions of two distinct P. verrucosa chitin synthase genes (PvCHS1, PvCHS2), coding for two different zymogenic-type PvChs isozymes, had been identified. The deduced amino-acid sequence of each fell into different Chs classes, namely class I and class II. In addition, the 366-bp DNA segment was shown to code for a conserved region having homology with the CSD2/CAL1 gene of S. cerevisiae, which encodes a nonzymogenic-type enzyme, Chs3, in that fungus. The amino-acid sequence derived from PvCHS3 exhibits 88.2% similarity and 78.4% identity to the same amino-acid region of the S. cerevisiae enzyme. These results provide a critical first step toward investigating the molecular and pathogenic importance of CHS gene regulation in this fungus and for exploring steps leading to Chs function as potential targets for the design of new therapeutic agents.

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Degenerate PCR primers were used to amplify a 600-bp conserved gene region for chitin synthases from genomic DNA of Sporothrix schenckii, a dimorphic fungal pathogen of humans and animals. Three chitin synthase gene homologs were amplified as shown by DNA sequence analysis and by Southern blotting experiments. Based on differences among the predicted amino acid sequences of these homologs, each was placed within one of three different chitin synthase classes. Phylogenies constructed with the sequences and the PAUP 3.1.1 program showed that S. schenckii consistently clustered most closely with Neurospora crassa in each of the three chitin synthase classes. These findings are significant because the phylogenies support by a new method the grouping of the imperfect fungus S. schenckii with the Pyrenomycetes of the Ascomycota.

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Using polymerase chain reaction (PCR) primers to two highly conserved sequences within fungal chitin synthase (CHS)-encoding genes, an approximately 750-bp DNA fragment was amplified from genomic DNA of Phycomyces blakesleeanus. The amino acid sequence deduced from the nucleotide sequence of this fragment best matches the motifs found in class-II CHS. The fragment includes an approximately 160-bp region that likely is an intron. Southern hybridization of restriction enzyme-digested genomic DNA, using the PCR-amplified DNA as the probe, suggests that P. blakesleeanus contains additional CHS-encoding genes (CHS). To our knowledge, this is the first report on the detection of a CHS gene in a Zygomycete fungus. These studies represent a major step toward exploring the molecular mechanisms of CHS regulation in Phycomyces. The prospects are exciting, since CHS is implicated to play a central role in the sensory responses of P. blakesleeanus involving growth modulations.

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