Bioassay based on the luminescent bacteria was used as a new method for the determination of the kinetic constants of ligand binding to the complexion agent. Miramistin as the cationic surface-active antiseptic and se...Bioassay based on the luminescent bacteria was used as a new method for the determination of the kinetic constants of ligand binding to the complexion agent. Miramistin as the cationic surface-active antiseptic and serum blood albumin was taken as a model of interacting agent’s. It was concluded that this approach might have a wide range for applications, namely, in all cases where the ligand is an inhibitor of bacterial luminescence and its complex dose not effect the intensity of this process.展开更多
CoCl2 introduction increased cathepsin G activity in the heart and liver as well as endothelial elastase (EEl) in kidney that indicated the development of destructive processes. CoCl2 introduction decreased EEl and ca...CoCl2 introduction increased cathepsin G activity in the heart and liver as well as endothelial elastase (EEl) in kidney that indicated the development of destructive processes. CoCl2 introduction decreased EEl and cathepsin G activities in blood serum and cathepsin G in lungs. HgCl2 injection decreased EEl in blood serum, heart, liver, kidney and cathepsin G in blood serum. These decreasing of proteinases activities may be caused by cytotoxic effects of heavy metals and/or the inclusion of these proteases in the destructive processes and absence of their synthesis and/or release.展开更多
文摘Bioassay based on the luminescent bacteria was used as a new method for the determination of the kinetic constants of ligand binding to the complexion agent. Miramistin as the cationic surface-active antiseptic and serum blood albumin was taken as a model of interacting agent’s. It was concluded that this approach might have a wide range for applications, namely, in all cases where the ligand is an inhibitor of bacterial luminescence and its complex dose not effect the intensity of this process.
文摘CoCl2 introduction increased cathepsin G activity in the heart and liver as well as endothelial elastase (EEl) in kidney that indicated the development of destructive processes. CoCl2 introduction decreased EEl and cathepsin G activities in blood serum and cathepsin G in lungs. HgCl2 injection decreased EEl in blood serum, heart, liver, kidney and cathepsin G in blood serum. These decreasing of proteinases activities may be caused by cytotoxic effects of heavy metals and/or the inclusion of these proteases in the destructive processes and absence of their synthesis and/or release.
