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Matched Description: (S)-lactaldehyde is derived from degradation of L-fucose and rhamnose. (S)-lactaldehyde is … dehydrogenates lactic acid to pyruvic acid for the pathway of glycolysis and pyruvate dehydrogenase.

Matched Description: (S)-lactaldehyde is derived from degradation of L-fucose and rhamnose. (S)-lactaldehyde is … dehydrogenates lactic acid to pyruvic acid for the pathway of glycolysis and pyruvate dehydrogenase.

Matched Description: (S)-lactaldehyde is derived from degradation of L-fucose and rhamnose. (S)-lactaldehyde is … dehydrogenates lactic acid to pyruvic acid for the pathway of glycolysis and pyruvate dehydrogenase.

Matched Description: In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low … phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.

Matched Description: In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low … phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.

Matched Description: In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low … phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.

Matched Description: In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low … phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.

Matched Description: In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low … phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.

Matched Description: In E.coli, trehalose can be only synthesized with high osmolarity, and if the osmolarity is low … phosphorylate free gluocose into glucose-6-phosphate and both glucose-6-phosphate moieties enter glycolysis.

Matched Description: source of acetyl-CoA. Pyruvate dehydrogenase E1 and dihydrolipoyllysine-residue acetyltransferase … catalyzes pyruvic acid to acetyl-CoA and CO2. Acetyl-CoA is required for the TCA cycle. Lipoamide dehydrogenase reduces NAD+ to NADH.