Knowledge
Sensing chemical-induced DNA damage using CRISPR/Cas9-mediated gene-deletion yeast-reporter strains
This research developed yeast reporter strains with gene deletions via CRISPR/Cas9 to detect chemical-induced DNA damage creating sensitive tools for genotoxicity testing.
Sensing chemical-induced DNA damage using CRISPR/Cas9-mediated gene-deletion yeast-reporter strains
This research developed yeast reporter strains with gene deletions via CRISPR/Cas9 to detect chemical-induced DNA damage creating sensitive tools for genotoxicity testing.
Impact of inter-species hybridisation on antifungal drug response in the Saccharomyces genus
The study examines how hybridisation between Saccharomyces species changes their responses to antifungal drugs revealing genetic factors that modulate sensitivity.
Impact of inter-species hybridisation on antifungal drug response in the Saccharomyces genus
The study examines how hybridisation between Saccharomyces species changes their responses to antifungal drugs revealing genetic factors that modulate sensitivity.
Mechanisms regulating the intracellular trafficking and release of CLN5 and CTSD
Investigators dissected how the proteins CLN5 and CTSD are trafficked inside cells and how they are released contributing to understanding of lysosomal pathways.
Mechanisms regulating the intracellular trafficking and release of CLN5 and CTSD
Investigators dissected how the proteins CLN5 and CTSD are trafficked inside cells and how they are released contributing to understanding of lysosomal pathways.
Transplanting human infant gut microbiome species into Galleria mellonella
Researchers showed that non-pathogenic fungi can compete with Candida species reducing disease severity and hinting at probiotic therapies for fungal infections.
Transplanting human infant gut microbiome species into Galleria mellonella
Researchers showed that non-pathogenic fungi can compete with Candida species reducing disease severity and hinting at probiotic therapies for fungal infections.
Competitive fungal commensalism mitigates candidiasis pathology
Researchers showed that non-pathogenic fungi can compete with Candida species reducing disease severity and hinting at probiotic therapies for fungal infections.
Competitive fungal commensalism mitigates candidiasis pathology
Researchers showed that non-pathogenic fungi can compete with Candida species reducing disease severity and hinting at probiotic therapies for fungal infections.
Komagataella phaffii Erp41 is a protein disulfide isomerase with unprecedented disulfide bond cat...
This study transplanted bacteria from human infant guts into wax moth larvae to model host–microbe interactions in a simple invertebrate system.
Komagataella phaffii Erp41 is a protein disulfide isomerase with unprecedented disulfide bond cat...
This study transplanted bacteria from human infant guts into wax moth larvae to model host–microbe interactions in a simple invertebrate system.
