Two-way paper chromatography of the chloroplast pigments of leaves.
暂无分享,去创建一个
[1] J. Katz,et al. Preparation and properties of pyrochlorophyll a, methyl pyrochlorophyllide a, pyropheophytin a, and methyl pyropheophorbide a derived from chlorophyll by decarbomethoxylation , 1964 .
[2] J. Katz,et al. Infrared Spectra, Molecular Weights, and Molecular Association of Chlorophylls a and b, Methyl Chlorophyllides, and Pheophytins in Various Solvents , 1963 .
[3] F. T. Wolf. Effects of Light and Darkness on Biosynthesis of Carotenoid Pigments in Wheat Seedlings. , 1963, Plant physiology.
[4] D. Steffenson,et al. Activated Cellulose for Solution-Adsorption Chromatography. , 1963 .
[5] J. Katz,et al. SPECTRAL ABSORPTION PROPERTIES OF ORDINARY AND FULLY DEUTERIATED CHLOROPHYLLS A AND B. , 1963, Biochimica et biophysica acta.
[6] C. Chichester,et al. Studies on the light and dark interconversions of leaf xanthophylls. , 1962, Archives of biochemistry and biophysics.
[7] H. H. Strain,et al. Elution Capacity of Organic Substances in Solution-Adsorption Chromatography. , 1962 .
[8] S. W. Jeffrey,et al. Paper-chromatographic separation of chlorophylls and carotenoids from marine algae. , 1961, The Biochemical journal.
[9] A. Khudairi. Xanthium leaf pigments and their inhibition by streptomycin. , 1961, Biochimica et biophysica acta.
[10] J. Katz,et al. CHLOROPLAST PIGMENTS AND PHOTOSYNTHESIS IN DEUTERATED GREEN ALGAE * , 1960 .
[11] J. Anderson. Centrifugally accelerated paper chromatography of chloroplast pigments , 1960 .
[12] J. Anderson,et al. Biosynthesis and Possible Functional Relationships Among the Carotenoids; and Between Chlorophyll a and Chlorophyll b. , 1959, Plant physiology.
[13] Z. Šesták. Paper chromatography of chloroplast pigments , 1958 .
[14] H. H. Strain. Chlorophyll Reactions, Oxidation and Isomerization Reactions of Chlorophylls in Killed Leaves , 1954 .
[15] H. H. Strain. Leaf xanthophylls: the action of acids on violaxathin, violeoxanthin, taraxanthin and tareoxanthin. , 1954, Archives of biochemistry and biophysics.
[16] H. H. Strain. Distribution of Adsorption Columns. Separation of Xanthophylls and Chlorophylls. , 1950 .
[17] M. Wolfrom,et al. A synthesis of streptidine. , 1948, Journal of the American Chemical Society.
[18] H. H. Strain. Molecular structure and adsorption sequences of carotenoid pigments. , 1948, Journal of the American Chemical Society.
[19] P. Karrer,et al. Ein neuer Blattfarbstoff: Xanthophyllepoxyd , 1948 .
[20] W. M. Manning,et al. XANTHOPHYLLS AND CAROTENES OF DIATOMS, BROWN ALGAE, DINOFLAGELLATES, AND SEA-ANEMONES , 1944 .
[21] W. M. Manning,et al. ISOMERIZATION OF CHLOROPHYLLS A AND B , 1942 .
[22] P. Karrer,et al. Über die Phytoxanthine der Löwenzahnblüten. Flavoxanthin , 1942 .
[23] W. G. Brown. Micro Separations by Chromatographic Adsorption on Blotting Paper , 1939, Nature.
[24] H. H. Strain. CAROTENE XI. ISOLATION AND DETECTION OF α-CAROTENE, AND THE CAROTENES OF CARROT ROOTS AND OF BUTTER , 1939 .
[25] D. Hey. Eloxanthin-a new carotenoid pigment from the pondweed Elodea canadensis. , 1937, The Biochemical journal.
[26] H. H. Strain. CAROTENE VIII. SEPARATION OF CAROTENES BY ADSORPTION , 1934 .
[27] P. Karrer,et al. Pflanzenfarbstoffe LI. Reines α-Carotin , 1933 .
[28] R. Kuhn,et al. Zerlegung des Carotins in seine Komponenten. (Über das Vitamin des Wachstums, I. Mitteil) , 1931 .
[29] R. Kuhn,et al. Viola‐xanthin, das Xanthophyll des gelben Stiefmütterchens (Viola tricolor) (Über konjugierte Doppelbindungen, XVI.) , 1931 .
[30] R. Kuhn,et al. Taraxanthin, ein neues Xanthophyll mit 4 Sauerstoffatomen. Mit 1 Figur im Text. , 1931 .
[31] Richard Kuhn,et al. Zur Kenntnis der Xanthophylle. , 1931 .
[32] G. G. Stokes. XXXIV.—On the application of the optical properties of bodies to the detection and discrimination of organic substances , 1864 .