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Literatur
Bate-Smith, E. C.: Paper chromatography of anthocyanins and related substances in petal extracts. Nature (Lond.) 161, 835 (1948).
Leuco-Anthocyanins I. Detection and identification of anthocyanidins formed from leuco-anthocyanins in plant tissues. Biochemic. J. 58, 122–125 (1954).
Bate-Smith, E. C., and N. H. Lerner: Leuco-Anthocyanins. II. Systematic distribution of leuco-anthocyanins in leaves. Biochemic. J. 58, 126–132 (1954).
Bate-Smith, E. C., and R. G. Westall: Chromatographic behaviour and chemical structure. I. Some naturally occuring phenolic substances. Biochem. et Biophysica Acta 4, 427–440 (1950).
Beale, G. H.: The genetics of Verbena. I. J. Genet. 40, 337–359 (1940).
Beale, G. H., R. Robinson and R. Scott-Moncrieff: Genetics and chemistry of flower colour variation in Lathyrus odoratus. J. Genet. 37, 375–388 (1939).
Beale, G. H., R. J. Price and R. Scott-Moncrieff: The genetics of Verbena. II. J. Genet. 41, 65–74 (1941a).
Beale, G. H., R. J. Price and V. C. Sturgess: A survey of anthocyanins. VII. The natural selection of flower colour. Proc. Roy Soc. Lond., Ser. B 130, 113–126 (1941b).
Birch, A. J., F. W. Donovan and F. Moewus: Biogenesis of flavonoids in Chlamydomonas eugametos. Nature (Lond.) 172, 902–907 (1953).
Blakeslee, A. F.: A chemical method of distinguishing genetic types of yellow cones in Rudbeckia. Z. Vererbungslehre 25, 211–221 (1921).
Bradfield, A. E., and E.C. Bate-Smith: Chromatographie behaviour and chemical structure. II. The tea catechines. Biochim. et Biophysia. Acta 4, 441–444 (1950).
Buxton, B. H.: Genetics of the primrose P. acaulis. J. Genet. 25, 195–205 (1932).
Consden, R., A. H. Gordon and A. J. P. Martin: Qualitative analysis of proteins: A partition chromatographic method using paper. Biochemic. J. 38, 224–232 (1944).
Cramer, F.: Papierchromatographie, 2. Aufl. Weinheim 1953.
Crane, M. B., and W. J. C. Lawrence: The genetics of garden plants, 4. Aufl. London 1952.
Dodds, K. S., and D. H. Long: The inheritance of colour in diploid potatoes. I. Types of anthocyanidins and their genetic loci. J. Genet. 53, 136–149 (1955).
Douwes, H.: Een genetisch-chemisch Onderzoek van Eschcholtzia californica Cham. Genetica ('s-Gravenhage) 23, 353–452 (1943).
Evans, R. A., W. H. Parr and W. C. Evans: Paper partition chromatography of phenolic substances. Nature (Lond.) 164, 674 (1949).
Gage, Th. B., and S. H. Wender: Quantitative determination of certain flavonol-3-glykosides. Analyt. Chemistry 22, 708–711 (1950).
Geissman, T. A., and E. Hinreiner: Theories of the biogenesis of flavonoid compounds. Bot. Review 18, 77–244 (1952).
Geissman, T. A., and G. A. L. Mehlquist: Inheritance in the carnation, Dianthus caryophyllus. IV. The chemistry of the flower color variation. Genetics 32, 410 bis 433 (1947).
Haldane, J. B. S.: The biochemistry of genetics, 1. Aufl. London 1954.
Kappert, H.: Die Bedeutung der Polyploidie in der Cyclamenzüchtung. Züchter 13, 106 bis 114 (1941).
Die Genetik des incana-Charakters und der Anthocyanbildung bei der Levkoje. Züchter 19, 289–297 (1949).
Die vererbungswissenschaftlichen Grundlagen der Züchtung, 2. Aufl. Berlin 1953.
Karrer, P.: Lehrbuch der organischen Chemie, II. Aufl. Stuttgart 1950.
Klein, G.: Handbuch der Pflanzenanalyse, Bd. III/2. Wien 1932.
Lawrence, W. J. C., R. J. Price, G. M. Robinson and R. Robinson: A survey of anthocyanins. V. Biochemic. J. 32, 1661–1667 (1938).
Lawrence, W. J. C., and R. Scott-Moncrieff: The genetics and chemistry of flower colour in Dahlia: A new theory of specific pigmentation. J. Genet. 30, 155–226 (1935).
Lawrence, W. J. C., R. Scott-Moncrieff and V. C. Sturgess: Studies on Streptocarpus. I. Genetics and chemistry of flower colour in garden strains. J. Genet. 38, 299–306 (1939).
Mehlquist, G. A. L., and T. A. Geissman: Inheritance in the carnation, Dianthus caryophyllus. III. Inheritance of flower color. Ann. Missouri Bot. Garden 34, 39–74 (1947).
Moewus, F.: Die Sexualstoffe von Chlamydomonas eugametos. Erg. Enzymforsch. 12, 173–206 (1951).
Über die Biosynthese des Quercetins. Angew. Chem. 65, 561 (1953).
Newton, W. C. F.: The inheritance of flower colour in Papaver Rhoeas and related forms. J. Genet. 21, 389–404 (1929).
Paech, K.: Biochemie und Physiologie der sekundären Pflanzenstoffe, 1. Aufl. Berlin 1950.
Philp, J.: The genetics of Papaver Rhoeas and related forms. J. Genet. 28, 175–203 (1933).
Robinson, G. M., and R. Robinson: A survey of anthocyanins. I. Biochemic. J. 25, 1687 bis 1705 (1931).
A survey of anthocyanins. II. biochemic. J. 26, 1647–1664 (1932).
A survey of anthocyanins. III. Biochemic. J. 27, 206–212 (1933).
A survey of anthocyanins. IV. Biochemic. J. 28, 1712–1720 (1934).
Robinson, R.: The formation of anthocyanins in plants. Nature (Lond.) 137, 172 (1936).
Sando, C. E.: Coloring matters of the grimes golden, Jonathan and Stapman winesap apples. J. of Biol. Chem. 117, 45–56 (1937).
Sando, C. E., R. T. Milner and M. S. Sherman: Pigments of the mendelian color types in maize: Chrysanthemin from purple husked maize. J. of Biol. Chem. 109, 203–211 (1935).
Scott-Moncrieff, R.: A note on the anthocyanin pigments of the primrose P. acaulis. J. Genet. 25, 206–210 (1932).
A biochemical survey of some mendelian factors for flower colour. J. Genet. 32, 117–170 (1936).
The genetics and biochemistry of flower colour variation. Erg. Enzymforsch. 8, 277–306 (1939).
Seyffert, W.: Untersuchungen über die Genetik der Cyclamenfarben. Diss. Berlin 1954.
Die Vererbung der Blütenfarben bei hemiploiden Cyclamen. Züchter 25, 275–287 (1955).
Stephens, S. G.: A biochemical basis for the pseudo-allelicanthocyanin series in Gossypium. Genetics 33, 191–214 (1948).
Störmer, J., u. H. v. Witsch: Chemische und entwicklungsphysiologisch-genetische Untersuchungen über das Blütenfarbmuster der Gartenpetunie. Planta (Berl.) 27. 1 (1938).
Sutton, E.: The genetics of Tropaeolum majus. II. J. Genet. 38, 161–176 (1939).
Wellensiek, S. J.,: The breeding of cyclamens. Rep. 13. internat. Hort. Congr., S. 771–777, 1952.
Wellensiek, S. J., J. Doorenbos en I. de Haan: Systematiek, Cytologie en Genetica van Cyclamen. Meded. Dir. Tuinb. 13, 608–619 (1950).
Wender, S. H., and T. B. Gage: Paper chromatography of flavonoid pigments. Science (Lancaster, Pa.) 109, 287 (1949).
Werckmeister, P.: Papierchromatographische Studien zur Blütenfarbenzüchtung. Naturwiss. 39, 328–329 (1952a).
Möglichkeiten und Wege der Farbenzüchtung. Gartenwelt 16, 259–260, 281–282 (1952b).
Papierchromatographische Untersuchungen von Zellfarbstoffen und ihre Bedeutung für die Blütenfarbenzüchtung. Ber. 1952/53 Lehr- u. Forschungsanstalt Wein-, Obst- und Gartenbau Geisenheim, S. 16–22, 1953.
Papierchromatographische Untersuchungen von Anthozyanen und chymochromen Begleitstoffen zur Frage der Blütenfarbenzüchtung. Züchter 24, 224–242 (1954).
Wheldale, M.: Die Vererbung der Blütenfarbe bei Antirrhinum majus. Z. Vererbungslehre 3, 321–333 (1910).
Our present knowledge of the chemistry of the mendelian factors for flower colours. J. Genet. 4, 109–129 (1914).
Wheldale, M., and H. Basset: The chemical interpretation of some mendelian factors for flower colour. Proc. Roy. Soc. Lond., Ser. B 87, 300–311 (1914).
Winton, D. de, and J. B. S. Haldane: The genetics of Primula sinensis. II. Segregation and interaction of factors in the diploid. J. Genet. 27, 1–44 (1933).
Wit, F.: Contributions to the genetics of the china aster. Diss. Groningen 1936.
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Seyffert, W. Über Die Wirkung Von Blütenfarbgenen Bei Cyclamen. Z.Ver-erbungslehre 87, 311–334 (1955). https://doi.org/10.1007/BF00309521
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DOI: https://doi.org/10.1007/BF00309521