Protects drought-sensitive crops by closing stomata through the action of m-bis-BITC
Induction of callose-degrading enzyme expression by genome editing increases seed weight by more than 10%
Mucin secretion promotion for enhancement of intestinal epithelial barrier function by EPA metabolites produced by intestinal bacteria.
Cell membrane-derived vesicles of target bacteria can be used to develop activation products for specific enteric bacteria and antibacterial agents against biofilm-producing bacteria
Genome editing promotes proton pump-mediated stomatal opening to obtain high-yielding plants with enhanced photosynthetic activity and nutrient absorption in roots.
For acute kidney injury, inflammatory bowel disease, depressions, etc.
Monoclonal antibodies that selectively react with trichothecene mycotoxins DON (deoxynivalenol) and NIV (nivalenol), respectively.