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1997 | 19 | 2 |

Tytuł artykułu

The role of free, membrane-bound and tightly-bound polysomes in precocious germination of triticale caryopses

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
During the development and ripening of triticale caryopses cv. Grado, a gradual increase in the precocious germination ability of the grain was observed. After 48 hrs of incubation (at 22 °C under optimal moisture conditions for germination in darkness) of the freshly-collected caryopses of different ripeness, the percentage of polysomes in the ribosomal fraction isolated from embryonic tissue in buffer A + PTE (to yield released FP + MBP) was about 15 % in the sample of grains gathered at the milk-ripeness stage, over 27 % at the wax-ripeness stage and over 63 % at the full-ripeness stage. Percentages of polysomes solubilized in the pellets in buffer U (TBP, putative cytoskeleton-bound polysomes), were always higher and amounted to about 36 % at the milk-ripeness stage, 58 % at the wax-stage and 68 % at the full-ripeness stage. The incorporation of 3H-uridine into polysomal RNA (mRNA+rRNA) of triticale embryos increased during the development and maturation of the caryopses subjected to germination from about 19 and 33 Bq/mg RNA at the milk-ripeness in the FP+MBP and the TBP to 220 and 312 Bq·mg⁻¹ RNA at the full-ripeness stage, respectively. The effect of the pericarp and other tissues surrounding the embryo was also investigated. Removal of the outer pericarp strongly stimulated germination of unripe caryopses in the middle period of development e.g. 32 and 39 DAF. The strongest stimulatory effect on transcription was found in the embryo during germination, in all samples of caryopses of various degrees of ripeness, by isolating it completely from the pericarp, testa and endosperm. The high percentage of polysomes in the TBP and the high incorporation 3H-uridine into RNA in that fraction during precocious germination suggests an important role for this sub-population of polysome (and the proteins synthesised by them) in initiation of precocious germination processes.

Wydawca

-

Rocznik

Tom

19

Numer

2

Opis fizyczny

p.109-118,fig.

Twórcy

autor
  • Olsztyn University of Agriculture and Technology, Kortowo, Pl.Lodzki 3, PL-10-718 Olsztyn, Poland

Bibliografia

  • Abe S., Davies E. 1991. Isolation of F-actin from plants: Evidence from fluorescence microscopy. Protoplasma. 163: 51–61.
  • Abe S., Ito Y., Davies E. 1992. Co-sedimentation of actin, tubulin and membranes in the cytoskeleton fractions from peas and mouse 3T3 cells. J. Expt. Bot. 43: 941–949.
  • Bewley J. D., Black M. 1998. Seeds: physiology of development and germination. Plenum Press, New York.
  • Davies E., Larkins B. A., Knight R. H. 1972. Polyribosomes from peas. An improved method for their isolation in the absence of ribonuclease inhibitors. Plant Physiol. 50: 581–584.
  • Davies E., Larkins B. A. 1980. Ribosomes. In: Biochemistry of plants. Vol 1, ed. by A. Marcus, Academic Press: 413–415.
  • Davies E., Fillingham B. D., Ito Y., Abe S. 1991. Evidence for the existence of cytoskeleton-bound polysomes in plants. Cell Biol. Int. Rep. 15: 973–981.
  • Derera N. F. 1990. A perspective of sprouting research. In: Fifth International Symposium on Pre-Harvest Sprouting 1989, USA, ed. by K. Ringhlund, E. Mosleth, D. J. Mares, Westview Press, Boulder Co: 3–11.
  • Frike U. 1973. Tritosol: a new scintillation cocktail based on Triton-X-100. Anal. Biochem. 63: 555–558.
  • Goldmark P. J., Curry J., Morris C. F. Walker-Simmons M. K. 1992. Cloning and expression of an embryospecific mRNA up-regulation in hydrated dormant seeds. Plant Molec. Biol. 19: 433–441.
  • Gordon J. L. 1980. Germinability, dormancy and grain development. Cereal Res. Comm. 8: 115–129.
  • Grzelczak Z., Buchowicz J. 1977. A comparison of the activation of ribosomal RNA synthesis during germination of isolated nad non-isolated embryos of Triticum aestivum L. Planta 134: 263–265.
  • Hilhorst H. W. M., Karsen C. M. 1992. Seed dormancy and germination: The role of abscisic acid and gibberellins and the importance of hormone mutants. Plant Growth Regulation 11: 225–238.
  • King R. W., Salminen S. O., Hill R. D., Higgins T. J. V. 1979. Abscisic acid and gibberellin acid in developing kernels of triticale (cv. 6A 190). Planta. 146: 249–255.
  • Morris C. F., Paulsen G. M. 1988. Localization and physical properties of endogenous germination inhibitors in white wheat grain. Cereal Chem. 65: 404–408.
  • Morris C. F., Anderberg R. J., Goldmark P. J., Walker-Simmons M. K. 1991. Moleculal cloning and expression of abscisic acid-responsive genes in embryos of dormant wheat seeds. Plant Physiol. 95: 814–821.
  • Nielson P., Goelz S., Trachsel H. 1983. The role of the cytoskeleton in eukaryotic protein synthesis. Cell Biol. Int. Rep. 7: 245–254.
  • Radley M. 1976. The development of wheat grain in relation to endogenous growth substances. J. Exp. Bot. 27: 1009–1021.
  • Radley M. 1979. The role of gibberellin, abscisic acid and auksin in regulation of developing wheat grains. J. Exp. Bot. 30: 381–389.
  • Simpson G. M. 1990. Seed dormancy in grasses. Cambridge University Press, Cambridge.
  • Quatrano R. S. 1986. The role of hormones during seed development. In: Plant hormones and their role in plant growth and development ed by P. J. Davies, Martinus Nijhoff Publisher. The Hague: 494–514.
  • Wahl T. J., O’Rourke A. D. 1993. The economic of sprouting damage in wheat. In: Prc-Harvest sproutin in Cereals 1992, USA, ed. by M. K. Walker-Simmons, J. L. Ried. American Association of Cereal Chemists, St. Paul, Minnesota: 10–17.
  • Wareing P. F., Phillips I. D. J. 1985. Wzrost i róznicowanie sie roslin. PWN, Warszawa.
  • Weidner S. 1983. The formation of polysomes during the germination of grains of wheat of different ripeness. Acta Soc. Bot. Polon. 52: 173–183.
  • Weidner S., Wielgat B. 1984. Transcriptional activity of chromatin in developing and germinating triticale embryos. Physiol. Plant. 60: 139–142.
  • Weidner S. 1988. The role of the embryoless parts of triticale caryopses in inhibitin precocious germination and transcription in the embryo during development and maturation of caryopses. Acta Soc. Bot. Polon. 57: 481–491.
  • Weidner S., Paprocka J. Łukaszewicz D. 1996. Changes in free, esterified and glycosidic phenolic acids in cereal grains during the after-ripening. Seed. Sci. Technol. 24: 107–114.
  • Williamson J. D., Quatrano R. S. 1988. ABA-regulation of two classes of embryo-specific sequences in mature wheat embryos. Plant Physiol., 86: 208–215.
  • Woodland H. R. 1974. Changes in polysome content of developing Xenopus leavis embryos. Dev. Biol. 40: 90–101.

Typ dokumentu

Bibliografia

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