Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.10.3.2 (laccase)
 4,656 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gene lac-1, encoding the enzyme laccase, is one of several genes of the chestnut blight fungus, Cryphonectria parasitica, that are suppressed by virulence-attenuating mycoviruses of the hypovirus group. Two antagonistic regulatory pathways have been shown to govern the activity of the lac-1 promoter: a positive pathway that stimulates transcription and a negative pathway that represses transcription. We now report that these two regulatory pathways respond independently to specific changes in the nutritional environment. These newly defined conditions were used to confirm that a hypovirus suppresses the activity of the positive regulatory pathway, and to implicate calmodulin and calcineurin as components of the signal transduction cascades regulating lac-1 transcription. Significantly, lac-1 transcript accumulation was shown to be affected by amino acid availability. Further analysis revealed that transcriptional repression mediated by the negative regulatory pathway is relieved under conditions of amino acid deprivation. Thus, by blocking the positive pathway, hypovirus infection prevents increased lac-1 transcript accumulation in response to amino acid deficiency. These observations are consistent with the hypothesis that hypoviruses alter the transcriptional response of the host fungus to changes in nutrient availability.
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PMID:Altered transcriptional response to nutrient availability in hypovirus-infected chestnut blight fungus. 798 58

Antisense repression was used as a method to alter gene function in the human-pathogenic fungus Cryptococcus neoformans. The calcineurin A gene (CNA1) and the laccase gene (LAC1) were targeted since disruption of these loci results in phenotypes that are easy to screen (temperature sensitivity and lack of melanin, respectively). Serotype D yeasts were transformed with a plasmid containing the CNA1 cDNA in an antisense orientation under the control of the inducible GAL7 promoter, and serotype A yeasts were transformed with a plasmid containing the LAC1 cDNA in an antisense orientation under the control of the constitutive actin promoter. The calcineurin transformants demonstrated a temperature-sensitive phenotype only when grown on galactose, and the laccase transformants had decreased melanin production. Northern blot analysis of the calcineurin antisense transformants confirmed that the inducible phenotype was associated with a decrease in the native CNA1 transcript levels. Furthermore, it was possible to modestly impair growth of C. neoformans at 37 degrees C by using a 30 bp antisense oligonucleotide targeting CNA1. Antisense repression is now available as a tool for molecular studies in this organism, and may be applicable to other human-pathogenic fungi that have less amenable genetic systems.
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PMID:Antisense repression in Cryptococcus neoformans as a laboratory tool and potential antifungal strategy. 1178 13

Sexual reproduction in fungal pathogens such as Cryptococcus provides natural selection and adaptation of the organisms to environmental conditions by allowing beneficial mutations to spread. However, successful mating in these fungi requires a time-critical induction of signaling pheromones when appropriate partners become available. Recently, it has been shown that the fungus uses the transcriptional equivalent of the racing technique: 'popping the clutch'-pushing in the clutch pedal, putting the car in gear, revving with the gas pedal, and then dropping the clutch pedal to accelerate rapidly. In the same way, Cryptococcus during vegetative growth constitutively matches a high rate of pheromone synthesis with a high rate of degradation to produce repressed levels of transcript. Then, when mating is required, the fungus drops the degradative machinery, resulting in a rapid induction of the pheromone. Pairing with this novel regulatory cycle is a host of mitogen-activated protein kinase cascades, cyclic AMP-dependent, and calcium-calcineurin signaling pathways that maintain these high rates of pheromone synthesis and prime downstream pathways for an effective mating response. The intersection of a number of virulence-associated traits with sexual development such as the synthesis of an immune-disruptive laccase as well as a protective polysaccharide capsule makes these rapid regulatory strategies a formidable foe in the battle against human disease.
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PMID:'Popping the clutch': novel mechanisms regulating sexual development in Cryptococcus neoformans. 2191 54