アサガオの生理学
表紙 トップ アサガオの花成生理学 アサガオの花生理学 アサガオの成長生理学 サイトマップ 連絡先
アサガオ花成生理学文献集
アサガオ花成生理学文献(1967〜1984年の文献)



Arzee,R., J.Gressel and E.Galun. 1970. Flowering in Pharbitis. The influence of actinomycin on growth, incorporation of nucleic acid precursors and autoradiographic patterns. in: ed. G.Bernier, Cellular and Molecular Aspects of Floral Induction. Longman, London. pp.93-107.

Arzee,T., A.Zilberstein and J.Gressel. 1975. Immediate intraplumular distribution of macromolecular syntheses following floral induction in Pharbitis nil. Plant Cell Physiol. 16: 505-511.

Aspinall,D. and I.Husain. 1970. The inhibition of flowering by water stress. Aust. J. Biol. Sci. 23: 925-936.

Bernier,G. 1971. Structural and metabolic changes in the shoot apex in transition to flowering. Can. J. Bot. 49: 803-819.

Bhar,D.S. 1970. In vitro studies of floral shoot apices of Pharbitis nil. Can. J. Bot. 48: 1355-1358.

Blondon,F. and H.Harada. 1972. Processus preparatoire et processus realisateur necessaires pour obtenir la floraison du Pharbitis nil Chois. C.R. Acad. Sc. Paris. Ser.D 274: 2578-2581.

Bollig,I. 1975. Photoperiodic time measurement and circadian leaf movement in Pharbitis nil controlled by the same clock? Z. Pflanzenphysiol. 77: 54-69.

Bollig,I. 1977. Different circadian rhythms regulate photoperiodic flowering response and leaf movement in Pharbitis nil (L.) Choisy. Planta 135: 137-142.

Bose,T.K. and H.Harada. 1970. Effect of temperature and growth regulating substances on flowering of Pharbitis nil. Bot. Mag. Tokyo. 83: 281-284.

Buban,T., U.Seitz and U.Seitz. 1975. Effect of bromacil treatment on the synthesis of nucleic acids and flower formation in Pharbitis nil. Acta Bot. Acad. Sci. Hung. 20: 215-220.

Butenko,R.G. 1968. Pharbitis. in: Plant Tissue Culture and Plant Morphogenesis. Israel Program for Scientific Translations. Jerusalem.

Choshi,A. 1970. Flowering responses of Pharbitis nil seedlings cultured in test tubes to a single dark period. Rep. Fac. Sci. Shizuoka Univ. 5: 55-61.

Choshi,A. 1971. Flowering responses of Pharbitis nil plumules excised after a single dark period. Rep. Fac. Sci. Shizuoka Univ. 6: 87-94.

Choshi,A. 1979. Effects of IAA on the flowering of excised plumules in Pharbitis nil. Rep. Fac. Sci. Shizuoka Univ. 13: 97-104.

Choshi,A. 1980. Effects of gibberellic acid on the flowering of excised plumules in Pharbitis nil. Rep. Fac. Sci. Shizuoka Univ. 14: 47-54.

Evans,L.T. and R.W.King. 1969. Role of phytochrome in photoperiodic induction of Pharbitis nil. Z. Pflanzenphysiol. 60:277-288.

Felippe,G.M. 1977. Effect of insect juvenile hormone upon flowering. Z.Pflanzenphysiol. 85: 269-271.

Friend,D.J.C. 1975. Light requirements for photoperiodic sensitivity in cotyledons of dark-grown Pharbitis nil. Physiol. Plant. 35: 286-296.

Gressel,J., A.Zilberstein and T.Arzee. 1970. Bursts of incorporation into RNA and ribonuclease activities associated with induction of morphogenesis in Pharbitis. Develop. Biol. 22: 31-42.

Gressel,J., A.Zilberstein, D.Porath and T.Arzee. 1980. Demonstration with fiber illumination that Pharbitis plumules also perceive flowering photoinduction. in: ed. J.de Greef. Photoreceptors and Plant Development. Antwerpen Univ. Press. Antwerpen, pp.525-530.

Gressel,J., A.Zilberstein, L.Strausbauch and T.Arzee. 1978. Photoinduction of Pharbitis flowering: Relationship to RNA synthesis and other metabolic events. Photochem. Photobiol. 27: 237-240.

Groenewald,E.G. and J.H.Visser. 1974. The effect of certain inhibitors of prostaglandin biosynthesis on flowering of Pharbitis nil. Z. Pflanzenphysiol. 71: 67-70.

Groenewald,E.G. and J.H.Visser. 1978. The effect of arachidonic acid, prostaglandins and inhibitors of prostaglandin synthetase, on the flowering of excised Pharbitis nil shoot apices under different photoperiods. Z. Pflanzenphysiol. 88:423-429.

Harada,H. 1967. Flower induction in excised shoot apices of Pharbitis and Chrysanthemum cultured in vitro. Nature 214: 1027-1028.

Harada,H. 1969. Effects of decapitation and application of growth substances on flower initiation. Naturewissenshaften 9: 468-469.

Harada,H., T.K.Bose and J.Cheruel. 1971. Effects of four growth regulating chemicals on flowering of Pharbitis nil. Z. Pflanzenphysiol. 64: 267-269.

Hicklenton,P.R. and P.A.Jolliffe. 1980. Carbon dioxide and flowering in Pharbitis nil Choisy. Plant Physiol. 66: 13-17.

Ikeda,K. and K.Kimura. 1967. The temperature dependence of floral initiation. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Imamura,S. 1967a. Physiology of Flowering in Pharbitis nil. Jap.Soc.Plant Physiol. Kyoto

Imamura,S. 1967b. Photoperiodic induction and the floral stimulus. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

今村駿一郎,古谷雅樹,瀧本敦. 1978. アサガオの開花研究を始めたころ. 科学 48: 83-90.

Imamura,S. and Y.Marushige. 1967. The morphology and development of floral primordia. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Kadman-Zahavi,A. 1970. The effects of amitrole on flower induction and on vegetative development in Pharbitis nil. Isr. J. Bot. 19: 558-560.

Kaihara,S. and A.Takimoto. 1979. Environmental factors controlling the time of flower-opening in Pharbitis nil. Plant Cell Physiol. 20:1659-1666.

Kaihara,S. and A.Takimoto. 1980. Studies on the light controlling the time of flower-opening in Pharbitis nil. Plant Cell Physiol. 21: 21-26.

Kimura,K. and H.B.Tukey,Jr. 1971. Influence of mist on floral initiation of Pharbitis nil. Ber. Ohara Inst. Landwirt. Biol. Okayama Univ. 15: 61-67.

King,R.W. 1974. Phytochrome action in the induction of flowering in short-day plants: Effect of photoperiod quality. Aust. J. Plant Physiol. 1:445-457.

King,R.W. and L.T.Evans. 1969. Timing of evocation and development of flowers in Pharbitis nil. Aust. J. Biol. Sci. 22:559-572.

King,R.W., L.T.Evans and I.F.Wardlaw. 1968. Translocation of the floral stimulus in Pharbitis nil in relation to that of assimilates. Z. Pflanzenphysiol. 59: 377-388.

King,R.W., E.Schafer, B.Thomas and D.Vince-Prue. 1982. Photoperiodism and rhythmic response to light. Plant Cell Environ. 5: 395-404.

King,R.W. and D.Vince-Prue. 1978. Light requirement, phytochrome and photoperiodic induction of flowering of Pharbitis nil Chois I. No correlation between photomorphogenetic and photoperiodic effects of light pretreatment. Planta 141:1-7.

King,R.W., D.Vince-Prue and P.H.Quail. 1978. Light requirement, phytochrome and photoperiodic induction of flowering of Pharbitis nil Choisy III. A comparison of spectrophotometric and physiological assay of phytochrome transformation during induction. Planta 141:15-22.

Kiss,H.G. and R.E.Koning. 1984. Endogenous levels and transport of 1-sminocyclopropane-1-carboxylic acid in stamens of Ipomoea nil (Convolvulaceae). Plant Physiol. 90:157-161.

Konishi,M. 1972. Differences between effects of spectral and fluorescent or filtered monochromatic lights on inducing photoperiodic sensitivity of Pharbitis nil. 生物環境調節 9:80-88.

Linderbaum,S. and Kadman-Zahavi,A. 1973. A possible cause of flowering inhibition in partially illuminated seedlings of Pharbitis nil. Isr. J. Bot. 22:199-200.

Lumsden,P., B.Thomas and D.Vince-Prue. 1982. Photoperiodic control of flowering in dark-grown seedling of Pharbitis nil cultivar Violet: The effect of skeleton and continuous light photoperiods. Plant Physiol. 70: 277-282.

Maeng,J. 1982. Immunological analysis of proteins in the leaf of Phatrbitis nil (cultivar Violet) during photoinduction of flowering. Korean J. Bot. 25: 169-174.

Marushige,K. and A.Takimoto. 1967. Preparation for response to photoperiod. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Matsushima,H., T.Itoyama, Y.Mashiko and T.Mizukoshi. 1974. Critical time of floral differentiation in Pharbitis nil shoot apex. in: Plant Growth Substances 1973. Hirokawa Publ., Tokyo. pp.967-973.

南谷忠志,中山至大. 1970. 無菌培養花芽のふるまいに対する諸要因の影響. 宮崎大学教育学部紀要自然科学 98: 6-20.

Miyoshi,Y., M.Furuya and A.Takimoto. 1974. Dark transformation of phytochrome in cotyledons of Pharbitis nil. Plant Cell Physiol. 15: 1115-1123.

Moshkov,B.S. and I.V.Selitskaya. 1979. Specifities of actinorhythmic induction of flowering of Pharbitis nil. Bot. Zh. 64: 211-217.

Murakami,Y. 1973. The role of gibberellins in the growth of floral organs of Pharbitis nil. Plant Cell Physiol. 14:91-102.

Nakayama,S. 1973. Effect of ultraviolet-light interruption on flowering in Pharbitis seedlings. Bot. Mag. Tokyo. 86: 47-49.

Nakayama,S. and T.Hashimoto. 1973. Effects of abscisic acid on flowering in Pharbitis nil. Plant Cell Physiol. 14: 419-422.

Nakayama,S., H.Ono and A.Hashizume. 1981. Enhancement of flowering by acetic acid bacteria-oxidized products in Pharbits nil seedlings. Plant Cell Physiol. 22:1231-1235.

Nguyen,J. 1975. Determination in vivo des variations du catabolisme purin que en fonction des dur"es d'obscurit" ou de lumier=, dans les cotyledons du Pharbitis nil Chois. C.R.Acad. Sci. (Paris), 281D:1709-1712.

Nishino,E. 1976. Developmental anatomy of foliage leaves, bracts, calyx and corolla in Pharbitis nil. Bot. Mag. Tokyo. 89: 191-209.

Ogawa,Y. 1977. Difference in effectiveness of various gibberellins on shoot elongation and flower formation in Pharbitis nil Chois. J. Japan. Soc. Hort. Sci. 46:117-122.

Ogawa,Y. 1980. Effect of chilling at germinating stage on the flowering response of Pharbitis nil Choisy. J. Japan. Soc. Hor. Sci. 49: 102-106.

Ogawa,Y. 1981. Stimulation of the flowering of Pharbitis nil Choisy by gibberellin A3: Time dependent action at the apex. Plant Cell Physiol. 22:675-681.

Ogawa.Y. and R.W.King. 1979a. Indirect action of benzyladenine and other chemicals on flowering of Pharbitis nil Chois: Action by interference with assimilate translocation from induced cotyledons. Plant Physiol. 63: 643-649.

Ogawa,K. and R.W.King. 1979b. Establishment of photoperiodic sensitivity by benzyladenine and a brief red irradiation in dark grown seedlings of Pharbitis nil Chois. Plant Cell Physiol. 20: 115-122.

Ogawa,Y. and R.W.King. 1980. Flowering in seedlings of Pharbitis nil induced by benzyladenine applied under a non-inductive daylength. Plant Cell Physiol. 21:1109-1116.

Ogawa,Y. and J.A.D.Zeevaart. 1967. The relation of growth regulators to flowering. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Paraska,J.R. and C.Spector. 1974. The initiation of an endogenous rhythm affecting flower bud formation on Pharbitis nil. Physiol. Plant. 32: 62-65.

Purohit,A.N. and E.B.Tregunna. 1974. Effect of carbon dioxide on Pharbitis, Xantium, and Silene in short days. Can. J. Bot. 52: 1283-1291.

Rombach,J., J.Bensink and N.Katsura. 1982. Phytochrome in Pharbitis nil during and after de-etiolation. Physiol. Plant. 56: 251-258.

Saji,H., M.Furuya and A.Takimoto. 1984. Photoperiod preceding a flower-inductive dark period in dark-grown seedling of Pharbitis nil. Plant Cell Physiol. 25: 715-720.

Saji,H., D.Vince-Prue and M.Furuya. 1983. Studies on the photoreceptors for the promotion and inhibition of flowering in dark-grown seedling of Pharbitis nil. Plant Cell Physiol. 24: 1183-1189.

真田哲朗. 1980a. アサガオの第1花芽着位節以下の各節位における花芽形成. 東北大農研報 31:1-7.

真田哲朗. 1980b. アサガオの主軸茎頂端芽における花芽形成. 東北大農研報 31:9-16.

島津斉徳, 樫村勝司, 小野沢芳郎, 松永誠. 1969. アサガオ品種の日長反応. 茨大農学術報告 17:1-6.

Shinozaki,M. 1972. Floral initiation of Pharbitis nil, a short-day plant, under continuous high-intensity light. Plant Cell Physiol. 13: 391-393.

Shinozaki,M. 1974. Floral initiation and growth of Pharbitis nil, a short-day plant, under continuous light. In: Mechanism of Regulation of Plant Growth. eds. by R.L.Bieleski, A.R.Ferguson and M.M.Cresswell. pp.299-303. The Royal Soc. of New Zeeland, Wellington.

Shinozaki,M. 1976. Comparative studies of long-day flowering by continuous high-intensity light and CCC in Pharbitis nil. The 9th International Conference on Plant Growth Substances, Lausanne. Abstracts pp. 353-355.

Shinozaki,M., M.Hikichi, K.Yoshida, K.Watanabe and A. Takimoto. 1982. Effect of high-intensity light given prior to low-temperature treatment on the long-day flowering of Pharbitis nil. Plant Cell Physiol. 23: 473-477.

Shinozaki,M. and A.Takimoto. 1982a. The role of cotyledons in flower initiation of Pharbitis nil at low temperatures. Plant Cell Physiol. 23: 403-408.

Shinozaki,M. and A.Takimoto. 1982b. Correlation between long-day flowering and root elongation in Pharbitis nil, strain Kidachi. Plant Cell Physiol. 23: 1055-1061.

Shinozaki,M. and A.Takimoto. 1983. Effect of some growth resulators and benzoic acid derivatives ob flower initiation and root elongation of Pharbitis nil cultivar Kidachi. Plant Cell Physiol. 24: 433-440.

Simmons,H.A. 1978. Effects of diurnal and bidiurnal photoperiodic treatments on mitosis in Pharbitis nil. J. Interdiscip. Cycle Res. 9:97-103.

Simmons,H.A. and M.W.Coulter. 1979. Responses of normal and dwarf Pharbitis nil to an extended dark period and gibberellic acid. Plant Cell Physiol. 20:1671-1673.

Spector,C. and J.R.Paraska. 1973. Rhythmicity of flowering in Pharbitis nil. Physiol. Plant. 29: 402-405.

Stiles,J.I.Jr. and P.J.Davies. 1976a. RNA metabolism in apices of Pharbitis nil during floral induction. Plant Cell Physiol. 17: 825-833.

Stiles,J.I.Jr. and P.J.Davies. 1976b. Qualitative analysis by isoelectric focusing of the protein contents of Pharbitis nil apecies and cotyledons during floral induction. Plant Cell Physiol. 17: 855-857.

Suge,H. 1972. Inhibition of photoperiodic floral induction in Pharbitis nil by ethylene. Plant Cell Physiol. 13: 1031-1038.

Suge,H. 1974. Nature of the ethylene inhibition of flowering in Pharbitis nil. in: Plant Growth Substances 1973. Hirokawa Publ., Tokyo. pp.960-966.

Suge,H. 1980. Inhibition of flowering and growth in Pharbitis nil by the growth retardant ancymidol. Plant Cell Physiol. 21:1187-1192.

Takeba,G. and A.Takimoto. 1971. Metabolism of (-)-kaurene-3H and (-)-kaurenol-3H during the photoperiodic floral induction in Pharbitis nil. Plant Cell Physiol. 12: 81-88.

Takimoto,A. 1967a. Spectral dependence of different light reactions associated with photoperiodic response in Pharbitis nil. Bot. Mag. Tokyo 80:213-220.

Takimoto,A. 1967b. Studies on the light affecting the initiation of endogenous rhythms concerned with photoperiodic responses in Pharbitis nil. Bot. Mag. Tokyo 80:241-247.

Takimoto,A. 1967c. General methods of experimentation with Pharbitis nil. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Takimoto,A. 1967d. Effects of low-intensity light on the photoperiodic response. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Takimoto,A. 1967e. Timing mechanisms in photoperiodism. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Takimoto,A. 1967f. The spectral dependence of photoperiodic responses. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Takimoto,A. 1969. Pharbitis nil Chois. in: ed. L.T.Evans, The Induction of Flowering, Some Case Histories. Cornell Univ. Press, Ithaca, N.Y. pp.90-115.

Templeton,K.M. and M.G.Cline. 1979. Flowering of shoot apecies of Pharbitis nil, cultured in vitro. In vitro 15:178.

Vince-Prue,D., R.W.King and P.H.Quail. 1978. Light requirement, phytochrome and photoperiodic induction of flowering of Pharbitis nil: II. A critical examination of spectrophotometric assays of phytochrome transformations. Planta 141: 9-14.

Wada,K. 1967. Studies on the flower initiation in Pharbitis seedlings: I. Ages of shoot apices and initiation rates of leaf primordia at the shoot apex. Bot. Mag. Tokyo 80: 161-171.

Wada.K. 1968a. Studies on the flower initiation in Pharbitis seedlings, with special reference to the early stimulation of cell division at the flower-induced shoot apex. Bot. Mag. Tokyo. 81: 46-47.

Wada,K. 1968b. Studies on the flower initiation in Pharbitis sedlings: II. Influencs of Gamma-ray irradiation. Bot. Mag. Tokyo 81: 198-209.

Wada.K. 1968c. Studies on the flower initiation in Pharbitis seedlings: III. Influences of X-ray irradiation. Bot. Mag. Tokyo 81: 251-258.

Wada,K. 1968d. Studies on the flower initiation and development of flower primordia of Pharbitis nil, with special reference to the time of arrival of flowering stimulus at plumule. Rep. Fac. Sci. Shizuoka Univ. 1: 83-89.

Wada,K. 1969a. A treatise on influences of acate X- or gamma-irradiation in the flower initiation of Pharbitis seedlings. Rep. Fac. Sci. Shizuoka Univ. 4: 61-66.

Wada,K. 1969b. Studies on the flower initiation in Pharbitis seedlings: IV. Influence s of localized x- or Gamma irradiation. Bot. Mag. Tokyo 82: 1-5.

Wada,K. 1973. Floral initiation under continuous light in Pharbitis nil, a short-day plant, with special reference to retarded growth and senescence of cotyledons. Rep. Fac. Sci. Shizuoka Univ. 8: 149-155.

Wada,K. 1974. Floral initiation under continuous light in Pharbitis nil, a typical short-day plant. Plant Cell Physiol. 15: 381-384.

Yoshida,K., K.Umemura, K.Yoshinaga and Y.Oota. 1967. Specific RNA from photoperiodically induced cotyledons of Pharbitis nil. Plant Cell Physiol. 8: 97-108.

Zeevaart,J.A.D. and K.Marushige. 1967. Biochemical approaches. in: ed. S.Imamura, Physiology of Flowering in Pharbitis nil. Japanese Society of Plant Physiologists, Kyoto.

Zilberstein,A., T.Arzee and J.Gressel. 1973a. Thymidine incorporation into Pharbitis DNA. I. Adenosine effects on degradation by thymidine phosphorylase system. Cell Diff. 2:205-211.

Zilberstein,A., T.Arzee and J.Gressel. 1973b. Thymidine incorporation into Pharbitis DNA. II. Adenosine enhancement in vivo; total incorporation versus autoradiography. Cell Diff. 2:213-220.


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