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oxidative biotransformation

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By Targets:	Biochemical Assay Reagents (1) Bradykinin Receptor (1) Caspase (2) Small Interfering RNA (siRNA) (2)
By Research Areas:	Cardiovascular Disease (2) Inflammation/Immunology (1) Metabolic Disease (1)

Targets Recommended: Oxidative Phosphorylation

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

Hydroxydehydro Nifedipine Carboxylate	Others	Others
Hydroxydehydro Nifedipine Carboxylate is an inactive metabolite formed by the oxidative biotransformation of Nifedipine (HY-B0284) in the human body .

Cosdosiran QPI-1007	Small Interfering RNA (siRNA) Caspase	Cardiovascular Disease
Cosdosiran is a chemically modified siRNA designed to temporarily inhibit expression of the caspase 2 protein and can be used for the study of nonarteritic anterior ischemic optic neuropathy and other optic neuropathies such as glaucoma that result in the death of retinal ganglion cells.?

Cosdosiran sodium QPI-1007 sodium	Small Interfering RNA (siRNA) Caspase	Cardiovascular Disease
Cosdosiran sodium is a chemically modified siRNA designed to temporarily inhibit expression of the caspase 2 protein and can be used for the study of nonarteritic anterior ischemic optic neuropathy and other optic neuropathies such as glaucoma that result in the death of retinal ganglion cells.?

IgdE protease	Biochemical Assay Reagents	Inflammation/Immunology
IgdE protease is a cysteine protease, which is initially isolated from Streptococcus agalactiae. IgdE protease digests monoclonal antibodies (mAbs) of the IgG1 type specifically at their upper hinge region, produces Fc/2, hinge peptide dimers, and Fab fragment. IgdE protease can be used in disulfide bonds and free thiol analysis, as it requires no reducing agents for cleavage .

MK 0686	Bradykinin Receptor	Metabolic Disease
MK 0686, a potent bradykinin B1 receptor antagonist, demonstrates autoinduction of metabolism in rhesus monkeys after oral administration. It undergoes significant biotransformation primarily via oxidation pathways, leading to the formation of metabolites like M11 and M13 in rhesus liver microsomes. This metabolic induction is mediated by CYP2C75, as evidenced by increased mRNA expression, protein levels, and catalytic activity of this enzyme in hepatocytes and liver microsomes from MK 0686-treated animals. The autoinduction phenomenon suggests that MK 0686 enhances its own metabolism by upregulating CYP2C75, potentially influencing its systemic exposure and pharmacokinetics over time .

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