3.13.1.1	UDP-alpha-D-sulfoquinovopyranose + H2O = UDP-alpha-D-glucose + sulfite	a decrease in the internal phosphate concentration shows a corresponding increase in the relative amount of sulfolipid with UDP-sulfoquinovose as precursor	393363	
3.13.1.1	UDP-alpha-D-sulfoquinovopyranose + H2O = UDP-alpha-D-glucose + sulfite	contains characteristic conserved Y-XXX-K and glycine-rich sequence patterns	393362	
3.13.1.1	UDP-alpha-D-sulfoquinovopyranose + H2O = UDP-alpha-D-glucose + sulfite	required NAD+ appears to oxidize the substrate to UDP-4-dehydroglucose, which dehydrates to UDP-4-dehydro-6-deoxygluc-5-enose, to which sulfite can add, the reaction is completed when the substrate is rehydrogenated at C-4	649481	
3.13.1.1	UDP-alpha-D-sulfoquinovopyranose + H2O = UDP-alpha-D-glucose + sulfite	requires NAD+, which appears to oxidize the substrate to UDP-4-dehydroglucose, which dehydrates to UDP-4-dehydro-6-deoxygluc-5-enose, to which sufite can add. The reaction is completed when the substrate is rehydrogenated at C-4. The enzyme from Arabidopsis thaliana is specific for UDP-Glc and sulfite	-	
3.13.1.1	UDP-alpha-D-sulfoquinovopyranose + H2O = UDP-alpha-D-glucose + sulfite	sequence similarity to sugar nucleotide modifying enzymes, Thr228 seems to be catalytically important	393364	
3.13.1.1	UDP-alpha-D-sulfoquinovopyranose + H2O = UDP-alpha-D-glucose + sulfite	short-chain dehydrogenase/reductase family	393362, 393364