. Biochemistry of plants and animals, an introduction. Biochemistry. H OH glucose-l- phosphate galactosephosphate epimerase DPN + H H annose-6-phosphate phosphatase > f D-m annose HOCH., HO O. H. phosphatase D-galactose OPO3- H OH galactose-1-phosphate FIGURE 9-5. The formation of four hexoses as known in 1959. The reverse of these processes is presented in Figure 7-1. A requirement for DPN+ has been demonstrated in the galactosephosphate epimerase step, but the role played is un- known. Apparently the DPN+ is not functioning in its normal role of hydrogen- electron Please note t
. Biochemistry of plants and animals, an introduction. Biochemistry. H OH glucose-l- phosphate galactosephosphate epimerase DPN + H H annose-6-phosphate phosphatase > f D-m annose HOCH., HO O. H. phosphatase D-galactose OPO3- H OH galactose-1-phosphate FIGURE 9-5. The formation of four hexoses as known in 1959. The reverse of these processes is presented in Figure 7-1. A requirement for DPN+ has been demonstrated in the galactosephosphate epimerase step, but the role played is un- known. Apparently the DPN+ is not functioning in its normal role of hydrogen- electron Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Mallette, M. Frank (Manney Frank), 1917-. New York, Wiley
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