This pathway illustrates the conversion of sulfite to sulfate (via sulfate oxidase) and subsequent generation of adenylylsulfate (APS) via 3'-phosphoadenosine 5'-phosphosulfate synthase 2. APS is converted to phosphoadenylyl-sulfate (PAPS) via adenylylsulfate kinase. APS can also be regenerated from PAPS by 3'(2'), 5'-bisphosphate nucleotidase 1. PAPS is eventually converted to adenosine bisophosphate (PAP) through the action of several different enzymes including aryl sulfotransferase, chondroitin 4-sulfotransferase 13 and estrone sulfotransferase. The metabolism pathway in question is important for many reasons. Recall, that the sulfite ion is in fact the conjugate base of sulfurous acid. Moreover, this ion is found naturally in one of the worlds most popular beverages, wines. Beyond its natural occurence, sulfite ion had the property of stopping fermentation. As such, the addition of it to products such as wine can be used either as a preservative or to stop the fermentation process at a moment which is of interest. Finally, this preservation property goes beyond merely wines, and finds utility in dried fruits, potatoes, etc.

Sulfate/Sulfite Metabolism References