Summary
The zone of endosperm breakdown in the germinated date seed (Phoenix dactylifera L.) is a narrow area immediately adjacent to the surface of the enlarging cotyledon, or haustorium. The zone width is correlated with the amount of cell division in the adjacent region of the haustorium. The sequence of endosperm breakdown is: 1. protein bodies vacuolate, 2. storage cell walls become electron-transparent immediately adjacent to the protoplast of each endosperm cell, 3. all remaining cytoplasm and lipid bodies disappear, and 4. the remaining cell walls become electron-transparent and collapse against the haustorium surface. Two cell wall hydrolases are present—endo-Βmannanase (EC3.2.1.78) and Β-mannosidase (EC3.2.1.25). Β-mannosidase is detectable in the endosperm before germination. At germination, the major portion of activity is found in the softened endosperm. Β-mannanase is only detectable from germination and there is always hundreds of fold greater activity in the softened endosperm than elsewhere. Proteinase is detectable in trace amounts at germination in the softened endosperm but is also found in the haustorium at later stages. Isolated haustoria, incubated in extracted ivory nut (Phytelephas macrocarpa) mannan in buffer, cause no mannan breakdown. Haustoria, incubated in a solution of locust bean galactomannan, cause no decrease in galactomannan viscosity. Our observations suggest that although haustoria probably regulate mannan breakdown in the endosperm, they do not seem to secrete the hydrolytic enzymes concerned.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Almin, K. E., Eriksson, K. E., Janssen, C., 1967: Enzymic degradation of polymers. II. Viscometric determination of cellulase in absolute terms. Biochim. biophys. Acta139, 248–253.
DeMason, D. A., 1984: Growth parameters in the cotyledon of date seedlings. Bot. Gaz.145, 176–183.
—, 1985: Histochemical and ultrastructural changes in the haustorium of date (Phoenix dactylifera L.). Protoplasma126, 168–177.
—,Sexton, R., Reid, J. S. G., 1983: Structure, composition and physiological state of the endosperm ofPhoenix dactylifera L. Ann. Bot.52, 71–80.
Grüss, J., 1896: BeitrÄge zur Physiologie der Keimung. Landw. Jb.25, 385–452.
Keusch, L., 1968: Die Mobilisierung des Reservemannans im keimenden Dattelsamen. Planta78, 321–350.
Lewis, L. N., Varner, J. E., 1970: Synthesis of cellulase during abscission ofPhaseolus vulgaris leaf expiants. Plant Physiol.46, 194–199.
McCleary, B. V., 1978: A simple assay procedure for Β-Dάnnanase. Carbohydrate Res.67, 213–221.
—, 1983: Enzymic interactions in the hydrolysis of galactomannan in germinating guar: the role of exo-Β-mannanase. Phytochemistry22, 649–658.
—,Matheson, N. K., 1975: Galactomannan structure and Βmannanase and Β-mannosidase activity in germinating legume seeds. Phytochemistry14, 1187–1194.
Meier H., 1956: On the submicroscopic structure of mannans. Proc. Stockholm Conf. of Electron Microsc., pp. 289–300.
—, 1958: On the structure of cell walls and cell wall mannans from ivory nuts and from dates. Biochim. biophys. Acta28, 229–240.
Meier, H., Reid, J. S. G., 1982: Reserve polysaccharides other than starch in higher plants. In: Encyclopedia of plant physiology, New Series, Vol. 13 A (Loewus, F. A., Tanner, W., eds.), pp. 418–471. Berlin-Heidelberg-New York: Springer.
Mujer, C. V., Ramirez, D. A., Mendoza, E. T., 1984: Coconut α-D-galactosidase isozymes: isolation, purification and characterization. Phytochemistry23, 1251–1254.
Puriewitsch, K., 1898: Physiologische Untersuchungen über die Entleerung der ReservestoffbehÄlter. J. wiss. Bot.31, 1–76.
Reid, J. S. G., Meier, H., 1973: Enzymic activities and galactomannan mobilization in germinating fenugreek (Trigonella foenum-graecum L.Leguminosae). Planta112, 301–308.
—,Davies, C, Meier, H., 1977: Endo-Β-mannanase, the leguminous aleurone layer and the storage galactomannanan in germinating seeds ofTrigonella foenum-graecum L. Planta133, 219–222.
Ruthmann A., 1966: Methods in cell research. London: G. Bell and Sons, Ltd.
Sachs, J., 1862: Zur Keimungsgeschichte der Dattel. Bot. Z.20, 241–246, 249–252.
Sexton, R., 1976: Some ultrastructural observations on the nature of foliar abscission inImpatiens sultani. Planta128, 49–58.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
DeMason, D.A., Sexton, R., Gorman, M. et al. Structure and biochemistry of endosperm breakdown in date palm (Phoenix dactylifera L.) seeds. Protoplasma 126, 159–167 (1985). https://doi.org/10.1007/BF01281791
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01281791