Phic structure of the mannitol 2-dehydrogenase NADP+ binary complex from Agaricus

Phic structure with the mannitol 2-dehydrogenase NADP+ binary complicated from Agaricus bisporus. The Journal of Biological Chemistry 276: 27555 27561. 3. Lee JK, Koo BS, Kim SY, Hyun HH Purification and characterization of a novel mannitol dehydrogenase from a newly isolated strain of Candida magnoliae. Applied and Environmental Microbiology 69: 44384447. 4. Stoop JMH, Williamson JD, Pharr DM Mannitol metabolism in plants: a method for coping with pressure. Trends in Plant Science 1: 139144. five. Yamaguchi T, Ikawa T, Nisizawa K Pathway of mannitol formation throughout photosynthesis in brown algae. Plant and Cell Physiology ten: 425440. 6. Iwamoto K, Kawanobe H, Ikawa T, Shiraiwa Y Characterization of saltregulated mannitol-1-phosphate dehydrogenase inside the red alga Caloglossa continua. Plant Physiology 133: 893900. 7. Delavault P, Simier P, Thoiron S, Veronesi C, Fer A, et al. Isolation of mannose 6-phosphate reductase cDNA, alterations in enzyme activity and mannitol content in broomrape parasitic on tomato roots. Physiologia Plantarum 115: 4855. eight. Bidwell RGS, Craigie JS, Krotkov G Photosynthesis and metabolism in marine algae. III. Distribution of photosynthetic carbon from C14O2 in Rucus vesiculosus. Canad J Bot 36: 581590. 9. Ji MH, Pu SZ, Ji XL Research around the initial merchandise of 14C metabolism in Laminaria japonica. Chinese Journal of Oceanology and Limnology 11: 229240. 10. Yamaguchi T, Ikawa T, Nisizawa K Incorporation of radioactive carbon from H14CO3 into sugar constituents by a brown alga, Eisenia bicyclis, throughout photosynthesis and its fate within the dark. Plant and Cell Physiology 7: 217229. 11. Rumpho ME, Edwards GE, Loescher WH A pathway for photosynthetic carbon flow to mannitol in celery leaves: activity and localization of essential enzymes. Plant Physiol 73: 869873. 12. Iwamoto K, Shiraiwa Y Salt-regulated mannitol metabolism in algae. Mar Biotechnol 7: 407415. 13. Kulkarni RK Mannitol metabolism in Lentinus edodes, the shiitake mushroom. Appl Environ Microbiol 56: 250253. 14. Moulin P, Cre pineau F, Kloareg B, Boyen C Isolation and characterization of six cDNAs involved in carbon metabolism in Laminaria digitata. J order Eliglustat Phycol 35: 12371245. 15. Cock JM, Sterck L, Rouze P, Scornet D, Allen AE, et al. The Ectocarpus genome and the independent evolution of multicellularity in the brown algae. Nature 465: 617621. 16. Michel G, Tonon T, Scornet D, Cock JM, Kloareg B Central and storage carbon metabolism in the brown alga Ectocarpus siliculosus: insights in to the origin and evolution of storage carbohydrates in Eukaryotes. New Phytologist 188: 67 81. 17. Gravot A, Dittami SM, Rousvoal S, Lugan R, Eggert A, et al. Diurnal oscillations of metabolite abundances and genome evaluation supply new insights into central metabolic processes of your brown alga Ectocarpus siliculosus. New Phytologist 188: 98110. 18. Rousvoal S, Groisillier A, Dittami SM, Michel G, Boyen C, et al. Mannitol-1-phosphate dehydrogenase activity in Ectocarpus siliculosus, a key role for mannitol synthesis in brown algae. Planta 233: 261273. 9 Mannitol-2-Dehydrogenase in Saccharina japonica 19. Groisillier A, Shao ZR, Michel G, Goulitquer S, Bonin P, et al. Mannitol metabolism in brown algae includes a new phosphatase family members. Journal of Experimental Botany 65: 559570. 20. Soetaert 10781694 W, Buchholz K, Vandamme EJ Production of D-mannitol and D-lactic acid by fermentation with Leuconostoc mesenteroides. Agro Meals Ind Hi Tech 6: 4144. 21. Saha BC, Racine FM Biotechnological production of mannitol.Phic structure from the mannitol 2-dehydrogenase NADP+ binary complex from Agaricus bisporus. The Journal of Biological Chemistry 276: 27555 27561. three. Lee JK, Koo BS, Kim SY, Hyun HH Purification and characterization of a novel mannitol dehydrogenase from a newly isolated strain of Candida magnoliae. Applied and Environmental Microbiology 69: 44384447. four. Stoop JMH, Williamson JD, Pharr DM Mannitol metabolism in plants: a process for coping with strain. Trends in Plant Science 1: 139144. five. Yamaguchi T, Ikawa T, Nisizawa K Pathway of mannitol formation in the get Bexagliflozin course of photosynthesis in brown algae. Plant and Cell Physiology ten: 425440. six. Iwamoto K, Kawanobe H, Ikawa T, Shiraiwa Y Characterization of saltregulated mannitol-1-phosphate dehydrogenase in the red alga Caloglossa continua. Plant Physiology 133: 893900. 7. Delavault P, Simier P, Thoiron S, Veronesi C, Fer A, et al. Isolation of mannose 6-phosphate reductase cDNA, adjustments in enzyme activity and mannitol content in broomrape parasitic on tomato roots. Physiologia Plantarum 115: 4855. eight. Bidwell RGS, Craigie JS, Krotkov G Photosynthesis and metabolism in marine algae. III. Distribution of photosynthetic carbon from C14O2 in Rucus vesiculosus. Canad J Bot 36: 581590. 9. Ji MH, Pu SZ, Ji XL Research around the initial merchandise of 14C metabolism in Laminaria japonica. Chinese Journal of Oceanology and Limnology 11: 229240. 10. Yamaguchi T, Ikawa T, Nisizawa K Incorporation of radioactive carbon from H14CO3 into sugar constituents by a brown alga, Eisenia bicyclis, in the course of photosynthesis and its fate within the dark. Plant and Cell Physiology 7: 217229. 11. Rumpho ME, Edwards GE, Loescher WH A pathway for photosynthetic carbon flow to mannitol in celery leaves: activity and localization of key enzymes. Plant Physiol 73: 869873. 12. Iwamoto K, Shiraiwa Y Salt-regulated mannitol metabolism in algae. Mar Biotechnol 7: 407415. 13. Kulkarni RK Mannitol metabolism in Lentinus edodes, the shiitake mushroom. Appl Environ Microbiol 56: 250253. 14. Moulin P, Cre pineau F, Kloareg B, Boyen C Isolation and characterization of six cDNAs involved in carbon metabolism in Laminaria digitata. J Phycol 35: 12371245. 15. Cock JM, Sterck L, Rouze P, Scornet D, Allen AE, et al. The Ectocarpus genome along with the independent evolution of multicellularity inside the brown algae. Nature 465: 617621. 16. Michel G, Tonon T, Scornet D, Cock JM, Kloareg B Central and storage carbon metabolism from the brown alga Ectocarpus siliculosus: insights in to the origin and evolution of storage carbohydrates in Eukaryotes. New Phytologist 188: 67 81. 17. Gravot A, Dittami SM, Rousvoal S, Lugan R, Eggert A, et al. Diurnal oscillations of metabolite abundances and genome evaluation provide new insights into central metabolic processes of the brown alga Ectocarpus siliculosus. New Phytologist 188: 98110. 18. Rousvoal S, Groisillier A, Dittami SM, Michel G, Boyen C, et al. Mannitol-1-phosphate dehydrogenase activity in Ectocarpus siliculosus, a crucial part for mannitol synthesis in brown algae. Planta 233: 261273. 9 Mannitol-2-Dehydrogenase in Saccharina japonica 19. Groisillier A, Shao ZR, Michel G, Goulitquer S, Bonin P, et al. Mannitol metabolism in brown algae entails a new phosphatase household. Journal of Experimental Botany 65: 559570. 20. Soetaert 10781694 W, Buchholz K, Vandamme EJ Production of D-mannitol and D-lactic acid by fermentation with Leuconostoc mesenteroides. Agro Food Ind Hi Tech 6: 4144. 21. Saha BC, Racine FM Biotechnological production of mannitol.