The ability to switch between yeast and hyphal morphologies is an important virulence factor for ... more The ability to switch between yeast and hyphal morphologies is an important virulence factor for the opportunistic pathogenCandida albicans. Although the kinetics of appearance of the filamentous ring that forms at the incipient septum differ in yeast and cells forming hyphae (germ tubes) ( Soll and Mitchell, 1983 ), the molecular mechanisms that regulate this difference are not known. Int1p, a C. albicans gene product with similarity in its C terminus to Saccharomyces cerevisiae Bud4p, has a role in hyphal morphogenesis. Here we report that in S. cerevisiae, Int1p expression results in the growth of highly polarized cells with delocalized chitin and defects in cytokinesis and bud-site selection patterns, phenotypes that are also seen in S. cerevisiae septin mutant strains. Expression of high levels of Int1p in S. cerevisiae generated elaborate spiral-like structures at the periphery of the polarized cells that contained septins and Int1p. In addition, Int1p coimmunoprecipitated wit...
Cyanase catalyzes the reaction of cyanate with bicarbonate to give 2CO2. The cynS gene encoding c... more Cyanase catalyzes the reaction of cyanate with bicarbonate to give 2CO2. The cynS gene encoding cyanase, together with the cynT gene for carbonic anhydrase, is part of the cyn operon, the expression of which is induced in Escherichia coli by cyanate. The physiological role of carbonic anhydrase is to prevent depletion of cellular bicarbonate during cyanate decomposition due to loss of CO2 (M.B. Guilloton, A.F. Lamblin, E. I. Kozliak, M. Gerami-Nejad, C. Tu, D. Silverman, P.M. Anderson, and J.A. Fuchs, J. Bacteriol. 175:1443-1451, 1993). A delta cynT mutant strain was extremely sensitive to inhibition of growth by cyanate and did not catalyze decomposition of cyanate (even though an active cyanase was expressed) when grown at a low pCO2 (in air) but had a Cyn+ phenotype at a high pCO2. Here the expression of these two enzymes in this unusual system for cyanate degradation was characterized in more detail. Both enzymes were found to be located in the cytosol and to be present at appro...
We have developed a set of plasmids containing fluorescent protein cassettes for use in PCR-media... more We have developed a set of plasmids containing fluorescent protein cassettes for use in PCR-mediated gene tagging in Candida albicans. We engineered YFP and CFP variants of the GFP sequence optimized for C. albicans codon usage. The fluorescent protein sequences, linked to C. albicans auxotrophic marker sequences, were amplified by PCR and transformed directly into yeast. Gene-specific sequence was incorporated into the PCR primers, such that the tag-cassette integrates by homologous recombination at the 3'-end of the gene of interest. This technique was used to tag Cdc3 and Tub1 with GFP, YFP and CFP, which were readily visualized by fluorescence microscopy and localized as expected. In addition, Tub1-YFP and Cdc3-CFP were visualized in the same cells. Thus, this technique directs one-step construction of multiple fluorescent protein fusions, facilitating the study of protein co-expression and co-localization in C. albicans cells in vivo.
We have developed a set of plasmids containing fluorescent protein cassettes for use in PCR-media... more We have developed a set of plasmids containing fluorescent protein cassettes for use in PCR-mediated gene tagging in Candida albicans. We engineered YFP and CFP variants of the GFP sequence optimized for C. albicans codon usage. The fluorescent protein sequences, linked to C. albicans auxotrophic marker sequences, were amplified by PCR and transformed directly into yeast. Gene-specific sequence was incorporated into the PCR primers, such that the tag-cassette integrates by homologous recombination at the 3'-end of the gene of interest. This technique was used to tag Cdc3 and Tub1 with GFP, YFP and CFP, which were readily visualized by fluorescence microscopy and localized as expected. In addition, Tub1-YFP and Cdc3-CFP were visualized in the same cells. Thus, this technique directs one-step construction of multiple fluorescent protein fusions, facilitating the study of protein co-expression and co-localization in C. albicans cells in vivo.
Cyanate induces expression of the cyn operon in Escherichia coli. The cyn operon includes the gen... more Cyanate induces expression of the cyn operon in Escherichia coli. The cyn operon includes the gene cynS, encoding cyanase, which catalyzes the reaction of cyanate with bicarbonate to give ammonia and carbon dioxide. A carbonic anhydrase activity was recently found to be encoded by the cynT gene, the first gene of the cyn operon; it was proposed that carbonic anhydrase prevents depletion of bicarbonate during cyanate decomposition due to loss of CO2 by diffusion out of the cell (M. B. Guilloton, J. J. Korte, A. F. Lamblin, J. A. Fuchs, and P. M. Anderson, J. Biol. Chem. 267:3731-3734, 1992). The function of the product of the third gene of this operon, cynX, is unknown. In the study reported here, the physiological roles of cynT and cynX were investigated by construction of chromosomal mutants in which each of the three genes was rendered inactive. The delta cynT chromosomal mutant expressed an active cyanase but no active carbonic anhydrase. In contrast to the wild-type strain, the ...
Diphenyliodonium chloride was found to be a broad spectrum antimicrobial agent and its activity w... more Diphenyliodonium chloride was found to be a broad spectrum antimicrobial agent and its activity was affected by pH and inoculum size. Its uptake by bacterial cells was Langmuirian, and it caused loss of intracellular material. Aerobic glucose metabolism and dehydrogenase activity were inhibited. Low concentrations of the drug affected the membrane-bound ATPase and K transport in Streptococcus faecalis.
Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression, 2000
The two promoters of Escherichia coli trxA gene were separately cloned into pKO100 as well as pJE... more The two promoters of Escherichia coli trxA gene were separately cloned into pKO100 as well as pJEL170. Galactokinase expression in cells containing the pKO100 derivatives was found to be negatively correlated with growth rate and was 6- to 20-fold higher in stationary cultures than in exponential cultures. The expression of trxA-galK was induced by amino acid starvation in a RelA(+) strain but not in an isogenic Rel(-) strain indicating that the control involves guanosine 3',5'-bispyrophosphate (ppGpp). RpoS, which appears to be essential for expression of most stationary phase expressed genes, is not required for trxA expression. Increased expression of relA, which increases ppGpp concentration, increases trxA expression.
Escherichia coli thioredoxin is a small disulfide-containing redox protein with the active site s... more Escherichia coli thioredoxin is a small disulfide-containing redox protein with the active site sequence Cys-Gly-Pro-Cys-Lys. Mutations were made in this region of the thioredoxin gene and the mutant proteins expressed in E. coli strains lacking thioredoxin. Mutant proteins with a 17-membered or 11-membered disulfide ring were inactive in vivo. However, purified thioredoxin with the active site sequence Cys-Gly-Arg-Pro-Cys-Lys is still able to serve as a substrate for thioredoxin reductase and a reducing agent in the ribonucleotide reductase reaction, although with greatly reduced catalytic efficiency. A smaller disulfide ring, with the active site sequence Cys-Ala-Cys, does not turn over at a sufficient rate to be an effective reducing agent. Strain in the small ring favors the formation of intermolecular disulfide bonds. Alteration of the invariant proline to a serine has little effect on redox activity. The function of this residue may be in maintaining the stability of the active site region rather than participation in redox activity or protein-protein interactions. Mutation of the positively charged lysine in the active site to a glutamate residue raises the Km values with interacting enzymes. Although it has been proposed that the positive residue at position 36 is conserved to maintain the thiolate anion on Cys-32 (Kallis & Holmgren, 1985), the presence of the negative charge at this position does not alter the pH dependence of activity or fluorescence behavior. The lysine is most likely conserved to facilitate thioredoxin-protein interactions.
Candida albicans is the most prevalent fungal pathogen of humans. The current techniques used to ... more Candida albicans is the most prevalent fungal pathogen of humans. The current techniques used to construct C. albicans strains require integration of exogenous DNA at ectopic locations, which can exert position effects on gene expression that can confound the interpretation of data from critical experiments such as virulence assays. We have identified a large intergenic region, NEUT5L, which facilitates the integration and expression of ectopic genes. To construct and integrate inserts into this novel locus, we re-engineered yeast/bacterial shuttle vectors by incorporating 550 bp of homology to NEUT5L. These vectors allow rapid, facile cloning through in vivo recombination (gap repair) in Saccharomyces cerevisiae and efficient integration of the construct into the NEUT5L locus. Other useful features of these vectors include a choice of three selectable markers (URA3, the recyclable URA3-dpl200 or NAT1), and rare restriction enzyme recognition sites for releasing the insert from the ...
The ability to switch between yeast and hyphal morphologies is an important virulence factor for ... more The ability to switch between yeast and hyphal morphologies is an important virulence factor for the opportunistic pathogenCandida albicans. Although the kinetics of appearance of the filamentous ring that forms at the incipient septum differ in yeast and cells forming hyphae (germ tubes) ( Soll and Mitchell, 1983 ), the molecular mechanisms that regulate this difference are not known. Int1p, a C. albicans gene product with similarity in its C terminus to Saccharomyces cerevisiae Bud4p, has a role in hyphal morphogenesis. Here we report that in S. cerevisiae, Int1p expression results in the growth of highly polarized cells with delocalized chitin and defects in cytokinesis and bud-site selection patterns, phenotypes that are also seen in S. cerevisiae septin mutant strains. Expression of high levels of Int1p in S. cerevisiae generated elaborate spiral-like structures at the periphery of the polarized cells that contained septins and Int1p. In addition, Int1p coimmunoprecipitated wit...
Cyanase catalyzes the reaction of cyanate with bicarbonate to give 2CO2. The cynS gene encoding c... more Cyanase catalyzes the reaction of cyanate with bicarbonate to give 2CO2. The cynS gene encoding cyanase, together with the cynT gene for carbonic anhydrase, is part of the cyn operon, the expression of which is induced in Escherichia coli by cyanate. The physiological role of carbonic anhydrase is to prevent depletion of cellular bicarbonate during cyanate decomposition due to loss of CO2 (M.B. Guilloton, A.F. Lamblin, E. I. Kozliak, M. Gerami-Nejad, C. Tu, D. Silverman, P.M. Anderson, and J.A. Fuchs, J. Bacteriol. 175:1443-1451, 1993). A delta cynT mutant strain was extremely sensitive to inhibition of growth by cyanate and did not catalyze decomposition of cyanate (even though an active cyanase was expressed) when grown at a low pCO2 (in air) but had a Cyn+ phenotype at a high pCO2. Here the expression of these two enzymes in this unusual system for cyanate degradation was characterized in more detail. Both enzymes were found to be located in the cytosol and to be present at appro...
We have developed a set of plasmids containing fluorescent protein cassettes for use in PCR-media... more We have developed a set of plasmids containing fluorescent protein cassettes for use in PCR-mediated gene tagging in Candida albicans. We engineered YFP and CFP variants of the GFP sequence optimized for C. albicans codon usage. The fluorescent protein sequences, linked to C. albicans auxotrophic marker sequences, were amplified by PCR and transformed directly into yeast. Gene-specific sequence was incorporated into the PCR primers, such that the tag-cassette integrates by homologous recombination at the 3'-end of the gene of interest. This technique was used to tag Cdc3 and Tub1 with GFP, YFP and CFP, which were readily visualized by fluorescence microscopy and localized as expected. In addition, Tub1-YFP and Cdc3-CFP were visualized in the same cells. Thus, this technique directs one-step construction of multiple fluorescent protein fusions, facilitating the study of protein co-expression and co-localization in C. albicans cells in vivo.
We have developed a set of plasmids containing fluorescent protein cassettes for use in PCR-media... more We have developed a set of plasmids containing fluorescent protein cassettes for use in PCR-mediated gene tagging in Candida albicans. We engineered YFP and CFP variants of the GFP sequence optimized for C. albicans codon usage. The fluorescent protein sequences, linked to C. albicans auxotrophic marker sequences, were amplified by PCR and transformed directly into yeast. Gene-specific sequence was incorporated into the PCR primers, such that the tag-cassette integrates by homologous recombination at the 3'-end of the gene of interest. This technique was used to tag Cdc3 and Tub1 with GFP, YFP and CFP, which were readily visualized by fluorescence microscopy and localized as expected. In addition, Tub1-YFP and Cdc3-CFP were visualized in the same cells. Thus, this technique directs one-step construction of multiple fluorescent protein fusions, facilitating the study of protein co-expression and co-localization in C. albicans cells in vivo.
Cyanate induces expression of the cyn operon in Escherichia coli. The cyn operon includes the gen... more Cyanate induces expression of the cyn operon in Escherichia coli. The cyn operon includes the gene cynS, encoding cyanase, which catalyzes the reaction of cyanate with bicarbonate to give ammonia and carbon dioxide. A carbonic anhydrase activity was recently found to be encoded by the cynT gene, the first gene of the cyn operon; it was proposed that carbonic anhydrase prevents depletion of bicarbonate during cyanate decomposition due to loss of CO2 by diffusion out of the cell (M. B. Guilloton, J. J. Korte, A. F. Lamblin, J. A. Fuchs, and P. M. Anderson, J. Biol. Chem. 267:3731-3734, 1992). The function of the product of the third gene of this operon, cynX, is unknown. In the study reported here, the physiological roles of cynT and cynX were investigated by construction of chromosomal mutants in which each of the three genes was rendered inactive. The delta cynT chromosomal mutant expressed an active cyanase but no active carbonic anhydrase. In contrast to the wild-type strain, the ...
Diphenyliodonium chloride was found to be a broad spectrum antimicrobial agent and its activity w... more Diphenyliodonium chloride was found to be a broad spectrum antimicrobial agent and its activity was affected by pH and inoculum size. Its uptake by bacterial cells was Langmuirian, and it caused loss of intracellular material. Aerobic glucose metabolism and dehydrogenase activity were inhibited. Low concentrations of the drug affected the membrane-bound ATPase and K transport in Streptococcus faecalis.
Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression, 2000
The two promoters of Escherichia coli trxA gene were separately cloned into pKO100 as well as pJE... more The two promoters of Escherichia coli trxA gene were separately cloned into pKO100 as well as pJEL170. Galactokinase expression in cells containing the pKO100 derivatives was found to be negatively correlated with growth rate and was 6- to 20-fold higher in stationary cultures than in exponential cultures. The expression of trxA-galK was induced by amino acid starvation in a RelA(+) strain but not in an isogenic Rel(-) strain indicating that the control involves guanosine 3',5'-bispyrophosphate (ppGpp). RpoS, which appears to be essential for expression of most stationary phase expressed genes, is not required for trxA expression. Increased expression of relA, which increases ppGpp concentration, increases trxA expression.
Escherichia coli thioredoxin is a small disulfide-containing redox protein with the active site s... more Escherichia coli thioredoxin is a small disulfide-containing redox protein with the active site sequence Cys-Gly-Pro-Cys-Lys. Mutations were made in this region of the thioredoxin gene and the mutant proteins expressed in E. coli strains lacking thioredoxin. Mutant proteins with a 17-membered or 11-membered disulfide ring were inactive in vivo. However, purified thioredoxin with the active site sequence Cys-Gly-Arg-Pro-Cys-Lys is still able to serve as a substrate for thioredoxin reductase and a reducing agent in the ribonucleotide reductase reaction, although with greatly reduced catalytic efficiency. A smaller disulfide ring, with the active site sequence Cys-Ala-Cys, does not turn over at a sufficient rate to be an effective reducing agent. Strain in the small ring favors the formation of intermolecular disulfide bonds. Alteration of the invariant proline to a serine has little effect on redox activity. The function of this residue may be in maintaining the stability of the active site region rather than participation in redox activity or protein-protein interactions. Mutation of the positively charged lysine in the active site to a glutamate residue raises the Km values with interacting enzymes. Although it has been proposed that the positive residue at position 36 is conserved to maintain the thiolate anion on Cys-32 (Kallis & Holmgren, 1985), the presence of the negative charge at this position does not alter the pH dependence of activity or fluorescence behavior. The lysine is most likely conserved to facilitate thioredoxin-protein interactions.
Candida albicans is the most prevalent fungal pathogen of humans. The current techniques used to ... more Candida albicans is the most prevalent fungal pathogen of humans. The current techniques used to construct C. albicans strains require integration of exogenous DNA at ectopic locations, which can exert position effects on gene expression that can confound the interpretation of data from critical experiments such as virulence assays. We have identified a large intergenic region, NEUT5L, which facilitates the integration and expression of ectopic genes. To construct and integrate inserts into this novel locus, we re-engineered yeast/bacterial shuttle vectors by incorporating 550 bp of homology to NEUT5L. These vectors allow rapid, facile cloning through in vivo recombination (gap repair) in Saccharomyces cerevisiae and efficient integration of the construct into the NEUT5L locus. Other useful features of these vectors include a choice of three selectable markers (URA3, the recyclable URA3-dpl200 or NAT1), and rare restriction enzyme recognition sites for releasing the insert from the ...
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