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Tobacco Leaf Protein: I. An Evaluation of the Use of Putative Chemical Growth Enhancers for Tobacco Leaf Protein Production

DW De Jong
DW De Jong
   | 06 gen 2015
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Pubblicato online: 06 gen 2015
Pagine: 33 - 41
Ricevuto: 27 mar 1889
Accettato: 13 feb 1990
DOI: https://doi.org/10.2478/cttr-2013-0619
© 1991 Beiträge zur Tabakforschung International
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. De Jong, D. W and J. A. Saunders: Fluctuations in protein levels of tobacco leaves and consequences for extractability; Beitr. Tabakforsch. Int. 13 (1986) 139-149.Search in Google Scholar

2. Dumery, B., J. P. Albo and J. Chouteau: Analytical approach of tobacco proteins. Technological Implications; Annales du Tabac 17 (1981) 105-132.Search in Google Scholar

3. Tso, T. C.J Tobacco as a potential food source and smoke material; Beitr. Tabakforsch. 9 (1977) 63-66.Search in Google Scholar

4. De Jong, D. W and J. J. Lam: Application of homogenized leaf curing to protein recovery and to the alteration of leaf chemistry for production of less hazardous tobacco; Tob. Res. 5 (1979) 1-27Search in Google Scholar

5. Wildman, S.: An alternative use for tobacco agriculture: proteins for food plus a safer smoking material. Plants - the potentials for extracting protein, medicines, and other chemicals; OTA (1983) 63-67Search in Google Scholar

6. Reis, S. and R. Houtz: Triacontanol as a plant growth regulator; Hort. Sci. 18 (1983) 654-662.Search in Google Scholar

7. Welebir, A. J.: Novel crop yield enhancing formulations containing fatty acids and calcium; Biochemical Marketing Corporation Bulletin, 1983.10.1016/B978-0-12-168901-8.50025-3Search in Google Scholar

8. Reis, S. and V Wert: Rapid effects of triacontanol in vivo and in vitro; J. Plant Growth Regul. 1 (1982) 117-127Search in Google Scholar

9. Maugh, T H.: Mystery of triacontanol's inconsistency may finally have been solved; Science 212 (1981) 33-34.Search in Google Scholar

10. De Jong, D. W: Response of tobacco plants to treatment with 1-triacontanol (1-hydroxycontane); Proceedings of the 37th Tobacco Chemists' Research Conference (1983) 16.Search in Google Scholar

11. Nickell, L. C.: Plant growth regulators in the sugar cane industry; in: Chemical manipulation of crop growth and development, edited by J. S. McLaren, 1982, pp. 167-189.10.1016/B978-0-408-10767-9.50018-5Search in Google Scholar

12. Chaplin, J. F., J. R. Stavely, C. C. Litton and G. W Pittarelli: Catalog of the Tobacco Introductions in the USDA's tobacco germplasm collection (N. tabacum); USDA/ARS Agricultural Reviews and Manuals S-27, 1982.10.5962/bhl.title.119735Search in Google Scholar

13. Sisson, V A. and J. A. Saunders: Tobacco Germplasm Collection: Suppl. 1. Alkaloid content of the cured leaf; USDA/ARS Agricultural Reviews and Manuals S-27, 1983.Search in Google Scholar

14. Bradford, M. M.: A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein dye binding; Anal. Biochem. 72 (1976) 248-254.Search in Google Scholar

15. Kasperbauer, M. J.: Interaction of photoperiod and temperature on flowering of Burley tobacco (N. tabacum); Tob. Sci. 10 (1966) 119-120.Search in Google Scholar

16. Reis, S., V E Wert and J. A. Biernbaum: Factors altering response of plants to triacontanol; Hort. Sci. 108 (1983) 917Search in Google Scholar

17. Reis, S., V E Wert and J. A. Biernbaum: Interference of triacontanol activity by constituents present in experimental and field sprayers; Hort. Sci. 109 (1984) 145.Search in Google Scholar

18. Reis, S.: Regulation of plant growth with triacontanol; CRC Critical Reviews in Plant Sciences 2 (1985) 239-285.10.1080/07352688509382197Search in Google Scholar

19. Steffens, G. L. and J. E Worley: Triacontanol. Evaluation in several plant assays; Proceedings of the Plant Growth Regulator Workshop, Dallas, TX, July 12-15, 1980.10.1016/B978-0-08-023930-9.50142-8Search in Google Scholar

20. Laughlin, R. G., R. L. Munyon, S. Reis and V E Wert: Growth enhancement of plants by femtomole doses of colloidally dispersed triacontanol; Science 219 (1983) 1219-1221.Search in Google Scholar

21. Kung, S. D. and T. C. Tso: Tobacco as a potential food source and smoke material: Soluble protein content, extraction, and amino acid composition; J. Food Sci. 43 (1978) 1844-1847/52.Search in Google Scholar

22. Ericson, M. C. and S. H. Alfinito: Proteins produced during salt stress in tobacco cell culture; Plant Physiol. 74 (1984) 506-509.Search in Google Scholar

23. Singh, N. K., A. K. Handa, P. M. Hasegawa and R. A. Bressan: Proteins associated with adaptation of cultured tobacco cells to NaCl; Plant Physiol. 79 (1985) 126-137Search in Google Scholar

24. Key, J. L., C. Y. Lin and Y. M. Chen: Heat shock proteins of higher plants; Proc. Natl Acad. Sci., USA 78 (1981) 3526-3530.10.1073/pnas.78.6.352631960216593032Search in Google Scholar

25. Woodlief, W. G., J. E Chaplin, C. R. Campbell and D. W De Jong: Effect of variety and harvest treatments on protein yield of close-grown tobacco; Tob. Sci. 25 (1981) 83-86.Search in Google Scholar

26. Bernstein, B. A., R. H. Lowe and S. J. Sheen: Biomass and protein yield of tobaccos grown at three plant densities; Tob. Res. 8 (1982) 1-12.Search in Google Scholar

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