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(1985年以降の文献)



Abou-Haidar,S.S., E.Miginiac and R.M.Sachs. 1985. [14C]-assimilate partitioning in photoperiodically induced seedlings of Pharbitis nil. The effect of benzyladenine. Physiol. Plant. 64: 265-270.

Aharoni,M., E.E.Goldschmidt and A.H.Halevy. 1985. Changes in metabolites of acetate-1-14C following floral induction of Pharbitis nil plants. J. Plant Physiol. 120: 145-152.

Amagasa,T., M.Ogawa and S.Sugai. 1992. Effects of aminooxyacetic acid and its derivatives on flowering in Pharbitis nil. Plant Cell Physiol. 33: 1025-1029.

Amagasa,T. and H.Suge. 1987. The mode of flower-inhibiting action of ethylene in Pharbitis nil. Plant Cell Physiol. 28:1159-1161.

Araki,T. and Y.Komeda. 1990. Electrophoretic analysis of flower-evoked meristems of Pharbitis nil Coisy cv. Violet. Plant Cell Physiol. 31: 137-144.

Bassett.C.L. and C.P.Mothershed. 1987. Changes in polypeptide profiles during anthesis in the Japanes morning glory (Ipomoea nil). HortScience 22:716.

Bassett,C.L., C.P.Mothershed and G.A.Galau. 1988. Floral-specific polypeptides of the Japanese morning glory. Planta 175:221-228.

Bassett,C.L., C.P.Mothershed and G.A.Galau. 1991. Polypeptide profiles from cotyledons of developing and photoperiodically induced seedlings of the Japanese morning glory (Pharbitis nil). J. Plant Growth Regul. 10:147-155.

Bonner,B.A., E.M.Gifford and N.-M.R.Reed. 1991. Differential RNA synthesis in the shoot apex of Pharbitis nil during floral evocation. Amer. J. Bot. 78: 401-407.

Borochov,A., H.Spiegelstein and A.H.Halevy 1995. Involvement of signal transduction pathway components in photoperiodic flower induction in Pharbitis nil. Physiol. Plant. 95:393-398.

Coulter,M.W. and H.A.Simmons. 1989. Photoperiodic effects on gibberellin related substances in a dwaef mutant of Pharbitis nil. Indian J. Plant Physiol. 31:331-342.

Cymerski-M. and J.Kopcewicz. 1994. Labile phytochrome and photoperiodic flower induction in Pharbitis nil Chois. The irreversible phytochrome hypothesis. Acta Soc. Bot. Pol. 63: 275-278

Cymerski,M. and J.Kopcewicz. 1995. KCN blocks the inhibiting effect of red light night-break on the flowering of Pharbitis nil. J. Plant Physiol. 145: 189-190.

Czaplewska,J. and J.Kopcewicz. 1991. The effect of photoperiodic treatments on mitotic activity in Pharbitis nil Chois. Acta Soc. Bot. Pol. 60:133-138.

Czaplewska,J. and J.Kopcewicz. 1994. Mitotic activity as an early symptom of flower evocation in Pharbitis nil Chois. Acta Physiol. Plant. 16:39-44.

Cymerski M. Kopcewicz J. 1995. Photoperiodic induction of plant flowering: I. Phytochrome in the control of short day plants flowering. [Polish] Wiadomosci Botaniczne 39. 39-48.

Dai,Y.-R. and J.Wang. 1987. Relation of polyamine titer to photoperiodic induction of flowering in Pharbitis nil. Plant Sci. 51:135-139.

Evans,L.T., O.M.Heide and R.W.King. 1986. A semidian rhythm in the flowering response of Pharbitis nil to far-red light: II. The involvement of phytochrome. Plant Physiol. 80: 1025-1029.

Felsheim,R.F. and A.Das. 1992. Structure and expression of a heat-shock protein 83 gene of Pharbitis nil. Plant Physiol. 100: 1764-1771.

Friedman,H., E.E.Goldschmidt and A.H.Halevy. 1987. Proteins in phloem exudates from photoperiodically induced Pharbitis nil seedlings. J. Plant Physiol. 130: 471-476.

Friedman,H., E.E.Goldschmidt and A.H.Halely. 1989. Involvement of calcium in the photoperiodic flower induction process of Pharbitis nil. Plant Physiol. 89:530-534.

Friedman,H., E.E.Goldschmidt, H.Spiegelstein and A.H.Halevy. 1992. A rhythm in the flowering response of photoperiodically-induced Pharbits nil to agents affecting cytosolic calcium and pH. Physiol. Plant. 85: 57-60.

Friedman,H., H.Spiegelstein, E.E.Goldschmidt and A.H.Halevy. 1990. Flowering response of Pharbitis nil to agents affecting cytoplasmic pH. Plant Physiol. 94:114-449.

Galoch,E., J.Czaplewska and J.Kopcewicz. 1995. Flower-promoting activity of gibberellin A3 in Pharbitis nil apex cultures exposed to various photoperiods. Acta Physiol. Plant. 17:71-76.

Galoch E. Burkacka Laukajtys E. Kopcewicz J. 1996. Effect of cytokinins on flower differentiation in cultured plantlets of Pharbitis nil Chois. Acta Physiologiae Plantarum 18. 223-227.

Halevy,A.H., H.Spiegelstein and E.E.Goldschmidt. 1991. Auxin inhibition of flower induction of Pharbitis is not mediated by ethylene. Plant Physiol. 95: 652-654.

Hao,N.-B., Y.-Z.Zhang, Q.-Y.Ge, K.-H.Tan and H.-G.Zhu. 1988. Effect of photoperiodic induction of the protein synthesis of cotyledons and the morphology of apical meristem of Pharbitis nil plant. Acta Bot. Sin. 30:292-296.

Heide,O.M., R.W.King and L.T.Evans. 1986. A semidian rhythm in the flowering response of Pharbitis nil to far-red light: I. Phasing in relation to the light-off signal. Plant Physiol. 80: 1020-1024.

Heide,O.M., R.W.King and L.T.Evans. 1988. The semidian rhythm in flowering response of Pharbitis nil in relation to dark period time measurement and to a circadian rhythm. Physiol. Plant. 73:286-294.

Herbert,R.J., D.Francis and J.C.Ormrod. 1992. Cellular and morphological changes at the terminal shoot apex of the short-day plant Pharbitis nil during the transition to flowering. Physiol. Plant. 86: 85-92.

Heyde,N.M. and J.Rombach. 1988. Flower induction in norflurazon-treated Pharbitis nil: photo-induction of photoperiodic sensitivity in seedlings grown in vitro and daylength sensitivity in partly bleached potted plants. Acta Bot. Neerl. 37: 371-377.

平井伸博. 1992. アオウキクサとアサガオの花成誘導に関与する物質. 植物の化学調節 27: 67-73.

Hirai,N., Y.Kojima, K.Koshimizu, M.Shinozaki and A.Takimoto. 1993. Accumulation of phenylpropanoids in cotyledons of morning glory (Pharbitis nil) seedlings during the induction of flowering by poor nutrition. Plant Cell Physiol. 34:1039-1044.

Hirai,N., Y.Kojima, M.Shinozaki, K.Koshimizu, N.Murofushi and A.Takimoto 1995a. Accumulation of ascorbic acid in the cotyledons of morning glory (Pharbitis nil) seedlings during the induction of flowering by low-temperature treatment and the effect of prior exposure to high-intensity light. Plant Cell Physiol. 36:1265-1271.

Hirai,N., Y.Kuwano, Y.Kojima, K.Koshimizu, M.Shinozaki and A.Takimoto. 1995b. Increase in the activity of phenylalanine ammonia-lyase during the non-photoperiodic induction of flowering in seedlings of morning glory (Pharbitis nil). Plant Cell Physiol. 36:291-297.

Hirai,N., M.Yamamuro, K.Koshimizu, M.Shinozaki and A.Takimoto. 1994. Accumulation of phenylpropanoids in the cotyledons of morning glory (Pharbitis nil) seedlings during the induction of flowering by low temperature treatment, and the effect of precedent exposure to high-intensity light. Plant Cell Physiol. 35:691-695.

Hirasawa,E. and A.Shimada. 1994. The photoresponse of s-adenosylmethionine decarboxylase activity in leaves of Pharbitis nil. Plant Cell Physiol. 35:505-508.

Inagaki,Y., Y.Hisatomi, T.Suzuki, K.Kasahara and S.Iida. 1994. Isolation of a Suppressor-mutator/Enhancer-like transposable element, Tpn1, from Japanese morning glory bearing variegated flowers. Plant Cell 6:375-383.

Ishimaru A. Takeno K. Shinozaki M. 1996. Correlation of flowering induced by low temperature and endogenous levels of phenylpropanoids in Pharbitis nil: A study with a secondary-metabolism mutant. J. Plant Physiol. 148. 672-676.

Ishioka,N. and S.Tanimoto. 1994. Possible involvement of spermidine in floral-bud formation in Pharbitis nil apex cultures. Bull. Fac. Agr., Saga Univ. 76:95-98.

Ishioka,N., S.Tanimoto and H.Harada. 1990. Flower-inducing activity of phloem exudate in cultured apecies from Pharbitis seedlings. Plant Cell Physiol. 31: 705-709.

Ishioka,N., S.Tanimoto and H.Harada. 1991a. Roles of nitrogen and carbohydrate in floral-bud formation in Pharbitis apex cultures. J. Plant Physiol. 138: 573-576.

Ishioka,N., S.Tanimoto and H.Harada. 1991b. Flower-inducing activity of phloem exudates from Pharbitis cotyledons exposed to various photoperiods. Plant Cell Physiol. 32: 921-924.

Jia,S.-R. and N.-H.Chua. 1992. Somatic embryogenesis and plant regeneration from immature embryo culture of Pharbitis nil. Plant Science 87: 215-223.

Jin,S.-P., S.-M.Jin, G.-Y. Cao and X.-C.Ren. 1986a. The relationship between flowering induction and the changes of some phosphatase activities in Pharbitis nil. Acta Bot. Sin. 28: 492-497. (in Chinese).

Jin,S.-P., S.-M.Jin, H.-K.Lian and X.-C.Ren. 1986b. The relationship between flowering induction and the level of adenosine triphosphate in Pharbitis nil. Acta Bot. Sin. 28: 381-386. (in Chinese).

Kadman-Zahavi,A. and D.Peiper. 1986. Effects of moonlight on flower induction in Pharbitis nil. Israel J. Bot. 35:65.

Kadman-Zahavi,A. and D.Peiper. 1987. Effects of moonlight on flower induction in Pharbitis nil, using a single dark period. Ann. Bot. 60:621-623.

貝原純子. 1989. アサガオの開花と植物ホルモン. 化学と生物 27:71-73.

Kaihara S. Kozaki A. Takimoto A. 1989. Flower-inducing activity of water extracts of various planr species on particular Pharbitis-nil. Plant Cell Physiol. 30. 1023-1028.

Kaihara S. Takimoto A. 1990. Interaction between L-pipecolic acid and water extracts of various plant species in floral induction of Lemna-paucicostata. Plant Cell Physiol. 31. 1059-1061.

Kamachi,S. and E.Hirasawa 1995. Sensitivity to humidity and temperature in darkness of the photoinduction S-adenosyl-L-methionine decarboxylase activity in leaves of Pharbitis nil. Plant Cell Physiol. 36:915-917

Kamuro,Y., K.Yotsumoto, S.-K.Lee and S.Marumo. 1990. Marked inhibition of floral bud initiation by optically active abscisic acid in Pharbitis nil. Agric. Biol. Chem. 54:3363-3365.

Khin Lay Swe, M.Shinozaki and A.Takimoto. 1985. Varietal differences in flowering behavior of Pharbitis nil Chois. Mem. Coll. Agric., Kyoto Univ. 126: 1-20.

Kim K C. Lee J H. Hur Y. Maeng J. 1996. Flower-inducing activity in the phloem exudate and gene expression specific to photoperiodic floral induction in Pharbitis cotyledons. J. Plant Biol. 39. 257-263.

Kim K C. Maeng J. 1995. Photoperiodic flora induction in Pharbitis cotyledons affected by polyamines and ethylene. J. Plant Biol. 38. 227-234.

Kim,S.H., M.W.Yi and J.Maenga. 1994. Effects of electric current on flowering in Pharbitis and floral stimulus activity in the phloem exudate of cotyledons. J. Plant Biol. 37:159-166.

King,R.W., L.T.Evans and O.M.Heide. 1986. Flowering of Pharbitis nil is controlled by an endogenous semidian rhythm. Plant Cell Environ. 9: 345-347.

King,R.W., R.P.Pharis and L.N.Mander. 1987. Gibberellins in relation to growth and flowering in Pharbitis nil Cois. Plant Physiol. 84: 1126-1131.

King,R.W., M.Shinozaki, A.Takimoto and Khin Lay Swe. 1994. Genes for dwarfing and photoperiod flowering response in Pharbitis nil Choisy. J. Plant Res. 107:215-219.

Kiss,H.G. and R.E.Koning. 1990. Emasculation effects on filament growth in Ipomoea nil (Convolvulaceae). Amer. J. Bot. 77:41-45.

Kiss,H.G., R.E.Koning and J.Daie. 1991. Transort of IAA and ACC in floral organs of Ipomoea nil (Convolvulaceae). Amer. J. Bot. 78:672-679.

Knapp,P.H., S.Sawhney, M.M.Grimmett and D.Vince-Prue. 1986. Site of perception of the far-red inhibition of flowering in Pharbitis nil. Plant Cell Physiol. 27: 1147-1152.

Koning,R.E. 1986a. The role of ethylene in corolla unfolding in Ipomoea nil (Convolvulaceae). Amer. J. Bot. 73:152-155.

Koning,R.E. 1986b. Acid-induced filament elongation in Ipomoea nil (Convolvulaceae). Amer. J. Bot. 73:1755-1759.

Koning,R.E. and M.M.Raab. 1987. Parameters of filament elongation in Ipomoea nil (Convolvulaceae). Amer. J. Bot. 74:510-516.

Krishana,P., R.F.Felsheim, J.C.Larkin and A.Das. 1992. Structure and light-induced expression of a small heat-shock protein gene of Pharbitis nil. Plant Physiol. 100: 1772-1779.

Kulikowska-Gulewska-H; Cymerski-M; Czaplewska-J; Kopcewicz-J 1995. IAA in the control of photoperiodic flower induction of Pharbitis nil Chois. Acta Societatis Botanicorum Poloniae 64(1): 45-50

Kwon,H.-J., K.-C.Son and E.-G.Gu. 1994. Influence of auxin, ethylene, and polyamines on the flowering induction of morning glory (Pharbitis nil Chois. cv. Violet). J. Korean Soc. Hort. Sci. 35:258-264. (in Korean)

Larkin,J.C., R.Felsheim and A.Das. 1990. Floral determination in the terminal bud of the short-day plant Pharbitis nil. Dev. Biol. 137:434-443.

Lay-Yee,M., R.M.Sachs and M.S.Reid. 1987a. Changes in cotyledon mRNA during floral induction of Pharbitis nil cv. Violet. Planta. 171:104-109.

Lay-Yee,M., R.M.Sachs and M.S.Reid. 1987b. Changes in cotyledon mRNA during ethylene inhibition of floral induction in Pharbitis nil strain Violet. Plant Physiol. 84:545-548.

Lee,H.S.J., D.Vince-Prue and R.E.Kendrick. 1987. Phase shifting effects in the photoperiodic rythm of flowering in dark-grown seedling of Pharbitis nil Choisy. Plant Cell Physiol. 28: 93-100.

Li,L.-W. and Tan,K.H. 1990. Changes in the protein synthesis of isolated mitochondria from cotyledons of Pharbitis nil caused by photoperiodic flower induction. Chin. J. Bot. 2: 130-134.

Li,L.-W. and Tan,K.H. 1991. Specific protein occurrence related with photoperiodic flower induction in the cotyledons of Pharbitis nil cultivar Violet. SCIENCE IN CHINA SERIES B CHEMISTRY LIFE SCIENCES & EARTH SCIENCES 34(5): 570-575

Lumsden,P.J. and M.Furuya. 1986. Evidence for two actions of light in the photoperiodic induction of flowering in Pharbitis nil. Plant Cell Physiol. 27: 1541-1551.

Lumsden,P.J., D.Vince-Prue and M.Furuya. 1986. Phaseshifting of the photoperiodic flowering response rhythm in Pharbitis nil by red-light pulses. Physiol. Plant. 67: 604-607.

Lumsden,P.J., J.A.Youngs, B.Thomas and D.Vince-Prue 1995. Evidence that photoperiodic, dark time measurement in Pharbitis nil involves a circadian rather than a semidian rhythm. Plant Cell Environ. 18:1403-1410.

Nakanishi,F. and T.Fujii. 1992. Appearance of peroxidase isozymes in floral-initiated shoot apecies of Pharbitis nil. Physiol. Plant. 86:197-201.

Nakanishi,F., T.Kusumi, Y.Inoue and T,Fujii 1995. Dihydrokaempferol glucoside from cotyledons promotes flowering in Pharbitis nil. Plant Cell Physiol. 36:1303-1309.

Ogawa,Y. 1988. Effect of temperature and gibberellin A3 on flowering in Pharbitis nil Choisy. J. Japan. Soc. Hort. Sci. 57:475-480.

Ogawa,Y. 1992. Influences of radiation intensity, plant age and benzyladenine on photoperiodic flowering of Pharbitis nil seedligs. Bull. Bioresources, Mie Univ. 7:83-90.

Ogawa,Y. 1993a. Effects of cotyledon area and gibberellin A3 on photoperiodic flower induction in Pharbitis nil seedligs. Bull. Bioresources, Mie Univ. 10:195-200.

Ogawa,Y. 1993b. Movement of floral stimulus in the cotyledon and petiole of Pharbitis nil seedligs. Bull. Bioresources, Mie Univ. 10:201-207.

Ogawa,Y. 1993c. Flowering responses of cotyledonary buds in Pharbitis nil seedligs. Bull. Bioresources, Mie Univ. 10:209-214.

Ogawa,Y. 1993d. Rhythmic changes in photoperiodic flowering of Pharbitis nil Choisy. Bull. Fac. Bioresources, Mie Univ. 11:177-183.

Ogawa,Y. 1993e. Generation of circadian flowering rhythm of Pharbitis nil Choisy in response to dark-light period. Bull. Fac. Bioresources, Mie Univ. 11:185-190.

Ogawa,Y. 1994. Floral initiation of the buds on main stem and the axillary shoots of Pharbitis seedlings of different growth stages with a special reference to effects of gibberellin A3, zeatin and temperature. Bull. Fac. Bioresources, Mie Univ. 12: 229-235.

Ogawa,Y., G.Fujiyama and S.Iwai. 1990. Promoting effect of gibberellin A3 on flowering induced by chilling in Pharbitis nil Choisy. J. Japan. Soc. Hort. Sci. 59: 371-376.

Ogawa,Y., G.Fujiyama and S.Iwai. 1992. High temperature effect on the chilling induction of flowering in Pharbitis nil Choisy with a special reference to plant age. J. Japan. Hortic. Sci 61:115-120.

Ogawa,Y. and R.W.King. 1990. The inhibition of flowering by non-induced cotyledons of Pharbitis nil. Plant Cell Physiol. 31: 129-135.

O'Neill,S.D., X.S.Zhang and C.C.Zheng. 1994. Dark and circadian regulation of mRNA accumulation in the short-day plant Pharbitis nil. Plant Physiol. 104:569-580.

Ono,M., M.Okazaki, H.Harada and H.Uchimiya. 1988. In vitro translated polypeptides of different organs of Pharbitis nil Chois., strain Violet under flower-inductive and non-inductive conditions. Plant Sci. 58: 1-7.

Ono,M., K.S.Ono, K.Yamada, M.Yasui and M.Okazaki. 1993a. Axillary bud flowering after apical decapitation in Pharbitis in relation to photoinduction. Physiol. Plant. 87:1-6.

Ono,M., K.S.Ono, M.Yasui, M.Okasaki and H.Harada. 1993b. Changes in polypeptides in Pharbitis cotyledons during the first flower-inductive photoperiod. Plant Sci. 89:135-145.

Ono M. Sage Ono K. Inoue M. Kamada H. Harada H. 1996. Transient increase in the level of mRNA for a germin-like protein in leaves of the short-day plant Pharbitis nil during the photoperiodic induction of flowering. Plant Cell Physiol. 37. 855-861.

Ono,M., K.Yamada, K.Sage, M.Okazaki and H.Harada. 1991. Changes in in vitro translated polypeptides of Pharnbitis nil Chois., strain Violet cotyledons during the first flower-inductive and non-inductive photoperiods. Plant Sci. 78: 11-18.

Owens,V. and D.J.Paolillo,Jr. 1986a. Effect of aging on flowering of axillary buds of Pharbitis nil. Am. J. Bot. 73: 882-887.

Owens,V.A. and D.J.Paolillo,Jr. 1986b. Changes in cell number and mitosis in apices of Pharbitis nil subjected to darkness or constant light. Amer. J. Bot. 73:637-638.

Owens,V. and D.J.Paolillo,Jr. 1986c. Effect of aging on growth and flowering of the terminal bud of Pharbitis nil. Amer. J. Bot. 73: 888-893.

Raab,M.M. and R.E.Koning. 1987a. Changes in responsiveness to ethylene and gibberellin during corolla expansition of Ipomoea nil. J. Plant Growth Regul. 6:121-131.

Raab,M.M. and R.E.Koning. 1987b. Interacting roles of gibberellin and ethylene in corolla expansion of Ipomoea nil (Convolvulaceae). Amer. J. Bot. 74:921-927.

Reekie J Y C. Hicklenton P R. Reekie E G. 1994. Effects of elevated CO-2 on time of flowering in four short-day and four long-day species. Canad. J. Botany 72. 533-538.

Reese C L. Erwin J E. 1997. The effect of day/night temperature on Pharbitis nil Chois. flowering. Hortscience 32.1046-1048.

Rombach,J. 1986. Phytochrome in norflurazon-treated seedlings of Pharbitis. Physiol. Plant. 68: 231-237.

重田千晶 1995. アサガオの長日処理子葉からの篩管液の花成阻害活性.佐賀大学農学部彙報 78:11-

Shinozaki,M. 1985. Organ correlation in long-day flowering of Pharbitis nil. Biol. Plant. 27:382-385.

篠崎真輝. 1995. 短日植物アサガオの長日開花とフェニールプロパノイド代謝. 東北大学遺伝生態センター通信

Shinozaki,M., K.Asada and A.Takimoto. 1988a. Correlation between chlorogenic acid content in cotyledons and flowering in Pharbitis seedlings under poor nutrition. Plant Cell Physiol. 29:605-609.

Shinozaki,M., N.Hirai, M.Fujinami and A.Takimoto. 1995. Non-photoperiodic floral induction in Pharbitis. Flowering Newslett. 19:18-22.

Shinozaki,M., N.Hirai, Y.Kojima, K.Koshimizu and A.Takimoto. 1994. Correlation between level of phenylpropanoids in cotyledons and flowering in Pharbitis seedlings under high-fluence illumination. Plant Cell Physiol. 35:807-810.

Shinozaki,M., Khin Lay Swe and A.Takimoto. 1988b. Varietal difference in the ability to flower in response to poor nutrition and its correlation with chlorogenic acid accumulation in Pharbitis nil. Plant Cell physiol. 29: 611-614.

Shinozaki,M., K.Watanabe and A.Takimoto. 1985. Flower-promoting activity of benzoic acid and related compounds for Pharbitis nil Chois. Mem. Coll. Agric., Kyoto Univ. 126: 21-26.

Takeno K. 1991. Flowering response of Ipomoea-batatas scions grafted onto Pharbitis-nil stocks. Physiol. Plant. 83. 682-686.

竹能清俊 1992. サツマイモによるアサガオ花成ホルモンの検出。 植物の化学調節 27: 74-79.  

Takeno,K. 1993. Evidence for the involvement of calcium in flowering induction by photoperiod in Pharbitis nil. Plant Cell Physiol. 34:221-225.

Takeno,K. 1994. Perfusion technique, a new method to treat assay plant with test substances. Flowering Newsletter 17:34-38.

Takeno K. 1996. Influences of plant hormones on photoperiodic flowering in Pharbitis nil: Re-evaluation by the perfusion technique. Plant Growth Regul. 20:189-194.

Takeno,K. and C.F.Cleland. 1990. Comparison of gibberellin-like substances from cotyledons and phloem exudate collected from cotyledons of Pharbitis nil in relation to photoperiodic flowering. Plant Growth Regul. 9: 227-236.

Takeno K. Maeda T. 1996. Abscisic acid both promotes and inhibits photoperiodic flowering of Pharbitis nil. Physiol. Plant. 98. 467-470.

Takeno K. Tsuruta T. Maeda T. 1996. Gibberellins are not essential for photoperiodic flower induction of Pharbitis nil.

谷本靜史,石岡奈穂子. 1992. 花成誘導物質. 植物の化学調節 27: 44-55.

Tanimoto,S., N.Ishioka and H.Harada. 1994. Studies on controlling mechanisms of flowering in in vitro culture. Bull. Fac. Agr., Saga Univ. 76:99-111.

Thigpen,S.P. and R.M.Sachs. 1985. Changes in ATP in relation to floral induction and initiation in Pharbitis nil. Physiol. Plant. 65: 156-162.

Tretyn,A., M.Cymerski, J.Czaplewska, H.Lukasiewicz, A.Pawlak and J.Kopcewicz. 1990. Calcium and photoperiodic flowering in Pharbitis nil. Physiol. Plant. 80: 388-392.

Tretyn,A., J.Czaplewska, M.Cymerski, J.Kopcewicz and R.E.Kendrick. 1994. The mechanism of calcium action on flower induction in Pharbitis nil. J. Plant Physiol. 144:562-568.

Tretyn,A., R.E.Kendrick, S.Fujioka and A.Sakurai 1996. Cytochemical and histochemical characterization of cotyledonary bodies from Pharbitis nil seedlings. Protoplasma 191(3-4): 205-214

Vince-Prue,D. and J.Gressel. 1985. Pharbitis nil. in: ed. A.H.Halevy, CRC handbook of flowering, CRC Press, Boca Reton, Florida. pp. 47-81.

Wada,K., K.Okada and H.Terao. 1989. Flowering response of Pharbitis nil sedlings in water culture: The relation between medium dilution and timing mechanism. Rep. Fac. Sci. Shizuoka Univ. 23:59-64.

Wada,K. and Y.Shinozaki. 1985. Flowering response in relation to C and N contents of Pharbitis nil plants cultured in nitrogen-poor media. Plant Cell Physiol. 26: 525-536.

Wada,N., M.Shinozaki and H.Iwamura. 1994. Flower induction by polyamines and related compounds in seedlings of morning glory (Pharbitis nil cv. Kidachi). Plant Cell Physiol. 35:469-472.

Wijayanti,L., S.Fujioka, M.Kobayashi and A.Sakurai. 1996. Effect of uniconazole and gibberellin on the flowering of Pharbitis nil. Biosci. Biotech. Biochem. 60:852-855.

Wijayanti L. Fujioka S. Kobayashi M. Sakurai A. 1997. Involvement of abscisic acid and indole-3-acetic acid in the flowering of Pharbitis nil. J. Plant Growth Regul. 16:115-119.

Wijayanti,L., M.Kobayashi, S.Fujioka, K.Yoshizawa and A.Sakurai 1995. Identification and quantification of abscisic acid, indole-3-acetic acid and gibberellins in phloem exudates of Pharbitis nil. Biosci. Biotech. Biochem. 59:1533-1535.

Wijayanti L. Kobayashi M. Fujioka S. Sakurai A. 1997. Gibberellin transport from the cotyledon to plumule in the flowering of Pharbitis nil. Biosci. Biotech. Biochemi 61:1384-1385.

Xue,G.X. and H.Greppin. 1994. Interaction by gaseous way and flowering. Archives des Science 47:267-272.

Zheng,C.C., A.Q.Bui and S.D.O'Neill. 1993. Abundance of an mRNA encoding a high mobility group DNA-binding protein is regulated by light and an endogenous rhythm. Plant Molecular Biol. 23:813-823.

(1998年以降)

Carter,C.E., A.Szmidt-Jaworska, M.Hughes, B.Thomas, S.Jackson 2000. Phytochrome regulation of phytochrome A mRNA levels in the model short-day-plant Pharbitis nil. J. Exp. Bot. 51: 703-711.

Durdan,S.F, R.J.Herbert and D.Francis 1998. Activation of latent origins of DNA replication in florally determined shoot meristems of long-day and short-day plants: Silene coeli-rosa and Pharbitis nil. Planta 207: 235-240.

Durdan,S.F., R.J.Herbert, H.J.Rogers and D.Francis 2000. The determination time of the carpel whorl is differentially sensitive to carbohydrate supply in Pharbitis nil. Plant Physiol. 123: 189-200.

Groenewald,E.G. and A.J.Van Der Westhuizen 1998. The metabolism of inhibitor of flowering and prostaglandin biosynthesis, acetylsalicylic acid, in Pharbitis nil cotyledons. Biol. Plant. 41: 475-479.

Heide,O.M., R.W.King and L.T.Evans 1998a. Semidian rhythmicity in the flowering response of Pharbitis nil to changes in temperature. Australian J. Plant Physiol. 25: 183-188.

Heide,O.M., R.W.King and L.T.Evans 1998b. Shifts in the semidian rhythm of flowering do determine night-break timing and critical night length in Pharbitis nil. Planta 206: 28-33.

Kondoh,M., Y.Fukusada, A.Murakami, C.Shigeta and S.Tanimoto 1999a. Flowering may be controlled by a quantitative balance between flower-inducing and -inhibiting substances in Pharbitis nil. Plant Growth Regul. 28: 101-106.

Kondoh,M., A.Murakami, C.Shigeta and S.Tanimoto 1999b. Flower-inducing and -inhibiting activities of phloem exudate from cotyledons of Pharbitis seedlings. Plant Growth Regul. 28: 107-116.

Kulikowska-Gulewska,H., E.Galoch and J.Kopcewicz 1998. ABA in photoperiodic induction of Pharbitis nil. Acta Soc. Bota Bot. Poloniae 67: 59-63.

Kulikowska-Gulewska,H. and J.Kopcewicz 1999. Ethylene in the control of photoperiodic flower induction in Pharbitis nil Chois. Acta Soc. Bot. Poloniae 68: 33-37.

Kulikowska-Gulewska,H., M.Majewska, J.Kopcewicz 2000. Gibberellins in the control of photoperiodic flower transition in Pharbitis nil. Physiol. Plant. 108: 202-207.

Maeda,T., T.Asami, S.Yoshida and K.Takeno 2000. The processes inhibited and promoted by abscisic acid in photoperiodic flowering of Pharbitis nil: J. Plant Physiol. 157:421-428.

O'Neill,S.D. and C.C.Zheng 1998. Abundance of mRNAs encoding HMG1/HMG2 class high-mobility-group DNA-binding proteins are differentially regulated in cotyledons of Pharbitis nil. Plant Mol. Biol. 37: 235-241.

Sage-Ono,K., M.Ono, H.Harada and H.Kamada 1998a. Accumulation of a clock-regulated transcript during flower-inductive darkness in Pharbitis nil. Plant Physiol. 116: 1479-1485.

Sage-Ono,K., M.Ono, H.Harada and H.Kamada 1998b. Dark-induced accumulation of mRNA for a homolog of translationally controlled tumor protein (TCTP) in Pharbitis. Plant Cell Physiol. 39: 357-360.

竹能清俊 1999a. 花成−フロリゲン説は今も生きているか?−。 植物の化学調節 34: 138-147.  

Takeno,K. 1999b. Is the florigen concept still alive? Flowering Newsletter 22: 54-58.

Ueno,E. and M.Shinozaki 1999. Effects of the inhibitors of biosynthesis and degradation of catecholamines on photoperiodic induction of flowering in Pharbitis nil. J. Plant Physiol. 155: 332-337.

Yamazaki,K., Y.Ishii, Y.Kamuro, I.Tanaka 2000. The effect of quality and intensity of light on the flower-bud formation in morning glory (Pharbitis nil Choisy). Environment Control in Biology 38: 39-46.

Yoshizaki,M., T.Furumoto, S.Hata, M.Shinozaki and K.Izui 2000a. cDNA cloning and expression analysis of a non-photosynthetic ferredoxin gene in morning glory (Pharbitis nil). Biochem. Biophys. Acta 1491: 273-278.

Yoshizaki,M., T.Furumoto, S.Hata, M.Shinozaki and K.Izui 2000b. Characterization of a novel gene encoding a phytocyanin-related protein in morning glory (Pharbitis nil). Biochem. Biophys. Res. Comm. 268: 466-470.


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