1. bookVolume 14 (1989): Edizione 4 (February 1989)
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01 Jan 1992
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Physiology and Biochemistry of the Tobacco Plant. 1. Growth and Development - Physiologie und Biochemie der Tabakpflanze: 1. Wachstum und Entwicklung

Pubblicato online: 06 Jan 2015
Volume & Edizione: Volume 14 (1989) - Edizione 4 (February 1989)
Pagine: 197 - 209
Dettagli della rivista
Prima pubblicazione
01 Jan 1992
Frequenza di pubblicazione
4 volte all'anno

Abdoh, Y., und H. Pirelahi: Alkaloid content of tobacco seeds; Nature (Lond.) 204 (1964) 791—792.10.1038/204791a014235683Search 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.107.2784.47617760010Search 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/B978-0-12-668608-1.50011-3Search 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.06.060155.002141Search 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.35.060184.002131Search 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.31.060180.000503Search 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.07.060156.001503Search 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-XSearch in Google Scholar

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