Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:1.10.3.2 (
laccase
)
4,656
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Laccase is a major virulence factor required for infection caused by the human pathogenic yeast Cryptococcus neoformans. However, cellular processes involved in the regulation and expression of
laccase
remain largely unknown in C. neoformans. Here we report the identification of a chloride channel gene CLC-A which is essential for
laccase
activity in C. neoformans. CLC-A shares homology to CLC-type voltage-gated chloride channels from other organisms; for example, 63% homology to
GEF1
, a chloride channel gene from Saccharomyces cerevisiae. A clc-a mutant, Mlac3, generated by insertional mutagenesis as well as a targeted Deltaclc-a mutant produced undetectable
laccase
in a liquid assay and produced no melanin on asparagine agar containing norepinephrine. Mlac3 was complemented with wild-type CLC-A which restored
laccase
activity and melanin biosynthesis. The clc-a mutants also showed reduced synthesis of another important virulence factor, capsule, and showed reduced growth at elevated pH. In addition, the clc-a mutation resulted in attenuated virulence in a mouse cryptococcosis model that was restored by complementation with wild-type CLC-A, indicating that the chloride channel plays an important role in the virulence of the organism. Further analysis revealed that the basis for absent
laccase
expression in the clc-a mutant was a
laccase
transcriptional defect that could be restored by adding exogenous copper. In conclusion, our findings show that CLC-A plays a role in the expression of two important virulence factors, capsule and
laccase
expression, which are required for virulence of the fungal pathogen.
...
PMID:A CLC-type chloride channel gene is required for laccase activity and virulence in Cryptococcus neoformans. 1462 14
CLC-type voltage-gated chloride channels are a family of proteins which mediate chloride transport across the plasma and intracellular membranes. A clc1 gene from the vascular wilt fungus Fusarium oxysporum was characterized and disrupted. The predicted Clc1 protein contained highly conserved transmembrane and CBS domains of this protein family and showed significant identities to the Saccharomyces cerevisiae
GEF1
and the Cryptococcus neoformans CLC-A chloride channels. Inactivation of clc1 caused a deficiency in
laccase
activity which was more severe than that found in any of the structural
laccase
mutants previously described. The addition of copper sulphate to the growth medium resulted in total recovery of extracellular
laccase
activity in Deltaclc1 mutants, although it did not activate transcription of any
laccase
genes. The pleiotropic phenotype displayed by the Fusarium chloride channel-deficient mutants included a significant delay in the development of disease on tomato plants, with a higher sensitivity to oxidative stress compounds as well as a significant decrease in
laccase
activity, thus suggesting a possible connection between virulence and the two processes. Nevertheless, we cannot rule out that additional phenotypes present in the Deltaclc1 mutants could play an essential role in the full virulence of Fusarium.
...
PMID:Influence of the chloride channel of Fusarium oxysporum on extracellular laccase activity and virulence on tomato plants. 1845 Oct 56
