This is a preview of subscription content, log in via an institution to check access.
Literature Cited
Barnes, E. M. &H. R. Kaback. 1970. β-Galactoside transport in bacterial membrane-bound D-lactic dehydrogenase. Proc. Nat. Acad. Sci. (Wash.)66: 1190–1198.
Bieleski, R. L. 1962. The physiology of sugar cane. V. Kinetics of sugar accumulation. Aust. J. Biol. Sci.15: 429–444.
Briggs, G. E., &R. N. Robertson. 1957. Apparent free space. Ann. Rev. Plant Physiol.8: 11–30.
Bull, T. A., K. R. Gayler &K. T. Glasziou. 1972. Transverse movement of water and sugar across xylem in sugar-cane stalks. Plant Physiol.49: 1007–1011.
Burr, G. O., C. E. Hartt, H. W. Brodie, T. Tanimoto, H. P. Kortschak, D. Takahashi, F. M. Ashton, &R. E. Colman. 1957. The sugarcane plant. Ann. Rev. Plant Physiol.8: 275–308.
Gayler, K. R. &K. T. Glasziou. 1972a. Sugar accumulation in sugar cane: Carrier-mediated active transport of glucose. Plant Physiol.49: 563–568.
Gayler, K. R. &K. T. Glasziou. 1972b. Regulatory roles for acid and neutral invertases in growth and sugar storage in sugar cane. Physiol. Plant.27: 25–31.
Glasziou, K. T. 1960. Accumulation and transformation of sugars in sugar cane stalks. Plant Physiol.35: 895–901.
Glasziou, K. T. 1961. Accumulation and transformation of sugars in stalks of sugar cane. Origin of glucose and fructose in the inner space. Plant Physiol.36: 175–179.
Glasziou, K. T. 1962. Accumulation and transformation of sugars in sugar cane stalks: Mechanism of inversion of sucrose in the inner space. Nature193: 1100.
Glasziou, K. T. 1969. Control of enzyme formation and inactivation in plants. Ann. Rev. Plant Physiol.20: 63–88.
Glasziou, K. T. &T. A. Bull. 1965. The relation between total invertase activity and internode expansion in sugar-cane stalks. Proc. Twelfth I. S. S. C. T. Congress, Elsevier Publishing Co., Amsterdam, pp. 575–581.
Glasziou, K. T., T. A. Bull, M. D. Hatch, &P. C. Whiteman. 1965. Physiology of sugar cane.VII. Effects of temperature, photoperiod duration, and diurnal and seasonal temperature changes on growth and ripening. Aust. J. Biol. Sci.18: 53–66.
Glasziou, K. T., &K. R. Gayler. 1969. Sugar transport: Occurrence of trehalase activity in sugar cane. Planta (Berl.)85: 299–302.
Glasziou, K. T., &K. R. Gayler. 1972. The role of cell walls in sucrose transport in sugar cane. Plant Physiol.49: 912–913.
Goldner, A. M., S. G. Schultz, &P. F. Curran. 1969. Sodium and sugar fluxes across the mucosal border of rabbit ileum. J. Gen. Physiol.53: 362–383.
Hartt, C. E., &H. P. Kortschak. 1964. Sugar gradients and translocation of sucrose in detached blades of sugarcane. Plant Physiol.39: 460–474.
Hartt, C. E., &H. P. Kortschak. 1967. Translocation of14C in the sugarcane plant during the day and night. Plant Physiol.42: 89–94.
Hatch, M. D. 1963. A uridine diphosphatase from sugar cane. Biochem. J.88: 423–427.
Hatch, M. D. 1964. Sugar accumulation by sugar-cane storage tissue: the role of sucrose phosphate. Biochem. J.93: 521–526.
Hatch, M. D., &K. T. Glasziou. 1963. Sugar accumulation cycle in sugar cane. II. Relationship of invertase activity to sugar content and growth rate in storage tissue of plants grown in controlled environments. Plant Physiol.38: 344–348.
Hatch, M. D., &K. T. Glasziou. 1964. Direct evidence for translocation of sucrose in sugarcane leaves and stems. Plant Physiol.39: 180–184.
Hatch, M. D., J. A. Sacher, &K. T. Glasziou. 1963. Sugar accumulation cycle in sugar cane. I. Studies on enzymes of the cycle. Plant Physiol.38: 338–343.
Hawker, J. S. 1965. The sugar content of cell walls and intercellular spaces in sugar-cane stems and its relation to sugar transport. Aust. J. Biol. Sci.18: 959–969.
Hawker, J. S. 1966. Studies on the location of sucrose phosphatase in plant tissues. Phytochem.5: 1191–1199.
Hawker, J. S. 1967. Inhibition of sucrose phosphatase by sucrose. Biochem. J.102: 401–406.
Hawker, J. S., &M. D. Hatch. 1965. Mechanism of sugar storage by mature stem tissue of sugarcane. Physiol. Plant.18: 444–453.
Hawker, J. S., &M. D. Hatch. 1966. A specific sucrose phosphatase from plant tissues. Biochem. J.99: 102–107.
Regen, D. M., &H. E. Morgan. 1964. Studies of the glucose-transport system in the rabbit erythrocyte. Biochem. Biophys. Acta.79: 151–166.
Reinhold, L., &Z. Eshhar. 1968. Transport of 3-0-methyl glucose into and out of storage cells of Daucus carota. Plant Physiol.43: 1023–1030.
Sacher, J. A., &K. T. Glasziou. 1962. Regulation of invertase levels in sugar cane by an auxin-carbohydrate mediated control system. Biochem. Biophys. Res. Comm.8: 280–282.
Sacher, J. A., M. D. Hatch, &K. T. Glasziou. 1963. Sugar accumulation cycle in sugar cane. III. Physical and metabolic aspects of the cycle in immature storage tissues. Plant Physiol.38: 348–354.
Saktor, B. 1968. Trehalase and the transport of glucose in mammalian kidney and intestine. Proc. Nat. Acad. Sci. U. S. A.60: 1007–1014.
Slack, C. R. 1965. The physiology of sugar cane. VIII. Diurnal fluctuations in the activity of soluble invertase in elongating internodes. Aust. J. Biol. Sci.18: 781–788.
Slack, C. R. 1966. Inhibition of UDP glucose: D-fructose 2-glucosyltransferase from sugar cane stem tissue by phenol oxidation products. Phytochemistry5: 397–403.
Vineula, E., M. Salas, &A. Sols. 1963. Glucokinase and hexokinase in liver in relation to glycogen synthesis. J. Biol. Chem.238: PC1175–1176.
Wilbrandt, W., &T. Rosenberg. 1961. The concept of carrier transport and its. corollaries in pharmacology. Pharmacological Reviews13: 109–183.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Glasziou, K.T., Gayler, K.R. Storage of sugars in stalks of sugar cane. Bot. Rev 38, 471–488 (1972). https://doi.org/10.1007/BF02859248
Issue Date:
DOI: https://doi.org/10.1007/BF02859248