An improved model of C3 photosynthesis at high CO2: Reversed O2 sensitivity explained by lack of glycerate reentry into the chloroplast
Tóm tắt
Từ khóa
Tài liệu tham khảo
Brown RH, Bouton JH and Evans PT (1986) Oxygen stimulation of apparent photosynthesis in Flaveria linearis. Plant Physiol 81: 212–215
Dietz K-J (1985) A possible rate-limiting function of chloroplast hexosemonophosphate isomerase in starch synthesis of leaves. Biochim Biophys Acta 839: 240–248
Farquhar GD and von Caemmerer S (1982) Modelling of photosynthetic response to environment. In: Lange OL, Nobel PS, Osmond CB and Ziegler H (eds) Encyclopedia of Plant Physiology, NS Vol 12B: Physiological Plant Ecology II, pp 549–587. Berlin: Springer-Verlag
Farquhar GD, von Caemmerer S and Berry JA (1980) A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta 149: 78–90
Harley PC and Tenhunen JD (1991) Modeling the photosynthetic response of C3 leaves to environmental factors. In: Boote KJ and Loomis RS (eds) Modeling Crop Photosynthesis-From Biochemistry to Canopy. Special Pub of Amer Soc Agron (in press)
Harley PC, Tenhunen JD and Lange OL (1986) Use of an analytical model to study limitations on net photosynthesis in Arbutus unedo under field conditions. Oecologia 70: 393–401
Harley PC, Weber JA and Gates DM (1985) Interactive effects of light, leaf temperature, CO2 and O2 on photosynthesis in soybean. Planta 165: 249–263
Harris GC, Cheesbrough JK and Walker DA (1983) Effects of mannose on photosynthetic gas exchange in spinach leaf discs. Plant Physiol 71: 108–111
Heber U and French CS (1968) Effects of oxygen on the electron transport chain of photosynthesis. Planta 79: 99–112
Jolliffe PA and Tregunna EB (1973) Environmental regulation of the oxygen effect on apparent photosynthesis in wheat. Can J Bot 51: 841–853
Kruckeberg AL, Neuhaus HE, Feil R, Gottlieb LD and Stitt M (1989) Decreased-activity mutants of phosphoglucose isomerase in the cytosol and chloroplast of Clarkia xantiana. Impact on mass-action ratios and fluxes to sucrose and starch, and estimation of flux control coefficients and elasticity coefficients. Biochem J 261: 457–467
Leegood RC and Furbank RT (1986) Stimulation of photosynthesis by 2% oxygen at low temperatures is restored by phosphate. Planta 168: 84–93
Madore M and Grodzinski B (1984) Effect of oxygen concentration on 14C-photoassimilate transport from leaves of Salvia splendens L. Plant Physiol 76: 782–786
McVetty PBE and Canvin DT (1981) Inhibition of photosynthesis by low oxygen concentration. Can J Bot 59: 721–725
Neuhaus HE, Kruckeberg AL, Feil R and Stitt M (1989) Reduced-activity mutants of phosphoglucose isomerase in the cytosol and chloroplast of Clarkia xantiana. II. Study of the mechanisms which regulate photosynthate partitioning. Planta 178: 110–122
Preiss J, Robinson N, Spilatro S and McNamara K (1985) Starch synthesis and its regulation. In: Heath RI and Preiss J (eds) Regulation of Carbon Partitioning in Photosynthetic Tissue, pp 1–26. Rockville, MD: American Society of Plant Physiologists
Sage RF and Sharkey TD (1987) The effect of temperature on the occurrence of O2 and CO2 insensitive photosynthesis in field grown plants. Plant Physiol 84: 658–664
Sage RF, Sharkey TD and Pearcy RW (1990) The effect of leaf nitrogen and temperature on the CO2 response of photosynthesis in the C3 dicot Chenopodium album L. Aust J Plant Physiol 17: 135–148
Sharkey TD (1985a) Photosynthesis in intact leaves of C3 plants: Physics, physiology and rate limitations. Bot Rev 51: 53–105
Sharkey TD (1985b) O2-insensitive photosynthesis in C3 plants: Its occurrence and a possible explanation. Plant Physiol 78: 71–75
Sharkey TD (1989) Evaluating the role of Rubisco regulation in photosynthesis of C3 plants. Phil Trans R Soc Lond 323: 435–448
Sharkey TD and Vanderveer PJ (1989) Stromal phosphate concentration is low during feedback limited photosynthesis. Plant Physiol 91: 679–684
Sharkey TD and Vassey TL (1989) Low oxygen inhibition of photosynthesis is caused by inhibition of starch synthesis. Plant Physiol 90: 385–387
Sharkey TD, Kobza J, Seeman JR and Brown RH (1988) Reduced cytosolic fructose-1,6-bisphosphatase activity leads to loss of O2 sensitivity in a Flaveria linearis mutant. Plant Physiol 86: 667–671
Sharkey TD, Stitt M, Heineke D, Gerhardt R, Raschke K and Heldt H (1986) Limitation of photosynthesis by carbon metabolism. Plant Physiol 81: 1123–1129
Thomas RB and Strain BR (1991) Root restriction as a factor in photosynthetic acclimation of cotton seedlings in elevated carbon dioxide. Plant Physiol (in press)
Usuda H and Edwards GE (1982) Influence of varying CO2 and orthophosphate concentrations on rates of photosynthesis, and synthesis of glycolate and dihydroxyacetone phosphate by wheat chloroplasts. Plant Physiol 69: 469–473
Viil J, Laisk A, Oja V and Parnik T (1977) Enhancement of photosynthesis caused by oxygen under saturating irradiance and high CO2 concentrations. Photosynthetica 11: 251–259
von Caemmerer S and Farquhar GD (1981) Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta 153: 376–387
Walker DA, Leegood RC and Sivak MN (1986) Ribulose bisphosphate carboxylase-oxygenase: Its role in photosynthesis. Phil Trans R Soc Lond 313: 305–324
Wardlaw JF (1983) Assimilate movement in Lolium and Sorghum leaves. III. Carbon dioxide concentration effects on the metabolism and translocation of photosynthate. Aust J Plant Physiol 9: 705–713
Woo KC and Wong SC (1983) Inhibition of CO2 assimilation by supraoptimal CO2: Effect of light and temperature. Aust J Plant Physiol 10: 75–85
Woodrow IE and Berry JA (1988) Enzymatic regulation of photosynthetic CO2 fixation in C3 plants. Ann Rev Plant Physiol Plant Mol Biol 39: 533–594
Ziegler H (1974) Nature of transported substances. In: Zimmermann MH and Milburn JA (eds) Transport in Plants, Vol 1, Phloem Transport, pp 59–100. Heidelberg: Springer-Verlag