[Abdoh, Y., und H. Pirelahi: Alkaloid content of tobacco seeds; Nature (Lond.) 204 (1964) 791—792.10.1038/204791a014235683]Search in Google Scholar
[Alworth, W. L., A, A. Liebman und H. Rapoport: The biosynthesis of nicotine in Nicotiana glutinosa from carbon-14 dioxide — Formation of the pyrrolidine ring; J. Am. Chem. Soc. 86 (1964) 3375—3381.]Search in Google Scholar
[Arcila, J., und S. C. Mohapatra: Development of tobacco seedling, 2. Morphogenesis during radicle protrusion; Tob. Sci. 27 (1983a) 35-40.]Search in Google Scholar
[Arcila, J., und S. C. Mohapatra: Development of tobacco seedling, 3. Morphogenesis during plumule emergence and post-emergence development; Tob. Sci. 27 (1983b) 112—115.]Search in Google Scholar
[Atkinson, W. O., L. P. Bush und J. L. Sims: Dry matter and nutrient accumulation in Burley tobacco; Tob. Sci. 21 (1977) 81—82.]Search in Google Scholar
[Avery, G. S.: Structure and germination of tobacco seed and the developmental anatomy of the seedling plant; Am. J. Bot. 10 (1933) 309—327.]Search in Google Scholar
[Balazs, E., R. Gaborjanyi und Z. Kiraly: Leaf senescence and increased virus susceptibility in tobacco — The effect of abscisic acid; Physiol. Plant Pathol. 3 (1973) 341-346.]Search in Google Scholar
[Blaim, K.: Nicotine biosynthesis in seedlings of Nico-tiana rustic; Biochemistry 15 (1967) 197—199.]Search in Google Scholar
[Blatt, C. R., und A. G. Sponagle: Effects of 2-chloro-ethylphosphonic acid and nitrogen fertilizer on flue-cured tobacco growth and maturity; Can. J. Plant Sci. 47 (1977) 1179—1183.]Search in Google Scholar
[Boussiba, Samy, und Ames E. Richmond: Abscisic acid and the after-effect of stress in tobacco plants; Planta (Berl.) 129 (1976) 217-219.]Search in Google Scholar
[Bush, L., P., J. L. Sims und W. O. Atkinson: Physiology of nitrogen fractions of high and low alkaloid tobacco; Proc. Sixth Int. Tob. Sci, Congr., Tokyo, 1976, S. 128— 129.]Search in Google Scholar
[Calvin, M., und A. A. Benson: The path of carbon in photosynthesis; Science (Wash., D.C.) 107 (1948) 476.10.1126/science.107.2784.47617760010]Search in Google Scholar
[Campbell, R. B.: Flue-cured tobacco yield and oxygen content of soil in lysimeters flooded for various periods; Agron. J. 65 (1973) 783—786.]Search in Google Scholar
[Chilton, M. D.: A vector for introducing new genes into plants; Sci. Am. 248, Nr. 6 (1983) 51—59.]Search in Google Scholar
[Clough, B. F., und F. L. Milthorpe: Effects of water deficit on leaf development in tobacco; Aust, J. Plant Physiol, 2 (1975) 291-300.]Search in Google Scholar
[Crum, S. D.: Effects of water stress on the interaction of carbohydrate and nitrogen metabolism in Burley tobacco; M.Sc. thesis, North Carolina State University, Raleigh, 1977.]Search in Google Scholar
[Cundiff, John S.: Tobacco seed emergence related to differences in terminal velocity; Tob. Sci. 23 (1979) 49-51.]Search in Google Scholar
[Dawson, R. F.: Influence of certain amino acids and of nicotinic acid upon the nicotine content of tobacco leaves; Plant Physiol, (Bethesda) 14 (1939) 479—491.]Search in Google Scholar
[Dawson, R. F.: Alkaloid biogenesis, III. Specificity of the nicotine-nornicotine conversion; J. Am. Chem. Soc. 73 (1951) 4218-4221.]Search in Google Scholar
[Dawson, R. F.: Chemistry and biochemistry of green tobacco; Ind. Eng. Chem, 44 (1952) 266—270.]Search in Google Scholar
[Dawson, R, F., und M. L. Solt: Estimated contributions of root and shoot to the nicotine content of the tobacco plant; Plant Physiol. (Bethesda) 34 (1959) 656—661.]Search in Google Scholar
[Garner, W. G.: The production of tobacco; Blakiston Co., Philadelphia, Pa., 1951, 520 S.]Search in Google Scholar
[Gawande, M., S. C. Mohapatra und W. H. Johnson: Effect of seed size and pelletization on tobacco seed ger-minaton under varying temperature regimes; Tob. Sci. 24 (1980) 49-52.]Search in Google Scholar
[Gibbs, M.: The inhibition of photosynthesis by oxygen; Am. Sci. 58 (1970) 634—640.]Search in Google Scholar
[Gous, P. J., T. R. Terrill und W. Kroontje: Effects of soil fumigation and the form of nitrogen on the growth, yield and value of tobacco grown on two soil types, I. Plant growth and yield; Agron. J. 63 (1971) 221—224.]Search in Google Scholar
[Hackett, C., und H. M. Rawson: An exploration of the carbon economy of the tobacco plant, II. Patterns of leaf growth and dry matter partitioning; Aust. J. Plant Physiol. 1 (1974) 271-281.]Search in Google Scholar
[Hamilton, J. L., und R. H. Lowe: Changes in the concentration of proteins, amino acids and ammonia in Burley tobacco during air curing; Tob. Sci. 22 (1978) 89-93.]Search in Google Scholar
[Harris, Joseph B., und H. J. Arnott: Effects of senescence on chloroplasts of the tobacco leaf; Tissue & Cell 5 (1973) 527-574.]Search in Google Scholar
[Howell, S. H.: Plant molecular vehicles — Potential vectors for introducing foreign DNA into plants; Annu. Rev. Plant Physiol. 33 (1982) 609—650.]Search in Google Scholar
[Huffaker, R. C.: Protein metabolism; in Plant physiology — A treatise, hrsg, von F. C. Steward, Academic Press, Inc., New York, N.Y., Band 3, 1983, S. 267— 333.10.1016/B978-0-12-668608-1.50011-3]Search in Google Scholar
[Hunt, Warren F., und Robert S. Loomis: Carbohydrate-limited growth kinetics of tobacco (Nicotiana rustica L.) callus; Plant Physiol. (Bethesda) 57 (1976) 802—805.]Search in Google Scholar
[Il'in, G. S., und M. Ya. Lovkova: Biosynthesis of nicotine and transformation of nitrogenous substances in tobacco sprouts; Biochemistry 24 (1959a) 256—262.]Search in Google Scholar
[Il'in, G. S., und M. Ya. Lovkova: Transformation of nicotine and amino acids in the ripening tobacco seed; Biochemistry 24 (1959b) 769-772.]Search in Google Scholar
[Ismail, M. N., und R. C. Long: Growing flue-cured tobacco to prespecified leaf chemistries through cultural manipulations; Tob. Sci. 24 (1980) 114—118.]Search in Google Scholar
[Kasperbauer, M, J., und T. G. Sutton: Influence of seed weight on germination, growth and development of tobacco; Agron. J. 69 (1977) 1000—1002.]Search in Google Scholar
[King, M. J., und L. P. Bush: Growth and water use of tall fescue as influenced by several soil drying cycles; Agron. J. 77 (1985) 1-4.]Search in Google Scholar
[Kisaki, T., und E, Tamaki: Phytochemical studies on the tobacco alkaloids, X. Degradation of the tobacco alkaloids and their optical rotatory changes in tobacco plants; Phytochemistry (Oxf.) 5 (1966) 293—300.]Search in Google Scholar
[Kroontje, W., A. Badr und H. C. H. Hahne: Growth pattern of Burley 21 tobacco and associated nitrogen and nicotine levels in plant parts; Tob. Sci. 16 (1972) 46-51.]Search in Google Scholar
[Ladesic, B., und T. C. Tso: Biochemical studies on tobacco alkaloids, VI. Biosynthesis of nicotine through nornicotine; Phytochemistry (Oxf.) 3 (1964) 541—545.]Search in Google Scholar
[Long, R. C., und J. R. Weybrew: Major chemical changes during senescence and curing; Recent Adv. Tob. Sci. 7 (1981) 40-74.]Search in Google Scholar
[Macnicol, P. K., R. E. Young und J. B. Biale: Metabolic regulation in the senescing tobacco leaf, I. Changes in pattern of JIP incorporation into leaf disc metabolites; Plant Physiol. (Bethesda) 51 (1973) 793-797.]Search in Google Scholar
[Miflin, B. J.: The genetic manipulation of plants and its application to agriculture — A summary of current progress and future possibilities; Phytochem. Soc. Eur. Symp. Ser. 23 (1984) 295—313.]Search in Google Scholar
[Mothes, K.: Physiology of alkaloids; Annu. Rev. Plant Physiol. 6 (1955) 393-428.10.1146/annurev.pp.06.060155.002141]Search in Google Scholar
[Mylonas, V. A,: Nutrient concentration changes in Oriental Kabakulak tobacco during the growing season; Beitr. Tabakforsch. Int. 12 (1984) 147—152.]Search in Google Scholar
[Nagao, T.: Studies on the growth processes of tobacco roots; Jpn. Monop. Corp. Cent. Res. Inst. Sci. Pap. 118 (1976) 25-83.]Search in Google Scholar
[Nester, E. W., M. P. Gordon, R. W. Amosino und M. F. Yanofsky: Crown gall — A molecular and physiological analysis; Annu. Rev. Plant Physiol. 35 (1984) 387—413.10.1146/annurev.pp.35.060184.002131]Search in Google Scholar
[Phillips, R. E., und J. E, Leggett: Effect of soil-water stress on assimilation and partitioning of carbon and nitrogen in Burley tobacco; Agron. Abstr., Am. Soc. Agron., Madison, Wis., 1984, S. 114.]Search in Google Scholar
[Raper, C. D., Jr.: Factors affecting the development of flue-cured tobacco grown in artificial environments, HI. Morphological behavior of leaves in simulated temperature, light duration, and nutrition progressions during growth; Agron. J. 63 (1971) 848—852.]Search in Google Scholar
[Raper, C. D., D, T. Patterson, L. R. Parsons und P. J. Kramer: Relative growth and nutrient accumulation rates for tobacco; Plant Soil 46 (1977) 473—486.]Search in Google Scholar
[Sisler, Edward C.: Ethylene analogs — Effect of some unsaturated sulfides (thioethers) on tobacco leaves; Tob. Sci. 20 (1976) 6—10,]Search in Google Scholar
[Solt, M. L.: Nicotine production and growth of tobacco scions on tomato rootstocks; Plant Physiol. (Bethesda) 32 (1957) 484-490.]Search in Google Scholar
[Thomas, H., und J. L. Stoddart: Leaf senescence; Annu. Rev. Plant Physiol. 31 (1980) 83-111.10.1146/annurev.pp.31.060180.000503]Search in Google Scholar
[Thomas, J. F., und C. D. Raper, Jr.: Differences in progeny of tobacco due to temperature treatment of the mother plant; Tob. Sci. 19 (1975) 37-40.]Search in Google Scholar
[Toole, E. H., S. B. Hendricks, J. A. Borthwick und V. K. Toole: Physiology of seed germination; Annu. Rev. Plant Physiol. 7 (1956) 299-324.10.1146/annurev.pp.07.060156.001503]Search in Google Scholar
[Tso, T, C.: Biochemical studies on tobacco alkaloids, III. The incorporation of C14 and N15 in alkaloid synthesis; Arch. Biochem. Biophys. 92 (1961) 248—252.]Search in Google Scholar
[Tso, T. C.: Physiology and biochemistry of tobacco plants; Dowden, Hutchinson Sc Ross, Inc., Strouds-burg, Pa., 1972, 393 S.]Search in Google Scholar
[Tso, T. C., und R. N, Jeffrey: Studies on tobacco alkaloids, I, Changes in nicotine and nornicotine content in Nicotiana; Plant Physiol (Bethesda) 31 (1956) 433— 440.]Search in Google Scholar
[Tso, T, C., und R. N. Jeffrey: Biochemical studies on tobacco alkaloids, IV. The dynamic state of nicotine supplied to N. rustica; Arch. Biochem. Biophys. 92 (1961) 253-256.]Search in Google Scholar
[Vickery, H. B,: Some nitrogenous components of the hot water extract of fat-free tobacco seed meal; Conn. Agric. Exp. Stn. Bull. (New Haven) 339 (1932) 637— 645.]Search in Google Scholar
[Wallace, A., und A. M. Abou-Zamzam: Effect of temperature on potassium and calcium transport from within the root to the xylem exudate of tobacco; Plant Soil 38 (1973) 687—691.]Search in Google Scholar
[Webster, W. C.: Nitrogen metabolism in plants; Row, Peterson and Co., White Plains, N.Y., 1959, S. 127-144.]Search in Google Scholar
[Weeks, W. W., und L. P. Bush: Alkaloid changes in tobacco seeds during germination; Plant Physiol. (Bethesda) 53 (1974) 73-75.]Search in Google Scholar
[Weeks, W. W., und J. A. Weybrew: The cultural man- agement of flue-cured tobacco steam-volatile constituents; 35th Tobacco Chemists' Research Conference, Winston-Salem, N.C., 1981.]Search in Google Scholar
[Weybrew, J. A., R. C. Long, C. A. Dunn und W. G. Woltz: The biochemical regulation of ripening of tobacco leaves; in Mechanisms of regulation of plant growth, hrsg. von R. L. Bieteski, A. R. Ferguson, M. M. Cress well, Bulletin 12, The Royal Society of New Zealand, 1974, S. 843—847.]Search in Google Scholar
[Wilkins, M. B.: Advanced plant physiology; Pitman Publishing Ltd., London, 1984.]Search in Google Scholar
[Woolhouse, H. W., und T, Batt: The nature and regulation of senescence in plastids; in Perspectives in experimental biology, Band 2 (Botany), hrsg. von N. Sunderland, Pergamon, Oxford, 1976, S. 163-175.10.1016/B978-0-08-019868-2.50019-X]Search in Google Scholar