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A novel in vitro model of the small intestinal epithelium in co-culture with "gut-like" dendritic cells. (2023)
Journal Article
JOHNSTON, L.J., BARNINGHAM, L., CAMPBELL, E.L., CEROVIC, V., DUCKWORTH, C.A., LUU, L., WASTLING, J., DERRICOTT, H. and COOMBES, J.L. 2023. A novel in vitro model of the small intestinal epithelium in co-culture with "gut-like" dendritic cells. Discovery immunology [online], 2(1), article number kyad018. Available from: https://doi.org/10.1093/discim/kyad018

Cross-talk between dendritic cells (DCs) and the intestinal epithelium is important in the decision to mount a protective immune response to a pathogen or to regulate potentially damaging responses to food antigens and the microbiota. Failures in thi... Read More about A novel in vitro model of the small intestinal epithelium in co-culture with "gut-like" dendritic cells..

Specific pathway abundances in the neonatal calf faecal microbiome are associated with susceptibility to Cryptosporidium parvum infection: a metagenomic analysis. (2023)
Journal Article
HARES, M.F., GRIFFITHS, B.E., JOHNSON, F., NELSON, C., HALDENBY, S., STEWART, C.J. and DUNCAN, J.S. 2023. Specific pathway abundances in the neonatal calf faecal microbiome are associated with susceptibility to Cryptosporidium parvum infection: a metagenomic analysis. Animal microbiome [online], 5, article number 43. Available from: https://doi.org/10.1186/s42523-023-00265-5

Cryptosporidium parvum is the main cause of calf scour worldwide. With limited therapeutic options and research compared to other Apicomplexa, it is important to understand the parasites' biology and interactions with the host and microbiome in order... Read More about Specific pathway abundances in the neonatal calf faecal microbiome are associated with susceptibility to Cryptosporidium parvum infection: a metagenomic analysis..