12Antibody uptake in small intes-tinal villi.Transmission electron micro-scopic image of small intestinal epithelial cellsTransmission electron microscopic image of indigenous bacte-ria in the intestinal chymeFollicle-associated intestinal crypt with a peculiar cellular compositionFor the purpose of understanding the processes underlying the formation of animal cell and tissue and the complex life phe-nomena caused by them, this laboratory promotes the research on various biological defense mechanisms especially in the animal digestive system. In addition, taking advantage of the research outputs, this laboratory provides education related to animal histology and physiology.HistophysiologyElectron microscopic image of Ibaraki virus particlesScanning electron microscope image of Mycoplasma hyopneumoniaeDifferentiation induc-tion of mouse embryo-nal carcinoma cells (P19C6 cells) to neuronEven now in 21st century, we-human beings, still fight against various infectious diseases with great effort. By adopting molec-ular biology approaches, the research and education of our laboratory address issues related to human and animal patho-gens, specifically focusing on three key questions: “What are the current problems related to infectious diseases?” , “What caused these problems?” and “What should we do to overcome them?”.Microbiology and ImmunologyResearch in this laboratory focuses on improving economically important traits and evaluating and maintaining genetic diversi-ties of livestock by the methods based on population and statis-tical genetics. The laboratory also promotes farm-oriented research, such as studies on feeding and management of Japa-nese Black ( “Wagyu” ) cattle.Animal Genetic ResourcesFeeding experiment on cattleImproved Japanese Black cattleImmunofluorescence microscopy of cultured human cellsDetection of proteinsFluorescence microscopy of fission yeastThis laboratory explores the life phenomena at the molecular and cellular level. Using fission yeast and mammalian cells as models, the researchers investigate the regulation mechanisms of cell functions in response to extracellular stimuli, such as physiologically active substances, stresses, and nutritional changes through the intracellular signal transduction pathways.Cell Signalingヒト培養細胞分裂酵母分裂酵母ヒト培養細胞
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