AUTHOR: Biomed Mom TITLE: B vitamins and phenol reactions DATE: 5/18/2007 09:12:00 AM ----- BODY:

Biochem Pharmacol 1994 Jun 1;47(11):2087-95

Inhibition of phenol sulfotransferase by pyridoxal phosphate.

Bartzatt R, Beckmann JD.

Department of Internal Medicine, University of Nebraska Medical Center, Omaha 68198-5300.

The biologically abundant cofactor, pyridoxal-5-phosphate (PLP), is a potent inhibitor of bovine phenol (aryl) sulfotransferase (PST). Preincubation of purified enzyme with as little as 1 microM PLP decreased PST activity by 50%. Excess 2-naphthol protected PST from inactivation by PLP, whereas 2-naphthyl sulfate and PAPS were not protective. Although PLP inhibition was apparently competitive with 2-naphthol, a steady-state kinetic Ki value could not be measured due to non-linear Lineweaver-Burk plots in the presence of the inhibitor. Kinetic progress curves revealed that this was due to progressive loss of activity during catalysis. The kinetics of inactivation of PST by PLP were pseudo-first-order and exhibited saturation. The derived KI value for the binding of PLP to PST in the initial reversible step was 23 microM, with a maximal rate of inactivation of 0.077 min(-1). Absorbance spectra of the PST/PLP complex indicated the formation of a Schiff base conjugate, and this is consistent with decreased electrophoretic mobility of the protein-PLP adduct in the presence of dodecyl sulfate only after reduction with borohydride. These results point to the possible regulation of an important detoxification enzyme by a ubiquitous cofactor.

Labels: B vitamins, phenols, PST

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Adopt Biomed

This blog gathers information about biomedical interventions for children with adoption trauma and Reactive Attachment Disorder. Posts are gathered from multiple websites in one place. Most posts contain unedited text relating to biomedical treatment, dietary changes, vitamins, homeopathy, herbs, etc. Where possible, the link to the original information is included.

Friday, May 18, 2007

B vitamins and phenol reactions

Biochem Pharmacol 1994 Jun 1;47(11):2087-95

Inhibition of phenol sulfotransferase by pyridoxal phosphate.

Bartzatt R, Beckmann JD.

Department of Internal Medicine, University of Nebraska Medical Center, Omaha 68198-5300.

The biologically abundant cofactor, pyridoxal-5-phosphate (PLP), is a potent inhibitor of bovine phenol (aryl) sulfotransferase (PST). Preincubation of purified enzyme with as little as 1 microM PLP decreased PST activity by 50%. Excess 2-naphthol protected PST from inactivation by PLP, whereas 2-naphthyl sulfate and PAPS were not protective. Although PLP inhibition was apparently competitive with 2-naphthol, a steady-state kinetic Ki value could not be measured due to non-linear Lineweaver-Burk plots in the presence of the inhibitor. Kinetic progress curves revealed that this was due to progressive loss of activity during catalysis. The kinetics of inactivation of PST by PLP were pseudo-first-order and exhibited saturation. The derived KI value for the binding of PLP to PST in the initial reversible step was 23 microM, with a maximal rate of inactivation of 0.077 min(-1). Absorbance spectra of the PST/PLP complex indicated the formation of a Schiff base conjugate, and this is consistent with decreased electrophoretic mobility of the protein-PLP adduct in the presence of dodecyl sulfate only after reduction with borohydride. These results point to the possible regulation of an important detoxification enzyme by a ubiquitous cofactor.

Labels: B vitamins, phenols, PST

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