Search results for "Gliotoxin"

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Characterization of sulfhydryl oxidase from Aspergillus tubingensis

2017

Background Despite of the presence of sulfhydryl oxidases (SOXs) in the secretomes of industrially relevant organisms and their many potential applications, only few of these enzymes have been biochemically characterized. In addition, basic functions of most of the SOX enzymes reported so far are not fully understood. In particular, the physiological role of secreted fungal SOXs is unclear. Results The recently identified SOX from Aspergillus tubingensis (AtSOX) was produced, purified and characterized in the present work. AtSOX had a pH optimum of 6.5, and showed a good pH stability retaining more than 80% of the initial activity in a pH range 4-8.5 within 20 h. More than 70% of the initia…

0301 basic medicineentsyymitBOVINE-MILKThioredoxin reductaselcsh:Animal biochemistryBiochemistrySubstrate Specificitychemistry.chemical_compoundNonribosomal peptide synthesisEnzyme Stabilitylcsh:QD415-436DisulfidesDISULFIDE BONDSPeptide Synthaseschemistry.chemical_classificationbiologyGliotoxinChemistrynonribosomal peptide synthesisHydrogen-Ion ConcentrationGlutathioneFAMILYSOXSglutathione oxidationhomesienetAspergillusBiochemistrySENSITIVITYsecreted sulfhydryl oxidaseOxidoreductasesResearch ArticleDithiol oxidaseCofactorlcsh:Biochemistry03 medical and health sciencesNonribosomal peptideNATURAL-PRODUCTSoksidoreduktaasitBIOSYNTHESISlcsh:QP501-801Molecular Biologysecondary metabolismPURIFICATIONIDENTIFICATION030102 biochemistry & molecular biologyCXXC-MOTIFGlutathioneNIGERluonnonaineet030104 developmental biologyEnzymedithiol oxidasebiology.protein1182 Biochemistry cell and molecular biologyAspergillus tubingensisSecreted sulfhydryl oxidaseSecondary metabolismGlutathione oxidationCysteineBMC Biochemistry
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Rat CNS cell culture. Enhancement of neuronal survival and delay of glial proliferation by serum from patients with multiple sclerosis. A morphologic…

1984

The addition of serum from multiple sclerosis (MS) patients to the culture medium of dissociated cells from cerebral hemispheres of rat embryos caused a delay in glial proliferation and an enhancement of neuronal survival. Sera from normal individuals and patients with other neurological diseases failed to show this effect. These morphological observations are interpreted as the outcome of inhibition of in vitro gliogenesis.

Central Nervous Systemmedicine.medical_specialtyPathologyNeurologyMultiple SclerosisDermatologyBiologyGliotoxinmedicineAnimalsCells CulturedGliogenesisNeuronsGeneral NeuroscienceMultiple sclerosisEmbryoCell DifferentiationGeneral MedicineMycotoxinsmedicine.diseaseEmbryo MammalianIn vitroRatsPsychiatry and Mental healthCell cultureOrgan SpecificityImmunologyNeurology (clinical)NeurogliaItalian journal of neurological sciences
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