the enzyme metabolizes taurine as a sulfur source for sulfur-starved cells. TauD activates taurine via hydrogen atom transfer to an Fe(IV)=O intermediate
the enzyme metabolizes taurine as a sulfur source for sulfur-starved cells. TauD activates taurine via hydrogen atom transfer to an Fe(IV)=O intermediate
development of a colorimetric assay method, based on the measurement of sulfite using Ellman's reagent, i.e. 2.5 mM 5,5'-dithiobis(2-nitrobenzoic acid), for determination of taurine in commercially available beverages and some biological samples, overview
metal-to-ligand charge-transfer transition involving the 2-oxoglutarate ligand with a six-coordinate metal center. Taurine does not coordinate the Fe(II) ion, but binds in its close vicinity, leading to loss of the coordinating water molecule. This change of the six-coordinate to five-coordinate Fe(II) center causes a small perturbation of the absorption spectrum
metal-to-ligand charge-transfer transition involving the 2-oxoglutarate ligand with a six-coordinate metal center. Taurine does not coordinate the Fe(II) ion, but binds in its close vicinity, leading to loss of the coordinating water molecule. This change of the six-coordinate to five-coordinate Fe(II) center causes a small perturbation of the absorption spectrum
metal-to-ligand charge-transfer transition involving the 2-oxoglutarate ligand with a six-coordinate metal center. Taurine does not coordinate the Fe(II) ion, but binds in its close vicinity, leading to loss of the coordinating water molecule. This change of the six-coordinate to five-coordinate Fe(II) center causes a small perturbation of the absorption spectrum