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Matched Description: Escherichia coli can utilize the monosaccharide D-ribose as the sole source of carbon and energy … unphosphorylated beta-D-ribopyranose. Ribose pyranase converts between the furanose and pyranose forms of beta-D … -ribose. D-ribofuranose converts between the alpha and beta anomers quickly and spontaneously

Matched Description: Escherichia coli can utilize the monosaccharide D-ribose as the sole source of carbon and energy … unphosphorylated beta-D-ribopyranose. Ribose pyranase converts between the furanose and pyranose forms of beta-D … -ribose. D-ribofuranose converts between the alpha and beta anomers quickly and spontaneously

Matched Description: Escherichia coli can utilize the monosaccharide D-ribose as the sole source of carbon and energy … unphosphorylated beta-D-ribopyranose. Ribose pyranase converts between the furanose and pyranose forms of beta-D … -ribose. D-ribofuranose converts between the alpha and beta anomers quickly and spontaneously

Matched Description: Escherichia coli can utilize the monosaccharide D-ribose as the sole source of carbon and energy … unphosphorylated beta-D-ribopyranose. Ribose pyranase converts between the furanose and pyranose forms of beta-D … -ribose. D-ribofuranose converts between the alpha and beta anomers quickly and spontaneously

Matched Description: Escherichia coli can utilize the monosaccharide D-ribose as the sole source of carbon and energy … unphosphorylated beta-D-ribopyranose. Ribose pyranase converts between the furanose and pyranose forms of beta-D … -ribose. D-ribofuranose converts between the alpha and beta anomers quickly and spontaneously

Matched Description: Escherichia coli can utilize the monosaccharide D-ribose as the sole source of carbon and energy … unphosphorylated beta-D-ribopyranose. Ribose pyranase converts between the furanose and pyranose forms of beta-D … -ribose. D-ribofuranose converts between the alpha and beta anomers quickly and spontaneously

Matched Description: Escherichia coli can utilize the monosaccharide D-ribose as the sole source of carbon and energy … unphosphorylated beta-D-ribopyranose. Ribose pyranase converts between the furanose and pyranose forms of beta-D … -ribose. D-ribofuranose converts between the alpha and beta anomers quickly and spontaneously

Matched Description: Cytidine and uridine are transported through their corresponding nucleoside hydrogen symporters … . Once cytidine is incorporated into the cytosol, it is deaminated through a reaction with water and a … hydrogen ion through a cytidine deaminase resulting in the release of ammonium and uridine. Uridine … and an alpha-D-ribose-1-phosphate. This compound is then transformed into an isomer D-ribose 5

Matched Description: Lysophosphatidic acid (LPA) is a water-soluble phospholipid derivative and a potent signalling … , proliferation, migration, and differentiation, vascular regulation, and cytokine release. Due to LPA's … . LPC, LPE, LPS) into LPA via autotaxin (ATX/Enpp2) and (2) the conversion of phosphatidic acid (PA … results in the dissociation of a Gα-GTP monomer and a Gβγ dimer from the receptor which allows both … , and myelination. This receptor can couple with the G proteins Gαi/o, Gαq/11, and Gα12/13. The Gαi/o

Matched Description: Lysophosphatidic acid (LPA) is a water-soluble phospholipid derivative and a potent signalling … , proliferation, migration, and differentiation, vascular regulation, and cytokine release. Due to LPA's … . LPC, LPE, LPS) into LPA via autotaxin (ATX/Enpp2) and (2) the conversion of phosphatidic acid (PA … results in the dissociation of a Gα-GTP monomer and a Gβγ dimer from the receptor which allows both … , and myelination. This receptor can couple with the G proteins Gαi/o, Gαq/11, and Gα12/13. The Gαi/o