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  1. NTU Theses and Dissertations Repository
  2. 生命科學院
  3. 植物科學研究所
Please use this identifier to cite or link to this item: http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75523
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???org.dspace.app.webui.jsptag.ItemTag.dcfield???ValueLanguage
dc.contributor.author任曉旭zh_TW
dc.date.accessioned2021-07-01T08:13:40Z-
dc.date.available2021-07-01T08:13:40Z-
dc.date.issued1984
dc.identifier.citation1. Brooks, J. & G. Shaw. 1971. Recent developments in the chemistry, biochemistry, geochemistry & post-tetrad ontogeny of sporopollenin derived from pollen & spore exine. In: Pollen: Development & Physiology. (Heslop-Harrison, J. ed.) pp. 99-114. London, Butterworths.
2. Chen, C. C. 1977. In vitro development of plants from microspores of rice. In Vitro, 13: 484-489.
3. Chen, C. C. 1978. Effects of sucrose concentration on plant production in anther culture of rice. Crop Sci. 18: 905-906.
4. Chen, C. C. & C. M. Chen. 1979. A method for anther culture of rice. TCA manual 5: 1051-1053.
5. Chen, C. C. & C. M. Chen. 1980. Changes in chromosome number in microspore callus of rice during successive subcultures. Can. J. Genet. Cytol. 22: 607-614.
6. Chen, C. M., C. C. Chen, & M. H. Lin. 1982. Genetic analysis of anther-derived plants of rice. J. Hered. 73: 49-52.
7. Chen, C. C.., M. J. Howarth, R. L. Paterson, & K. J. Kasha. 1984b. Ultrastructure of androgenic microspores of barley during the early stages of anther culture. Can. J. Genet. Cytol. 26: 484-491.
8. Chen, C. C., K. J. Kasha, & A. Marsolais. 1984a. Segmentation patterns and mechanisms of genome multiplication in cultured microspores of barley. Can. J. Genet. Cytol. 26: 473-483.
9. Chen, C. C. & M. H. Lin. 1976. Induction of rice plantlets from anther culture. Bot. Bull. Acad. Sin. 17: 18-24.

10. Chen, C. C. & Y. H. Wu. 1983. Segmentation in microspores of rice during anther culture. Proc. Natl. Sci. Counc. BR. O. C. 7: 151-157.
11. Christensen, J. E., H. T. Homer, & N. R. Lersten. 1972. Pollen wall and tapetal orbicular wall development in Sorghum bicolor (Gamineae). Amer. J. Bot. 59: 43-58.
12. Christensen, J. E. & H. T. Homer, Jr. 1974. Pollen pore development and its spatial orientation during microsporogenesis in the grass Sorghum bicolor. Amer. J. Bot. 61: 604-623.
13. Chu, C. C., C. C. Wang, C. S. Sun, C. Hsu, K. C. Yin, &C. Y. Chu. 1975. Establishment of an efficient medium for anther culture of rice through comparative experiments of the nitrogen sources. Sci. Sin. 18: 659-668.
14. Cornejo-Martin, M. J. & E. Primo-Millo. 1981. Anther and pollen grain culture of rice (Oryza sativa L.) Euphytica 30: 541-546.
15. Dale, P. J. 1975. Pollen dimorphism and anther culture in barley. Planta (Berl.) 127: 213-220.
16. Dickinson, H. G. & J. Heslop-Harrison. 1970. The ribosome cycle, nucleoli, and cytoplasmic nucleoloids in the meiocytes of Lilium. Protoplasma, 69: 187-200.
17. Dunwell, J. M.. &N. Sunderland. 1974a. Pollen ultrastructure in anther cultures of Nicotiana tabacum. I. Early stages of culture. J. Exp. Bot. 25: 352-361.
18. Dunwell, J. M. & N. Sunderland. 1974b. Pollen ultrastructure in anther cultures of Nicotiana tabacum. II. Changes associated with embrogenesis. J. Exp. Bot. 25: 363-373.

19. Dunwell, J. M. & N. Sunderland. 1974c. Pollen ultrastructure in anther cultures of Nicotiana tabacum. III. The first sporophytic division. J. Exp. Bot. 26: 240-252.
20. Dunwell, J. M. & N. Sunderland. 1976a. Pollen ultrastructure in anther cultures of Datura innoxia. I. Division of the presumptive vegetative cell. J. Cell Sci. 22: 469-480.
21. Dunwell, J. M. & N. Sunderland. 1976b. Pollen ultrastucture in anther cultures of Datura innoxia. II. The generative cell wall. J. Cell Sci. 22: 481-491.
22. Dunwell, J. M. & N. Sunderland. 1976c. Pollen ultrastructure in anther cultures of Datura innoxia. III. Incomplete microspore division. J. Cell Sci. 22: 493-501.
23. Echlin, P. & H. Godwin. 1968. The ultrastructure and ontogeny of pollen in Helleborus foetidus L. I. The development of the tapetum and Ubisch bodies. J. Cell Sci. 3: 161-174.
24. Echlin, P. 1971. The role of the tapetum during microsporogenesis of angiosperm. In: Pollen: Development and Physiology. (Heslop-Harrison, J. ed.) pp. 41-61. London, Butterworths.
25. Esau, K. 1977. The flower: reproductive cycle. In: Anatomy of Seed Plant. 2nd ed. (Esau, K. ed.) pp. 403-411. New York, Santa Barbara, London, Sydney, Toronto.
26. Frankel, R. & E. Galun. 1977. Allogamy. In: Pollination Mechanisms, Reproduction and Plant Breeding. (Frankel, R. & Galun, E. ed.)pp. 79-85. Springer-Verlag, Berlin Heidelberg New York.
27. Guha, S. & S. C. Maheshwari. 1964. In Vitro production of embryos from anthers of Datura. Nature 2024: 497-499.
28. Guha-Mukherjee, S. 1973. Genotypic differences in the in vitro formation of embryoids from rice pollen. J. Exp. Bot. 24: 139-144.
29. Heslop-Harrison, J. 1966. Cytoplasmic connexions between angiosperm meiocytes. Ann. Bot. 30: 221-229.
30. Heslop-Harrison, J. 1971. The cytoplasm and its organelles during meiosis. In: Pollen: Development and Physiology. (Heslop-Harrison, J. ed.) pp. 16-29. London Butterworths.
31. Heslop-Harrison, J. & A Mackenzie. 1967. Autoradiography of soluble (2-14C) Thymidine derivatives during meiosis and microsporogenesis in Lilium anthers. J. Cell Sci. 2: 387-400.
32. Heslop-Harrison, J. & H. G. Dickinson. 1969. Time relationships of sporopollenin synthesis associated with tapetum and microspores in Lilium. Planta(Berl.) 84: 199-214.
33. Homer, M. and H. E. Street. 1978. Pollen dimorphism-origin and significance in pollen plant formation by anther culture Ann. Bot. 42: 763-771.
34. Hus, S. C. & C. C. Chen. 1977. Studies on the anther culture of ricei origin of the anther-derived diploid plants. Natl. Sci. Counc. Mon. R. O. C. 5: 834-839.
35. Kress, W. J. & P. E. Stone. 1982. Pollen intine structure, cytochemistry and function in monocots. In: Pollen: Biology & Implication for Plant Breeding. (Mulcahy, D. L. & Ottaviano, E. ed.) pp. 159-163. Elsevier biomedical New York, Amsterdam, Oxford.
36. Lee, J. & C. C. Chen. 1982. Genetic and histological evidence for microspore origin of anther-derived plants of rice. Taiwania, 27: 86-92.
37. Mascarenhas, J. P. 1975. The biochemistry of angiosperm pollen development. Bot. Rev. 241: 258-304.
38. Mepham, R. H. & G. R. Lane. 1970. Observations on the fine structure of developing microspores of Tradescantia bracteata. Protoplasma, 70: 1-20.
39. Miki-Hirosige, H. & S. Nakamura. 1982. Growth & differentiation of amyloplasts during male gamete development f Lilium longiflorum. In: Pollen: Biology & Implication for Plant Breeding. (Mulcahy, D. L. & Ottaviano, B. ed.) pp. 141-148. Elsevier biomedical New York. Amsterdam, Oxford.
40. Niizeki, H. & K. Oono. 1968. Induction of haploid rice plant from anther culture. Proc. Jpn. Acad. 44: 554-557.
41. Nishi, T. & S. Mitsuoko. 1969. Occurence of various ploidy plants from anther and ovary culture of rice plant. Jpn. J. Genet. 244: 341-346.
42. Paterson, K. B. & T. L. Rost. 1981. Callus formation and organogenesis from cultured leaf segments of Crassula argentea:
cytokinin-induced developmental pattern changes. Amer. J. Bot. 68: 965-972.
43. Rashid, A., A. W. Siddiqui, & J. Reinert. 1981. Ultrastructure of embryogenic pollen of Nicotiana tabacum var. Badischer Burley. Protoplasma, 107: 375-385.
44. Rashid, A., A. W. Siddiqui, & J. Reinert. 1982. Subcellullar aspects of origin and structure of pollen embryos of Nicotiana. Protoplasma, 113: 202-208.
45. Rashid, A. & J0 & J. Reinert. 1980. Selection of embryogenic pollen from cold-treated buds of Nicotiana tabacum var. Badischer Burley and their development into embros in cultures. Protoplasma, 105: 161-167.
46. Rashid, A. & J. Reinert. 1981. Differentiation of embryogenic pollen in cold-treated buds of Nicotiana tabacum var. Badischer Burley and nutritional requirements of isolated pollen to form embryo. Protoplasma, 106: 137-144.
47. Reinert, J., Y. P. S. Bajaz, & E. Heberle. 1975. Induction of naploid tobacco plants from isolated pollen. Protoplasma, 814: 191-196.
48. Reynolds, E. S. 1963. The use of lead citrate at high pH as an electron opaque stain in electron microscopy. J. Cell Biol. 17: 208-212.
49. Sangwan, R.S. 1982. The development in vivo and in vitro of Datura microspores: cytophysiological aspects. In: Pollen: Biology & Implication for Plant Breeding. (Mulcahy, D. L. & Ottaviano, E. ed.) pp. 287-294. Amsterdam, Oxford.
50. Spurr, A. R. 1969. A low viscosity epoxy resin embedding medium for electron microscopy. J. Ultrast. Res. 26: 31-34.
51. Sunderland, N. & F. M. Wicks. 1971. Embryoid formation in pollen grains of Nicotiana tabacum. J. Exp. Bot. 22: 213-226.
52. Sunderland, N., G. B. Collins, & J. M. Dunwell. 19714. The role of nuclear fusion on pollen embryogenesis of Datura Innoxia Mill. Planta(Berl) 117: 227-241.
53. Sunderland, N. & J. M. Dunwell. 1977. Anther and pollen culture In: Plant tissue and cell culture. 2nd ed. (Street, H. E. ed.) pp. 223-265. Blackwell Scientific Publication, Oxford.
54. Sunderland, N. & L. J. Evans. 1980. Muticellular pollen formation in cultured barley anthers. II. The A, B, and C pathways. J. Exp. Bot. 31: 501-514.

55. Sunderland, N., M. Roberts, L. J. Evans, & D. C. Wildon. 1979. Multicellular pollen formation in cultured barley anthers. I. Independent division of the generative and vegetative cells. J. Exp. Bot. 30: 1133-1144.
56. Thomas, E., R. N. Konar, & H. E. Street. 1972. The fine structure of the embryogenic callus of Ranunculus sceleratus L. J. Cell Sci. 11: 95-109.
57. Vasil, I. K. & H. C. Aldrich. 1970. A histochemical and ultrastructural study of the ontogeny and differentiation of pollen in Podocarpus macrophyllus D. Don. Protoplasma, 71: 1-37.
58. Woo, S. C., C. M. Su, Ng & I. J. Tung. 1973. Seed formation on induced haploid plant and cytology of anther callus from hybrid rice. Bot. Bull. Acad. Sin. 14: 61-64.
59. Wu, L. & Y. T. Kiang. 1979. Using an isozyme marker to detect pollen-derived plants from anther culture of wild rice. Bot. Bull. Acad. Sin. 20: 97-102.
60. Yeoman, M. M. & P. A. Aitchison. 1977. Growth patterns in tissue (Cllus) cultures. In: Plant tissue and cell culture 2nd ed. (Street, H. E. ed.) pp. 240-268. Blackwell Scientific Publication, Oxford.
61 .黃鈴溶1983。水稻花藥培養時植物生長素對癒合組織形成內再生的影響。國立臺灣大學植物科學研究所碩士論文。
62.吳雅慧1983 .菸草和水稻花藥培養時小孢子發育的比較。國立臺灣大學植物科學研究所碩士論文。
dc.identifier.urihttp://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75523-
dc.description.abstract新竹糯四號水稻(Oryza sativa L . Cv. Hsinchu 4)之花藥從開始培養至20天止,每隔2天取樣,材料處理後以透式電子顯微鏡、掃描式電子顯微鏡及光學顯微鏡觀察其構造之變化。花藥經培養後,有些花粉能發育成為癒合組織,在這過程中小孢子、花粉壁、花藥壁及癒合組織均發生顯著之轉變。子孢子可以對稱或不對稱之方式進行第一次有絲分裂,有時並可發現核融合之現象。癒合組織內之細胞具分生組織之特性,細胞核大而明顯,細胞質稠密並含澱粉體,且細胞分裂旺盛。小孢子在孢子體分化過程中,細胞質與胞器均未退化。花藥壁細胞在培養期間雖有改變,但不分裂。本研究也同時觀察花粉在植株上之正常發育,並作比較。zh_TW
dc.description.abstractCultured anthers Of rice (Oryza sativa L. cv. Hsinchu 4 ) fixed every 2 days through 20 days of culture Were examined by transmission electron microscopy, scanning electron microscopy and light microscopy。During this period, some microspores developed into callus knowing as androgenesis. Remarkable structural changes associated with this development were observced, including microspores callus, pollen wall and anther wall. First division of microspores was either symmetrical or asymmetrical. Nuclear fusion occurred in early sporophytic development had also been found. The cells of callus turned into meristematic cells containing high density of cytoplasm, conspicuous nuclei and amyloplasts. Regression of cytoplasm and organelles did not happen in microspores of rice during sporophytic differentiation. The cells of anther wall did have some changes in cytoplasm, but they did not become callus. The development in of microspores both in vivo and in vitro were also compared 。en
dc.description.provenanceMade available in DSpace on 2021-07-01T08:13:40Z (GMT). No. of bitstreams: 0
Previous issue date: 1984		en
dc.description.tableofcontents中文摘要………………………………………………… 1
英文摘要………………………………………………… 2
緒 言………………………………………………… 3
材料與方法……………………………………………… 6
結 果………………………………………………… 9
討 論………………………………………………… 18
參考文獻………………………………………………… 28
圖片縮寫中英文對照…………………………………… 35
圖片及說明……………………………………………… 37
dc.language.isozh-TW
dc.title水稻花粉發育及花藥培養過程中微細構造之觀察zh_TW
dc.date.schoolyear73-2
dc.description.degree碩士
dc.relation.page56
dc.rights.note未授權
dc.contributor.author-dept生命科學院zh_TW
dc.contributor.author-dept植物科學研究所zh_TW
Appears in Collections:植物科學研究所

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