Interaction of Growth Substances in Growth and Organ Initiation in the Embryos of Capsella
1964; Oxford University Press; Volume: 39; Issue: 5 Linguagem: Inglês
10.1104/pp.39.5.816
ISSN1532-2548
Autores Tópico(s)Plant Parasitism and Resistance
Resumo1. BORTHWICK, H. A. AND R. J. DOWNS. 1964. The roles of active phytochrome in the control of flowering of Xanthium pensylvanicum. Botan. Gaz. 2. BUTLER, W. L., H. C. LANE, AND H. W. SIEGELMAN. 1963. Nonphotochemical transformations of phytochrome in vivo. Plant Physiol. 38: 514-19. 3. CUMMING, B. G. 1963. Evidence of a requirement for phytochrome-Pfr in the floral initiation of Chenopodium rubrum. Can. J. Botany. 41: 901-26. 4. DOWNS, R. J. 1956. Photoreversibility of flower initiation. Plant Physiol. 31: 279-84. 5. ESASHI, Y. 1963. Studies on the formation and sprouting of aerial tubers in Begonia evansiano Andr. VIII. Dual effect of near infrared. Plant Cell Physiol. 4: 135-43. 6. KONITZ, W. 1958. Bluhhemmung bei Kurztagpflanzen durch Hellrot-und Dunkelrotlicht in der Photound Skotophilen Phase. Planta 51: 1-29. 7. NAKAYAMA, S., H. A. BORTHWICK, AND S. B. HENDRICKS. 1960. Failure of photoreversible control of flowering in Pharbitis nil. Botan. Gaz. 121: 237-43. 8. PURVES, W. K. 1961. Dark reactions in the flowering of Lemna perpusilla 6746. Planta 56: 684-90. 9. TAKIMOTO, A. 1960. Effect of sucrose on flower initiation of Pharbitis nil in aseptic culture. Plant Cell Physiol. 1: 241-46. 10. TAKIMOTO, A. AND K. IKEDA. 1960. Studies on the light controlling flower initiation of Pharbitis nil. VII. Light-break. Botan. Mag. (Tokyo) 73: 341-47. 11. TAKIMOTO, A. AND Y. NAITO. 1962. Studies on the light controlling flower initiation of Pharbitis nil. IX. Further studies on the effect of far-red preceding the inductive dark period. Botan. Mag. (Tokyo) 75: 205-11. 12. TASHIMA, Y. AND S. IMAMURA. 1953. Flower initiation in total darkness in Pharbitis nil, a shortday plant. Proc. Japan Acad. 29: 581-85.
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