Morphactin Substantially Induced the Fourth Internode Growth in Decapitated Tulips: Relevance to Endogenous Levels of Indole-3-Acetic Acid
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- Lomax T.L., Muday G.K., Rubery P.H. 1995. Auxin transport. In: Plant Hormones, ed. By P.J. Davis, Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 509-530.
- Michalke W., Katekar G.F., Geissler A.E. 1992. Phytotropin-binding sites and auxin transport in Cucurbitapepo: evidence for two recognition sites. PLANTA 181: 254-260.
- Muday G.K., Brunn S.A., Haworth P., Subramanian M. 1993. Evidence for a single naphthylphthalamic acid binding site on the zucchini plasma membrane. PLANT PHYSIOL. 103: 449-456.
- Muday G.K., DeLong A. 2001. Polar auxin transport: controlling where and how much. TRENDS PLANT SCI. 6: 535-542.
- Neumann P.M., Doss R.P., Sachs R.M. 1977. A new laboratory method used for investigating the uptake, translocation and metabolism of bark banded morphactin by trees. PHYSIOL. PLANT. 39: 248-251.
- Ranwala A.P., Miller W.B. 2008. Gibberellin- mediated changes in carbohydrate metabolism during flower stalk elongation in tulips. PLANT GROWTH REGUL. 55: 241-248.
- Ruegger M., Dewey E., Hobbie L., Brown D., Bernasconi P., Turner J., Muday G., Estelle M. 1997. Reduced naphthylphthalamic acid binding in the tir3 mutant of Arabidopsis is associated with a reduction in polar transport and diverse morphological defects. PLANT CELL 9: 745-757.
- Saniewski M., de Munk W.J. 1981. Hormonal control of shoot elongation in tulips. SCI. HORT., 5: 363-372.
- Saniewski M., Góraj J., Węgrzynowicz- Lesiak E., Okubo H., Miyamoto K., Ueda J. 2010. Different growth of excised and intact fourth internode after removal of the flower bud in growing tulips: focus on auxin action. J. FRUIT ORNAM. PLANT RES. 18: 297-308.
- Saniewski M., Węgrzynowicz-Lesiak E. 1993. Continuous supply of auxin is necessary for tulip stem growth. J. FRUIT ORNAM. PLANT RES. 1: 59-66.
- Sundberg B., Tuominen H., Little C.H.A. 1994. Effects of the indole-3-acetic acid (IAA) transport inhibitors N-1- naphtylphtalamic acid and morphactin on endogenous IAA dynamics in relation to compression wood formation in 1-year-old Pinus sylvestris (L.) shoots. PLANT PHYSIOL. 106: 469-476.
- Sussman M.R., Goldsmith M.H.M. 1981. The action of specific inhibitors of auxin transport on uptake of auxin and binding of N-naphthylphthalamic acid to a membrane site in maize coleoptiles. PLANTA 152: 13-18.
- Thomson K.S., Hertel R., Muller S., Tavares J.E. 1973. 1-N-Naphthylphthalamic acid and 2,3,5- triiodobenzoic acid. In-vitro binding to particulate cell fractions and action on auxin transport in corn coleoptiles. PLANTA 109: 337-352.
- Thomson K.S., Leopold A.C., 1974. Invitro binding of morphactins and 1-Nnaphthylphthalamic acid in corn coleoptiles and their effect on auxin transport. PLANTA 115: 259-270.
- Xu R.-Y., Niimi Y., Kojami K., 2008. Changes in diffusible idole-3-acetic acid from various parts of tulip plant during rapid elongation of the flower stalk. PLANT GROWTH REGUL. 54: 81-88.
- Ueda J., Komaki M.K., Okada K., Shimura Y., 1991. Identification and quantitative distribution of indole-3-acetic acid in Brassica junco Czern. J. PLANT PHYSIOL. 137: 628-630.
- Yokota T., Murofushi N., Takahashi N. 1980. Extraction, Purification, and Identification. In: MacMillan J. (ed.), Hormonal Regulation of Development I, Springer-Verlag, Berlin, Encyc. PLANT PHYSIOL. 9: 113-201.
DOI: https://doi.org/10.2478/v10290-012-0025-5 | Journal eISSN: 1231-0948
Language: English
Page range: 161 - 171
Published on: May 30, 2013
Published by: Sciendo
In partnership with: Paradigm Publishing Services
Publication frequency: 2 times per year
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© 2013 Junichi Ueda, Justyna Góraj, Elżbieta Węgrzynowicz-Lesiak, Kensuke Miyamoto, published by Sciendo
This work is licensed under the Creative Commons License.