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Internodal invertases and stalk maturity in sugarcane

Published online by Cambridge University Press:  27 March 2009

H. L. Sehtiya
Affiliation:
Regional Research Station, Haryana Agricultural University, Uchani, Karnal 132 001, India
J. P. S. Dendsay
Affiliation:
Regional Research Station, Haryana Agricultural University, Uchani, Karnal 132 001, India
A. K. Dhawan
Affiliation:
Regional Research Station, Haryana Agricultural University, Uchani, Karnal 132 001, India

Summary

Acid and neutral invertase activities in the stem of an early (CoJ 64) and a late cultivar (Col 148) of sugarcane were estimated by incubating stem slices in buffered sucrose solution and measuring the production of reducing sugars. High enzyme activity occurred in young tissue but the activity of both enzymes was considerably lower in the mature internodes. Acid and neutral invertase activity was highest in the midinternode position, corresponding to the region of cell expansion.

Type
Crops and Soils
Copyright
Copyright © Cambridge University Press 1991

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References

REFERENCES

Alexander, A. G. (1973). Sugarcane Physiology, p. 388. Amsterdam, London, New York: Elsevier.Google Scholar
Bacon, J. S. D., MacDonald, I. R. & Knight, A. H. (1965). The development of invertase activity in slices of the root of Beta vulgaris washed under aseptic conditions. Biochemical Journal 94, 175182.Google Scholar
Batta, S. K. & Singh, R. (1986). Sucrose metabolism in sugarcane grown under varying climatic conditions: synthesis and storage in relation to the activity of sucrose synthetase, sucrose phosphate synthetase and invertase. Phytochemistry 25, 24312437.Google Scholar
Claussen, W. B., Loveys, R. & Hawker, J. S. (1985). Comparative investigation on the distribution of sucrose synthetase and invertase activity within growing, mature and old leaves of some C3 and C4 plant species. Physiologia Plantarum 65, 275280.Google Scholar
Fleischmacher, O. L., Prado, F. E. & Sampietro, A. R. (1980). Cell wall invertases from apex and callus tissues. Plant and Cell Physiology 21, 12731281.Google Scholar
Giaquinta, R. T. (1979). Sucrose translocation and storage in the sugar beet. Plant Physiology 63, 828832.CrossRefGoogle ScholarPubMed
Hatch, M. D. & Glasziou, K. T. (1963). The sugar accumulation cycle in sugarcane. II. Relationship of invertase activity to sugar content and growth rate in storage tissue of plants grown in controlled environments. Plant Physiology 38, 344348.CrossRefGoogle Scholar
Hatch, M. D., Sacher, J. A. & Glasziou, K. T. (1963). Sugar accumulation cycle in sugarcane. 1. Studies on enzymes of the cycle. Plant Physiology 38, 338343.CrossRefGoogle Scholar
Hawker, J. S. (1985). Sucrose. In Biochemistry of Storage Carbohydrates in Green Plants (Eds Dey, P. M. & Dixon, R. A.), pp. 152. New York: Academic Press.Google Scholar
Kato, T. & Kubato, S. (1978). Properties of invertases in sugar storage tissues of citrus fruit and changes in their activities during maturation. Physiologia Plantarum 42, 6772.Google Scholar
Kivilaan, A., Cabrera, B. T. & Bandurski, R. S. (1961). Enzymatic activities associated with cell wall preparations from corn coleoptiles. Plant Physiology 36, 605610.Google Scholar
McDavid, C. R. & Babiker, E. A. (1981). Effect of Polaris and gibberellic acid on growth, 14C fixation and translocation, and sugar content of two sugarcane cultivars. Tropical Agriculture 58, 7379.Google Scholar
Meade, G. P. & Chen, J. C. P. (1977). Cane Sugar Handbook, pp. 515568. New York: John Wiley & Sons.Google Scholar
Ricardo, C. P. P. & Ap Rees, T. (1970). Invertase activity during the development of carrot roots. Phytochemistry 9, 239247.CrossRefGoogle Scholar
Sacher, J. A., Hatch, D. & Glasziou, K. T. (1963). Sugar accumulation cycle in sugarcane. III. Physical and metabolic aspects of the cycle in immature storage tissues. Plant Physiology 38, 348354.Google Scholar
Slack, C. R. (1965). The physiology of sugarcane. VIII. Diurnal fluctuations in the activity of soluble invertase in elongating internodes. Australian Journal of Biological Sciences 18, 781788.CrossRefGoogle Scholar
Somogyi, N. A. (1945). A new reagent for the determination of sugars. Journal of Biological Chemistry 160, 6168.CrossRefGoogle Scholar
Straus, J. (1962). Invertase in cell walls of plant tissue cultures. Plant Physiology 37, 342348.CrossRefGoogle ScholarPubMed