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1999 | 41 |

Tytuł artykułu

Histochemical features signalling receptivity of ovules of Oenothera hookeri De Vries and Oe.mut.brevistylis

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Fertile ovules of Oe. hookeri were compared with infertile ovules of Oe. mut. brevistylis. Their anatomy was very similar but maturation of Oe. mut. brevistylis ovules was delayed and they were not ready for fertilization at flowering time. Ovules of both Oenothera taxons divided into sample groups were stained or tested for histochemical reactions: PAS for insoluble polysaccharides, alcian blue for acidic polysaccharides, alizarin red S for free calcium ions, ruthenium red for pectins, and Gomori’s method for acid phosphatase. The ovules were observed under a light microscope. Besides these treatments, ovules from opening buds and flowers were stained with aniline blue and observed with a fluorescence microscope. Other ovules were sectioned and analyzed with an electron microscope. Receptive ovules of Oe. hookeri produced an exudate in the micropylar chamber, clearly visible in TEM. The exudate contained free calcium ions and acidic polysaccharides. The micropylar part of the integuments gave positive reactions for pectins, acidic polysaccharides and acid phosphatase. The substances present in the micropylar part of fertile ovules, especially calcium ions and acidic polysaccharides, perhaps serve as guiding and attracting factors for the pollen tube. In non-receptive ovules of Oe. mut. brevistylis, all mentioned reactions were negative. The staining methods may be used for testing the fertility of ovules.

Wydawca

-

Rocznik

Tom

41

Opis fizyczny

p.119-126,fig.

Twórcy

autor
  • Institute of Biology, ul.Akademicka 19, 20-033 Lublin, Poland
autor

Bibliografia

  • Bednarska E. 1992. Interakcje komórkowe podczas płciowego rozmnażania roślin kwiatowych. Postępy Biologii Komórki 19: 293-310.
  • Bednarska E. 1995. Localization of membrane-associated calcium in unpollinated and pollinated pistil of Petunia hybrida Hort. Acta Societatis Botanicorum Poloniae 64: 19-24.
  • Bednarska E, and Butowt R. 1995. Calcium in pollen-pistil interaction in Petunia hybrida Hort. II. Localization of Ca2+ -ATPase in unpollinated pistil. Folia Histochemica et Cytobiologica 33: 43-52.
  • Bruun L, and Olesen P. 1989. A structural investigation of the ovule in sugar beet, Beta vulgaris: the micropylar nucellus. Nordic Journal of Botany 9: 81-87.
  • Carpita NC, and Gibeaut DM. 1993. Structural models of primary cell walls in flowering plants: consistency of molecular structure with the physical properties of the walls during growth. Plant Journal 31: 1-30.
  • Catcheside DG. 1954. The genetics of brevistylis in Oenothera. Heredity 8: 125-137.
  • Chao CY. 1971. A periodic acid-Schiff's substance related to the directional growth of pollen tube into embryo sac in Paspalum ovules. American Journal of Botany 58: 649-654.
  • Chaubal R, and Reger BJ. 1990. Relatively high calcium is localised in synergid cells of wheat ovaries. Sexual Plant Reproduction 3: 98-102.
  • Chaubal R, and Reger BJ. 1992. Calcium in the synergids and other regions of pearl millet ovaries. Sexual Plant Reproduction 5: 34-46.
  • Chudzik B, and Śnieżko R. 1997. Testing the fertility in ovules of Oenothera hookeri, Oe. brevistylis - female sterile form, Capsella bursa-pastoris and Sisymbrium loeselii by induction of callose fluorescence. Bulletin of the Polish Academy of Sciences, Biological Sciences 45: 283-288.
  • Chudzik B, Śnieżko R. 1997a. Micropyle of mature ovules of Oenothera hookeri and brevistylis, Capsella bursa pastoris and Sisymbrium loeselii. Materials of VIII Conference of Plant Embryologists, 16-18 September 1997, 29. Gdańsk, Poland.
  • Ciampolini F, Shivanna KR, and Cresti M. 1988. The structure and cytochemistry of the pistil of Hypericum calycinum: the style. Sexual Plant Reproduction 1: 248-255.
  • Clifford SN, and Owens SJ. 1990. The stigma, style and ovarian transmitting tract in the Oncidinae (Orchidaceae) morphology, developmental anatomy and histochemistry. Botanical Gazette 151: 440-451.
  • Cresti M, Ciampolini F, and Sansavini S. 1980. Ultrastructural and biochemical features of pistil of Malus communis; the stylar transmitting tissue. Scientia Horticulturae 12: 327- 337.
  • Davis BM. 1926. The segregation of Oenothera nanella-brevistylis from crosses with nanella and with lamarckiana. Genetics 11: 57-72.
  • Franssen-Verheijen MAW, and Willemse MTM. 1993. Micropylar exudate in Gasteria (Aloaceae) and its possible function in pollen tube growth. American Journal of Botany 80: 253-262.
  • Gabbrielli R, Grossi L, and Vergnamo O. 1989. The effects of nickel, calcium and magnesium on the acid phosphatase activity of two Alyssum species. New Phytologyst 111: 631- 636.
  • McGee-Russell SM. 1958. Histochemical methods for calcium. Journal of Histochemistry 6: 22-42.
  • Gilroy S, Bethke PC, and Jones RL. 1993. Calcium homeostasis in plants. Journal of Cell Science 106: 453-462.
  • Gomori G. 1952. Microscopic histochemistry. University of Chicago Press, Chicago.
  • Harte C. 1994. Oenothera. Contributions of a plant to biology. Monographs on Theoretical and Applied Genetics, vol. 20. Springer-Verlag, Berlin, Heidelberg.
  • Herrero M, and Arbeloa A. 1989. Influence of the pistil on pollen tube kinetics in peach (Prunus persica). American Journal of Botany 76: 1441-1447.
  • Heslop-Harrison J. 1987. Pollen germination and pollen-tube growth. International Review of Cytology 107: 1-78.
  • Janson J. 1992. Pollen tube - pistil interactions and fertilization in Lilium longiflorum. Landbouwuniversiteit, Wageningen.
  • Jauh GY, and Lord EM. 1996. Localization of pectins and arabinogalactan-proteins in lily (Lilium longiflorum L.) pollen tube and style, and their possible roles in pollination. Planta 199: 251-261.
  • Kandasamy MK., and Kristen U. 1990. Developmental aspects of ultrastructure and histochemistiy of the stylar transmitting tissue of Nicotiana sylvestris. Botanica Acta 109: 384-391.
  • Knox JP. 1996. Arabinogalactan-proteins: developmentally regulated proteoglycans of the plant cell surface. In: Smallwood M, Knox JP, and Bowles DJ [eds.], Membranes: specialised, functions in plants, 93-102. Bios, Oxford.
  • Lenartowska M, Bednarska E, and Butowt R. 1997. Ca2+ in the pistil of Petunia hybrida Hort. during growth of the pollen tube - cytochemical and radiographic studies. Acta Biologica Cracoviensia Series Botanica 39: 79-89.
  • Lenartowska M, Butowt R, and Bednarska E. 1996. Immunocytochemical pectins localization with the use of antibodies JIM5 and JIM7 in unpollinated pistil of Petunia hybrida Hort. Folia Histochemica et Cytobiologica 34 Supl 2: 8.
  • Lennon KA, Roy S, Hepler PK, and Lord EM. 1998. The structure of the transmitting tissue of Arabidopsis thaliana (L.) and the path of pollen tube growth. Sexual Plant Reproduction 11: 49-59.
  • Li Y-Q, Chen F, Linskens HF, and Cresti M. 1994. Distribution of unestrified and estrified pectins in cell walls of pollen tubes of flowering plants. Sexual Plant Reproduction 7: 145-152.
  • Linskens HF. 1988. Present status and future prospects of sexual reproduction research in higher plants. In: Cresti M, Gori P, and Pacini E [eds.], Sexual reproduction in higher plants, 451-457. Springer-Verlag, Berlin, Heidelberg, New York, London, Paris, Tokyo.
  • Luft JH. 1971. Ruthenium red and violet. I. Chemistry, purification, methods for use for electron microscopy and mechanisms of action. Anatomical Record 171: 347-368.
  • Mulcahy GB, and Mulcahy DL. 1985. Ovarian influence on pollen tube growth, as indicated by the semi-vivo technique. American Journal of Botany 72: 1078-1080.
  • Nothnagel EA. 1997. Proteoglycans and related compounds in plant cells. International Review of Cytology 174: 195-291.
  • Olczak M. 1996. Acid phosphatases from higher plants. Wiadomości Botaniczne 40: 39-51. (In Polish).
  • Pearse AGE. 1972. Histochemistry. Theoretical and applied, vol. 2. Williams & Wilkins, Baltimore.
  • Picton J, and Steer MW. 1983. Evidence for the role of Ca2+ ions in tip extension in the pollen tubes. Protoplasma 115:11-17.
  • Plyushch TJ. 1992. On the problem of synergids function in angiosperms. In: Batygina TB [ed.], Embryology and seed reproduction - XI International Symposium, 433-434. St. Petersburg.
  • Plyushch TJ, Willemse MTM, and Franssen-Verheijen MAW. 1995. Structural aspects of in vitro pollen tube growth and micropylar penetration in Gasteria verrucosa (Mill.) H. Duval and Lilium longiflorum Thunb. Protoplasma 187: 13-21.
  • Reger BJ, Chaubal R, and Pressey R. 1992. Chemotropic responses by pearl millet pollen tubes. Sexual Plant Reproduction 5: 47-56.
  • Schwemmle J. 1968. Selective fertilization in Oenothera. Advan­ces in Genetics 14: 225-323.
  • Scott JE, Quintarelli G, and Dellovo MC. 1964. The chemical and histochemical properties of alcian blue. I. The mechanism of alcian blue staining. Histochemie 4: 73-85.
  • Scott JE, and Dorling J. 1965. Differential staining of acid glycosaminoglycans (mucopolysaccharides) by alcian blue in salt solutions. Histochemie 5: 221-233.
  • Shivanna KR, Ciampolini F, and Cresti M. 1989. The structure, and cytochemistry of the pistil of Hypericum calycinum: the stigma. Annals of Botany 63: 613-620.
  • Singh A, and Paolillo DJ, Jr. 1990. Role of calcium in the callose response of self-pollinated Brassica stigmas. American Journal of Botany 77: 128-133.
  • Śnieżko R. 1996. Pollen tube branching in the ovary of five species of Oenothera. Acta Societatis Botanicorum Poloniae 65: 111— 116.
  • Śnieżko R. 1997. Postulated interaction between branching pollen tubes and ovules in Oenothera hookeri de Vries (Onagraceae). Journal of Plant Research 110: 411-416.
  • Śnieżko R, and Harte C. 1986. Development of polarity in the ovules of the F2-progeny of the Oenothera hybrid albicans x hhookeri. Plant Systematic and Evolution 154: 89-101.
  • Śnieżko R, and Harte C. 1994 Influence of the gene brevistylis on development of the flower in Oenothera. Sexual Plant Reproduction 7: 187-193.
  • Śnieżko R, and Winiarczyk K. 1995. Pollen tube growth in pistils of female-sterile plants of Oenothera mut. brevistylis. Protoplasma 187: 31-38.
  • Tilton VR. 1979. The nucellar epidermis and micropyle of Ornithogalum caudatum (Liliaceae) with a review of these structures in other taxa. Canadian Journal of Botany 58: 1872-1884.
  • Uwate WJ, Lin J, Ryugo K, and Stallman V. 1982. Cellular components of the mid stylar transmitting tissue of Prunus avium. Canadian Journal of Botany 60: 98-104.
  • Webb MC, and Williams EG. 1987. The pollen tube pathway in the pistil of Lycopersicon peruvianum. Annals of Botany 61: 415-423.
  • Willemse MTM. 1996. Progamic phase and fertilization in Gasteria verrucosa (Mill.) H. Duval: pollination signals. Sexual Plant Reproduction 9: 348-352.
  • Willemse MTM, and Franssen-Verheijen MAW. 1986. Stylar development in the open flower of Gasteria verrucosa (Mill.) H. Duval. Acta Botanica Neerlandica 33: 297-309.
  • Willemse MTM, and Franssen-Verheijen MAW. 1988. Ovular development and pollen tube growth in the ovary of Gasteria verrucosa (Mill.) H. Duval. as condition for fertilization. In: Cresti M, Gori P, and Pacini E [eds.], Sexual reproduction in higher plants, 357-362. Springer-Verlag, Berlin, Heidelberg, New York, London, Paris, Tokyo.
  • Wilms HJ. 1981. Pollen tube penetration and fertilization in spinach. Acta Botanica Neerlandica 30: 101-122.
  • Villar M, Gaget M, and Dumas C. 1987. The route of the pollen tube from stigma to ovule in Populus nigra: a new look. Annales des Sciences Forestieres 44: 259-264.
  • de Vries H. 1900. Das Spaltungsgesetz der Bastarde. Berichte der Deutschen Botanischen Gesellschaft 18: 83-90.
  • Yan H, Yang HY, and Jensen WA. 1991. Ultrastructure of the micropyle and its relationship to pollen tube growth and synergid degeneration in sunflower. Sexual Plant Reproduction 4: 166-175.

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Bibliografia

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