Project description:CDC Mycotic Diseases Branch Purpureocillium species sequencing

Project description:CDC Mycotic Diseases Branch Scedosporium species sequencing

Project description:CDC Mycotic Diseases Branch Sarocladium species sequencing

Project description:CDC Mycotic Diseases Branch Cadophora species sequencing

Project description:CDC Mycotic Diseases Branch AR Bank sequencing

Project description:CDC Mycotic Diseases Branch Candida auris pathogen surveillance

Project description:Illumina sequencing of Yarrowia lipolytica at the CDC Mycotic Diseases Branch

Project description:CDC Mycotics Diseases Branch Candidozyma auris pathogen surveillance

Project description:Mycotic leratitis is the corneal inflammation predominantly caused by Fusarium and Aspergillus species. Corneal epithelium is the earliest cell type encounter the invading pathogen. The innate immune responses of human corneal epithelial cells against Aspergillus flavus is not known. Here we studied the role of human corneal epithelial cells against Aspergillus flavus infection. The results showed that corneal epithelial cells internalized Aspergillus flavus conidia through actin mediated polymerization surrounding the conidia. Further the actin inhibitor cytochalasin D treatment reduced the formation actin ring around the conidia. The engulfed conidia acquired endosomal proteins as revealed by immunofluorescence analsyisis. Mass spectromtery of phagosomal proteins confirmed the recruitment of endosomal proteins and other proteins involved in phagocytosis. These results show the involvement of corneal epithelial cells in anti fungal defense.

Project description:In this study, we used dual RNA-sequencing to profile FHB-resistant AC Emerson, FHB-moderately AC Morley, and FHB-susceptible CDC Falcon winter wheat cultivars prior to and in response to Fusarium graminearum at 7 days post inoculation. Differential expression analyses revealed distinct defense responses between resistant and susceptible wheat cultivars including increased mechanical defense through lignin biosynthesis and increased deoxynivalenol (DON) detoxification through UDP-glycosyltransferase activity in resistant cultivars. Further, differential expression analysis in F. graminearum challenging these distinct cultivars revealed changes genes involved in trichothecene mycotoxin biosynthesis.