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Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and

Matched Description: an ATP hydrolysis and dehydrogenation reaction by the adenylyl-sulfate kinase. Phoaphoadenosine … phosphosulfate is finally dehydrogenated and converted to sulfite by phosphoadenosine phosphosulfate … reductase. This reaction requires magnesium, and adenosine 3',5'-diphosphate is the bi-product. A … conversion of sulfite to hydrogen sulfide through hygrogenation and the deoxygenation of sulfite to form a … water molecule. The reaction is catalyzed by the sulfite reductase [NADPH] flavoprotein alpha and