Potential inhibitors of tyrosine hydroxylase and dopamine-β-hydroxylase

## O-O activation / C-H activation The three-dimensional aspects of the chemistry of dopamine β-hydroxylase (DBH) was studied through a conformationally-restricted substrate analog approach. We found that the DBH-catalyzed hydroxylation of 2-aminoindane (1) exclusively produced the trans-(1S,2S)-2-

A role for central norepinephrine is implicated in functional recovery after experimental brain injury. In this study, imunohistochemistry was used to examine tyrosine hydroxylase and dopamine-B-hydroxylase, enzymes involved in norepinephrine biosynthesis, in the locus coeruleus after lateral fluid

A simple, rapid, and highly sensitive radiochemical assay for measuring the activity of dopamine+hydroxylase in tissues and serum is described. Enzyme activity is detected by converting [l-'"Cltyramine to [l-"Cloctopamine which is then subjected to periodate cleavage to form ["Clformamide. This radi

Dopamine has been implicated as a potential mediating factor in a variety of neurodegenerative disorders. Dopamine can be oxidized to form a reactive dopamine quinone that can covalently modify cellular macromolecules including protein and DNA. This oxidation can be enhanced through various enzymes