Research
Organisms can be described by dimensions used in physics, and they live within physics laws. Conversely, organisms use various physical quantities well. These quantities are, for example, electromagnetic waves including light, heat, pressure, an electric field, a magnetic field, time, and so forth. In our study, we pay strong attention to these physical quantities, and first we attempt to measure them exactly. On the other hand, it is easy to understand that development of biology depends on the development of assay systems. For example, the invention of PCR method by Kary Mullis has encouraged the expansion of biology. We thus attach importance to physical quantities, develop assays, and clarify various biological phenomenon mechanisms.
- Ultra sensitive ELISA
- Ultra sensitive ELISA for dengue fever virus
- Non-amplification nucleic acid detection method
- Measuring human brain activity using NIRS,
a non-invasive instrument - Learning and memory mechanisms in mollusks
- Free nerve endings and the transmission mechanism of pain
- Angiogenic effects of GRP78 in exosomes derived from cancer cells
- Tolerance for UV stress in human epidermal keratinocytes
- Regulatory mechanism of functional differentiation of immune cells
- Graduation theses