Bibliography
Alcock, R. The role of tryptophan in blood development. Biochem. Jour.27: 754–758. 1933.
Altman, K. I.,et al. Hemoglobin synthesis from glycine labeled with C14 in its α-carbon atom. Jour. Biol. Chem.176: 319–325. 1948.
Anson, M. L. Lyubimenko extracts of chlorophyll-protein. Science93: 186–187. 1941.
Arnold, W. andOppenheimer, J. R. Internal conversion in the photosynthetic mechanism of blue-green algae. Jour. Gen. Physiol.33: 423–435. 1950.
Arnon, D. I. Localization of polyphenoloxidase in the chloroplasts ofBeta vulgaris. Nature162: 341–342. 1948.
—. Copper enzymes in isolated chloroplasts. Polyphenoloxidase inBeta vulgaris. Pl. Phys.24: 1–15. 1949.
— andWhatley, F. R. Factors influencing oxygen production by illuminated chloroplast fragments. Arch. Biochem.23: 141–156. 1949.
——. Is chloride a coenzyme of photosynthesis? Science110: 554–556. 1949.
Aronoff, S. The chemistry of chlorophyll. Thesis, Univ. of Calif., Berkeley. 1942.
—. Pyrroles and Fe-chlorosis. Pl. Phys.12: 713–715. 1943.
—. Photochemical reduction of chloroplast grana. Pl. Phys.21: 393–409. 1946.
—,et al. Distribution of C14 in photosynthesizing barley seedlings. Science105: 664–665. 1947.
— andMackinney, G. The photooxidation of chlorophyll. Jour. Am. Chem. Soc.65: 956–958. 1943.
— andWeast, C. Spectra of porphyrins and their acid salts. Jour. Org. Chem.6: 550–557. 1941.
-.[In press].
Balansard, J. andPelissier, F. Action of saponins on formation of chlorophyll pigment. Compt. Rend. Soc. Biol.137: 763–764. 1943.
Ball, R.,et al. A further study of the porphyrin-like products of the reaction of benzaldehyde and pyrrole. Jour. Am. Chem. Soc.68: 2278–2281. 1946.
Barrenscheen, H. K.,et al. Synthetic ability of seedlings. II. Formation of carotenoids and chlorophyll in etiolated seedlings. Biochem. Zeits.310: 335–343. 1942. [Abstr.]
Bauer, E. andNiggli, F. Assimilation of carbon dioxide in vitro. Helv. Chim. Acta.26: 251–254. 1943.
——. On assimilation in vitro. Helv. Chim. Acta.26: 994–995. 1943.
Beck, W. A. Effect of drought on production of plant pigments. PL Phys.17: 487–491. 1942.
Bennett, J. P. Iron in leaves. Soil Science60: 91–105. 1945.
Beyerinck, M. W. Investigations on oxygen evolution in the light byChlorella and other algae. Bot. Ztg.48: 741. 1890.
Biebel, J. P. Some effects of radiant energy in relation to etiolation. Pl. Phys.17: 377–396. 1942.
Blinks, L. R. Photosynthetic action spectra in red algae. Am. Tour. Bot.33: 836. 1946.
Bloch, K. andRittenberg, D. An estimate of acetic acid formation in the rat. Jour. Biol. Chem.159: 45–58. 1945.
Boichenko, E. H. Conditions necessary for the activity of chloroplasts outside the cell. Compt. Rend. Acad. Sci. URSS38: 181–184. 1943.
—. Catalysts for the action of isolated chloroplasts. Compt. Rend. Acad. Sci. URSS41: 345–347. 1944.
—. Hydrogenase from isolated chloroplasts. Biokhimiya12: 153–162. 1947.
Bot, G. M. The chemical composition of chloroplast granules (grana) in relation to their structure. Chron. Bot.7: 66–67. 1942.
Brown, A. H. andFranck, J. On the participation of carbon dioxide in the photosynthetic activity of illuminated chloroplast suspensions. Arch. Biochem.16: 55–60. 1948.
Bukatsch, F. Daily variation of the chlorophyll content of alpine plants. Chem. Abs.34: 3125–2131. 1940.
—. The daily variations of the chlorophyll content of alpine plants. Zeits. Ges. Naturw.6: (7–8): 197–198. 1940.
Buvat, L. R. Dedifferentiation of the chlorophyll cells in the petioles ofBrimeaura amethystina. Compt. Rend. Acad. Sci., Paris213: 660–663. 1941.
Calvin, M. andAronoff, S. Chlorophyll and photosynthesis. Univ. Calif. Rad. Lab., Rep. 263. 1948.
— andBenson, A. A. Path of carbon in photosynthesis.107: 476–480. 1948.
— andDorough, G. The possibility of a triplet state intermediate in the photooxidation of a chlorin. Jour. Am. Chem. Soc.70: 699–706. 1948.
Chibnall, A. C. Protein metabolism in the plant. 1939.
Collaer, P. Role of light in chlorophyll assimilation. Ber. Schweiz. Bot. Ges.51: 348–362. 1941.
Cook, A. H. Algae pigments and their significance. Biol. Rev.20: 115–132. 1945.
Cooke, D. Report of nitrogen metabolism laboratory. Proc. Hawaiian Sugar Planters’ Assoc, Rept. Comm. in Charge Expt. Sta.59: 111–112. 1939. (Pub. 1940). [Abstr.]
Dam, H.,et al. Formation and importance of vitamin K in plant organisms. Zeits. Physiol. Chemie265: 80–87. 1940.
Davis, E. A. Photosynthetic studies with mutant strains ofChlorella. Science108: 110. 1948.
Demidenko, T. Fe in the nutrition of higher plants. Compt. Rend. Acad. Sci. URSS15: 267–271. 1937.
Deuber, C. Can a pyrrole derivative be substituted for Fe in the growth of plants? Am. Jour. Bot.13: 276–285. 1926.
Dobriner, K.,et al. Excretion of porphyrin in pellagra. Proc. Soc. Exp. Biol. & Med.36: 748–752. 1937.
Drabkin, B. S. Effect of greening on the catalase action of etiolated seedlings. Biokhimiya13: 101–103. 1948.
Dufrenoy, J. Some physiological relations of virus-infected plant tissues. Biodynamica4: 171–184. 1943.
Dutton, H. J. andJuday, C. Chromatic adaptation in relation to color and depth distribution of fresh water phytoplankton and large aquatic plants. Ecology25: 273–282. 1944.
— andManning, W. M. Evidence for carotenoid-sensitized photosynthesis in the diatomNitsschia closterium. Am. Jour. Bot.28: 516–526. 1941.
Dutton, H. J.,et al. Chlorophyll fluorescence and energy transfer in the diatomNitzschia closterium. Jour. Phys. Chem.47: 308–313. 1943.
Eilert, Sister andGiersch, Sister. Effect of the filtrate of U-V irradiatedStichococcus bacillaris Naegeli on the chlorophyll and carbohydrate content of algae. Studies Inst. Divi Thomae4: 101–106. 1945.
Elliott, A. M. Effect of phytohormones onEuglena in relation to light. Trans. Am. Micr. Soc.58: 385–390. 1939; Chem. Abs.32: 55153.
Emerson, R.,et al. Relation between quantity of chlorophyll and capacity for photosynthesis. Pl. Phys. 311–317. 1940.
— andLewis, C. M. The photosynthetic efficiency of phycocyanin inChroococcus, and the problem of carotenoid participation in photosynthesis. Jour. Gen. Physiol.25: 579–595. 1942.
Englemann, T. W. A new method for the investigation of oxygen evolution of plant and animal organisms. Bot. Ztg.39: 442–447. 1881;40: 419. 1882;42: 81. 1884;42: 97. 1884.
Ewart, A. J. On assimilatory inhibition in plants. Jour. Linn. Soc., Bot.31: 364–461. 1897.
von Euler, H. The germination of seeds as affected by antibiotic substances. I. Influence of chlorophyll formation. Arkiv. Kemi, Mineral., Geol.25A: 17. 1947; Chem. Abs.42: 5954 i.
—,et al. Action of streptomycin on the germination of seeds of green plants and on polynucleotides. Compt. Rend. Acad. Sci., Paris227: 16–18. 1948.
— andHellström, H. On the formation of xanthophyll, carotene and chlorophyll in lighted and darkened wheat seedlings. Zeits. Physiol. Chemie183: 177–183. 1929.
— andKlussmann, C. The biochemistry of the carotenoids and of vitamin C. Zeits. Physiol. Chemie219: 215–223. 1933.
Fan, C. S.,et al. An experimental separation of oxygen liberation from carbon dioxide fixation in photosynthesis byChlorella. Jour. Gen. Physiol.27: 15–28. 1943.
Fischer, H.,et al. Protochlorophyll and vinylpheoporphyrin a5. Zeits. Physiol. Chemie257: 4–7. 1939.
— andOestreicher, A. Protochlorophyll and vinylporphyrines. Zeits. Physiol. Chemie.262: 243–269. 1940.
Fishman, M. M. andMoyer, L. S. The chlorophyll-protein complex. I. Electrophoretic properties and the isoelectric point. Jour. Gen. Physiol.25: 755–764. 1942.
——. Electrophoresis of the chlorophyll-protein complex. Science95: 128–129. 1942.
Franck, J. Photosynthetic activity of isolated chloroplasts. Rev. Mod. Physics17: 112–119. 1945.
— andLivingston, R. Remarks on the fluorescence, phosphorescence and photochemistry of dyestuffs. Jour. Chem. Phys.9: 184–190. 1941.
Frank, S. R. Effectiveness of the spectrum in chlorophyll formation. Jour. Gen. Physiol.29: 157–179. 1946.
Freeland, R. O. American mistletoe with respect to chlorophyll and photosynthesis. Pl. Phys.18: 299–302. 1943.
French, C. S.,et al. The evolution of oxygen from illuminated suspensions of frozen, dried, and homogenized chloroplasts. Science103: 505–506. 1946.
— andRabideau, G. S. The quantum yield of oxygen production by cloroplasts suspended in solutions containing ferric oxalate. Jour. Gen. Physiol.28: 329–342. 1945.
Gaffron, H. The photochemical formation of peroxide by oxygen transfer via chlorophyll. Berichte60: 2229–2238. 1927.
Gessner, F. The assimilatory capacity of phytoplankton in relation to chlorophyll content. Zeits. Bot.38: 414–424. 1943.
Ghosh, J. C. andSen Gupta, S. B. Photochemical reduction of methyl red by phenylhydrazine with chlorophyll solution as a photosensitizer. Jour. Indian Chem. Soc.11: 65–77. 1934.
Gilles, E. Influence of UV rays on chlorophyll and its development. Bull. Soc. Bot. France86: 140–145. 1939.
Godnev, T. Role of Fe in the formation of chlorophyll. Polyt. Inst.10: 87–92. 1927. [Abs.]
—. On the yellow pigments accompanying chlorophyll. Planta10: 811–813. 1939.
— andKalishevich, S. V. Chlorophyll concentration in cloroplasts ofMniutn medium. Compt. Rend. Acad. Sci. URSS27: 832–833. 1940.
-. Precursors of chlorophyll in the successive steps of forming the chlorophyll molecule in plants. Coll. Papers Pl. Phys., K. A. Timiryazev Inst. Pl. Phys. 43–60. 1941.
Gol’din, M. I. Interrelation between mosaic virus and ascorbic acid in tobacco plant. Compt. Rend. Acad. Sci. URSS26: 300–303. 1940.
Goodwin, R. H. andOwens, O. v. H. Formation of chlorophyll in etiolated oat seedlings. Pl. Phys.22: 197–200. 1947.
Gortikova, N. andSapozhnikov, D. Dependence of greening in plants on the oxidation-reduction potential. Sovet. Bot.5: 99–101. 1939.
Graham, H. W. Chlorophyll content of marine plankton. Jour. Marine Res.5: 153–160. 1943.
Granick, S. Isolation of chloroplasts from higher plants. Am. Jour. Bot.25: 558–561. 1938.
—. Protoporphyrin 9 as precursor of chlorophyll. Jour. Biol. Chem.172: 717–727. 1948.
—. Magnesium protoporphyrin as a precursor of chlorophyll inChlorella. Jour. Biol. Chem.175: 333–342. 1948.
—. Magnesium vinyl pheoporphyrin as, another intermediate in the biological synthesis of chlorophyll. Jour. Biol. Chem.183: 713–730. 1950.
Griffith, R. B.,et al. Chlorophyll and carotene content of eighteen tobacco varieties. Pl. Phys.19: 689–693. 1944.
Grinstein, M.,et al. Observation on the utilization of glycine in the biosynthesis of hemoglobin. Jour. Biol. Chem.174: 767–768. 1948.
—,et al. The utilization of glycine in the biosynthesis of hemoglobin. Jour. Biol. Chem.179: 359–364. 1949.
Guerrini, G. Monochromatic light and chlorophyll. Boll. Soc. Ital. Biol. Sper.16: 550–552. 1941. [Abs.]
Gurevitch, A. A. Reduction of ortho-dinitrobenzene by green plants. Biokhimiya6: 467–475. 1941.
—. On the reduction of ortho-dinitrobenzene in the light by extracellular isolated chloroplasts. Compt. Rend. (Doklady) Acad. Sci. URSS55: 263–266. 1947.
Gustafson, F. G. Influence of external and internal factors on growth hormone in green plants. Pl. Phys.21: 49–62. 1946.
Gyorffy, B. The physiological and chemical make-up of polyploid plants. Maguar Biol. Kutato intézet Munkái13: 362–446. 1941.
Hamada, T. Intermediary metabolism of tryptophane. Zeits. Physiol. Chem.243: 258–265. 1936.
Hanson, E. A.,et al. Relation between protein nitrogen, protein sulfur, and chlorophyll in sudan grass. Australian Jour. Exp. Biol. & Med. Sci.19: 231–234. 1941.
Haxo, F. T. andBlinks, L. R. Photosynthetic action spectra of marine algae. Jour. Gen. Physiol.33: 389–422. 1950.
Hill, R. Oxygen evolution by isolated chloroplasts. Nature103: 81. 1939.
— Oxygen produced by isolated chloroplasts. Proc. Royal Soc., London, B127: 192–210. 1939.
— andLehmann, H. Studies on Fe in plants. Biochem. Jour.35: 1190–1199. 1941.
— andScarisbrick, R. The reduction of ferric oxalate by isolated chloroplasts. Proc. Royal Soc., London, B129: 238–255. 1940.
- and -. Production of oxygen by illuminated chloroplasts.S 39 (1940).
——. The reduction of ferric oxalate by isolated chloroplasts. Nature14b: 61–62. 1940.
Hill, T. L.,et al. A spectrophotometric study of the anhydro base of viridine green. Jour. Am. Chem. Soc.67: 454–463. 1945.
Holmes, A. D.,et al. Ascorbic acids, carotene, chlorophyll, riboflavin, and water contents of summer squashes. Food Res.10: 489–496. 1945.
Holt, A. S. andFrench, C. S. The photochemical production of oxygen and hydrogen ion by isolated chloroplasts. Arch. Biochem.9: 25–43. 1946.
— and—. Oxygen production by illuminated chloroplasts suspended in solutions of oxidants. Arch. Biochem.19: 368–378. 1949.
— and—. Isotopic analysis of the oxygen evolved by illuminated chloroplasts in normal water and in water enriched with O18. Arch. Biochem.19: 429–435. 1949.
- and -. Dyes and the chlorophyll-quinone reaction.In Photosynthesis in plants, 277–287. 1949.
Il’ina, A. A. Absorption and reflection spectra of plant leaves. Jour. Phys. Chem.21: 145–159. 1947. [Abs.]
Inman, O. L. The chlorophylls and photosynthesis of thermal algae from Yellowstone National Park. Jour. Gen. Physiol.23: 661–666. 1940.
Iuracec, A. Chlorophyll and plant nutrition. Ann. Sci. Univ. Jassy, II.26: 18–74. 1940.
—. A study of the chlorophyll content of the leaves of the male and female plants ofUrtica dioica L. Ann. Sci. Univ. Jassy, II.26: 809–814. 1940.
Jacobson, L. Fe in the leaves and chloroplasts of some plants in relation to their chlorophyll content. Pl. Phys.20: 233–245. 1945.
Javillier, M. andGoudchaux, S. The Mg of chlorophyll. Ann. Agron.10: 9–14. 1940.
Kar-Murza, L. K. The physiology of cotton with leaf curling.In Plant Virus Diseases and Their Control. Trans. Conf. Plant Virus Diseases, Acad. Sci. USSR, Inst. Microbiol.: 197–202. 1941. [Abs.]
Kashimoto, K. Separation of catalase from chlorophyll. III. Jour. Chem. Soc. Japan64: 1082–1085. 1943.
Kennedy, Jr.,S. R. The influence of Mg deficiency, chlorophyll concentration, and heat treatments on the rate of photosynthesis ofChlorella. Am. Jour. Bot.27: 68–73. 1940.
Khan, M. A. R. andQureshi, M.Chlorophyll. III. Cataphoresis and electrolytic coagulation of colloidal chlorophyll. Jour. Osmania Univ.8: 1–5. 1940. [Abs.]
Kohler, G. O. The effect of stage of growth on the chemistry of grasses. Jour. Biol. Chem.152: 215–223. 1944.
Koski, V. andSmith, J. H. C. The isolation and spectral absorption properties of protochlorophyll from etiolated barley seedlings. Jour. Am. Chem. Soc.70: 3558–3562. 1948.
Krasnovskii, A. A. Reversible photochemical reduction of chlorophyll by ascorbic acid. Doklady Akad. Nauk. SSSR60: 421–424. 1948.
—. Oxidation-reduction reactions, photosensitized by chlorophyll and by magnesium phthalocyanin, proceeding with an increase of free energy of the system. Doklady Akad. Nauk. SSSR61: 91–94. 1948.
Krossing, G. Studies on the localization of some enzymes in different regions of the spinach leaf. Biochem. Zeits.305: 359–373. 1940.
Kuhn, R.,et al. Invert soaps. I. Action of invert soaps on proteins. Ber.73B: 1080–1091. 1941.
Kumm, J. andFrench, C. S. The evolution of oxygen from suspensions of chloroplasts; the activity of various species and the effect of previous illumination of the leaves. Am. Jour. Bot.32: 291–295. 1945.
Lepeschkin, W. W. Some aspects of the state of chlorophyll in chloroplasts. Pl. Phys.24: 175–177. 1949.
Livingston, R. Reversible bleaching of chlorophyll. Jour. Phys. Chem.45: 1312–1320. 1941.
—. The reversible photobleaching of dyes and pigments. Jour. Phys. & Coll. Chem.52: 527–534. 1948.
-.In Photosynthesis in Plants, edited by Loomis, W. and Franck, J. 1949.
— andPariser, R. The chlorophyll-sensitized photoxidation of phenylhydrazine by methyl red. II. Reactivity of the several forms of methyl red. Jour. Am. Chem. Soc.70: 1510–1515. 1948.
Lodoletti, A. Pyrrole derivatives substituting for chlorophyll. Boll. Chim. Farm.77: 609–610. 1938.
Loo, S. W. Cultivation of excised stem tips of dodder in vitro. Am. Jour. Bot.33: 295–300. 1946.
Lubimenko, V. Condition of chlorophyll in the plastids. Compt. Rend. Acad. Sci., Paris173: 365–367. 1921.
McBrady, J. J. andLivingston, R. Reversible photobleaching of chlorophyll. Jour. Phys. & Coll. Chem.52: 662–676. 1948.
McKinney, H. H. The effect of mosaic virus infection on the protein content of susceptible and resistant strains of tobacco. Phytopathology32: 857–866. 1942.
Mackinney, G. Criteria for purity of chlorophyll preparation. Jour. Biol. Chem.132: 91–109. 1940.
—. Absorption of light by chlorophyll solutions. Jour. Biol. Chem.140: 315–322. 1941.
Manning, W. M. andJuday, R. E. The chlorophyll content and productivity of some lakes in northeastern Wisconsin. Trans. Wis. Acad. Sci.33: 363–393. 1941.
— andStrain, H. H. Chlorophylld, a green pigment of red algae. Jour. Biol. Chem.151: 1–19. 1943.
Matsuoka, T. andNukao, Z. On the effect of methyltryptophan on induced anemia and regeneration. Zeits. Physiol. Chem.195: 208–214. 1931.
Menke, W. Protoplasm of the green plant cells; I. Isolation of chloroplasts from spinach; II. Chlorophyll contents of the chloroplasts of spinach leaves. Zeits. Bot.257: 43–48. 1938.
—. Protoplasm of green plant cells. II. Chlorophyll contents of the chloroplasts of spinach leaves. Zeits. Physiol. Chem.263: 100–103. 1940.
Meyer, K. P. Spectroscopic investigation of the state of chlorophyll in the plant, in extracts, and in pure preparations. Helv. Phys. Acta12: 349–393. 1939.
Miller, E. S. andJohnson, I. J. Inheritance of chlorophyll in F1 crosses made reciprocally between selfed lines of corn. Proc. Soc. Exp. Biol. & Med.44: 26–28. 1940.
Mirimanoff, G. Vitamin C and chlorophyll. Compt. Rend. Acad. Sci., Paris206: 766. 1938.
Mittenzwei, H. Bacteriochlorophyll. Zeits. Physiol. Chem.275: 93–121. 1942.
Montfort, C. The photosynthesis of brown cells as a joint activity of chlorophyll and carotenoids. Zeits. Phys. Chem.A186: 57–93. 1940; suppl.A186: 253. 1940.
—. The relations among the stagnation effect, the photooxidatiye destruction of chlorophyll, and the functional sunstroke of marine plants. Naturwiss.29: 238. 1941.
—. Increased supply of energy from xanthophyll and carotene in comparison with chlorophylla plants anda + b plants. Ber. Deut. Bot. Ges.59: 320–332. 1941.
— andZöllner, G. Stability and destruction of chlorophyll in leaves. Action of sunlight. Bot. Arch.43: 393–460. 1942.
Moyer, L. S. andFishman, M. M. The chlorophyll-protein complex. II. Species relationships in certain legumes as shown by electric mobility curves. Bot. Gaz.104: 449–454.
Muir, H. M. andNeuberger, A. The biogenesis of porphyrins. Biochem. Jour.45: 163–170. 1949.
- and -. Further studies of the biogenesis of porphyrins in rabbits. XXXIV (1949).
Müller, D. The chlorophyll and nitrogen content in fairy rings ofMorasmius oreades. Friesia2: 221–224. 1943.
Myers, J. Carbon and nitrogen balance ofChlorella during growth. Pl. Phys.24: 111–119. 1949.
Nagasima, H. The developmental changes of quantities of chlorophyll and carotene in the leaves of rice plants, barley and wheat. Japan Jour. Bot.9: 277–296. 1938.
Nakamura, H. The quantitative relationship between the catalase in chloroplasts and chlorophyll with some observations on the role of catalase in assimilation. Japan Jour. Bot.11: 221–235. 1941; Chem. Zentr. 1942I, 1643.
Neubauer, M. Vitamin C in plants. Protoplasma33: 345–570. 1939. Zeits. Untersuch. Lebensm.81: 54. 1941.
Van Niel, C. B. Bacterial photosynthesis.In Advances in Enzymology. Vol.1. 1941.
Nisina, Y.,et al. Effect of neutrons on photosynthesis. Bull. Inst. Phys. Chem. Res.19: 1343–1347. 1940.
Noack, K. Condition of chlorophyll in the living plant. Biochem. Zeits.183: 135–152. 1927.
—. Biological decomposition of chlorophyll. Biochem. Zeits.316: 166–187. 1943.
— andKiessling, W. Origin of chlorophyll and its relation to the blood pigment. Zeits. Physiol. Chem.182: 13–49. 1929.
Norris, T. H.,et al. Tracer studies with radioactive hydrogen. Some experiments on photosynthesis and chlorophyll. Jour. Am. Chem. Soc.64: 3037–3040. 1942.
Okanenko, A. S. The chlorophyll content in sugar beet leaves. Zhur. Inst. Bot. Akad. Nauk URSR, No. 18–19 (26–27) : 111–125. 1938. [Abs.]
Olsen, C. Chlorophyll content of beech leaves (Fagus sivatica) exposed to light and shade. Compt. Rend. Trav. Lab. Carlsberg, Chim.24: 99–102. 1942.
Oserkowsky, J. Quantitative relation between chlorophyll and iron in green and chlorotic pear leaves. Pl. Phys.8: 449–468. 1933.
Ovchinnikov, N. N. Chemism of photosynthesis. Compt. Rend. Acad. Sci. URSS31: 163–164. 1941.
Pallares, E. S.,et al. Fixation of chlorophyll inEuglena viridus by vitamins. Quimica (Mex.)3: 5–7. 1945.
Pepkowitz, L. P. Some observations on the photochemical destruction of carotene. Jour. Biol. Chem.155: 219–225. 1944.
Pickett, W. F. andBirkeland, C. J. The influence of some spray materials in the internal structure and chlorophyll content of apple leaves. Kan. Agr. Exp. Sta., Bull.53. 1942.
— andKenworthy, A. L. The relationship between structure, chlorophyll content, and photosynthesis in apple leaves. Proc. Am. Soc. Hort. Sci.37: 371–373. 1940.
Pirschle, K. Chlorophyll content of autopolyploid plants. Naturwiss.29: 45–46. 1941.
Pollacci, G. Influence of the pyrrole nucleus on chlorophyll formation. Ber.53: 540–542. 1935.
— andOddo, B. Influence of the pyrrole nucleus on chlorophyll formation. Compt. Rend. Accad. Lincei24: 37–39. 1915.
—, —, andGallotti, M. Influence of the pyrrole nucleus on the formation of chlorophyll. Boll. Soc. Ital. Biol. Sper.10: 565–567. 1935.
Porret, D. Reversible bleaching of chlorophyll. Nature140: 321. 1937.
Porter, T.,et al. Carotene and chlorophyll content of fresh and processed Swiss chard and beet greens. Food Res.9: 434–441. 1944.
Powers, W. L. Boron in relation to soil fertility in the Pacific Northwest. Proc. Soil Sci. Soc. Am.4: 290–296. 1939.
Pruckner, F.,et al. Chlorophyll. CI. Rotation dispersion and apparent optical inactivity of several chlorophyll derivatives. Ann.546: 41–49. 1940.
Rabideau, G. S.,et al. Absorption and reflection spectra of leaves. Am. Jour. Bot.33: 769–777. 1946.
Rabinowitch, E. Photosynthesis. Vol. I. 1945.
Randoin, L.,et al. Ascorbic acid content of chlorophyllous tissues. Compt. Rend. Soc. Biol.126: 1068. 1937.
Richter, O. Yolk of egg, white of egg, cow milk, chyle and chlorophyll gypsum plate photographs. Fundamenta Radiol. (Berlin)5: 56–78. 1939; Chem. Zentr. 1940, II, 716.
Robinson, R. Relation of some complex natural products to the simple sugars and amino acids. Proc. Univ. Durham Phil. Soc.8.1: 14–59. 1927–8.
Rohde, G. Significance of potassium in chlorophyll production in plants. Z. Pflanzenkr. Pflanzenschutz45: 499–510. 1935. [Abs.]
Roubaix, J. de andLazar, G. Chlorophyll and beet. Pub. Inst. Belge amelioration betterave10: 191–198. 1942. [Abs.]
Salageanu, N. The limit of chlorophyll assimilation in weak light. Bull. Sect. Sci. Acad. Roumaine21: 147–171. 1938–1939. [Abs.]
Schenck, G. O. andZiegler, K. The synthesis of ascaridole. Naturwiss.32: 157. 1945.
Schropp, W. Trace elements and the quality of cultivated plants. Forschungsdienst, Sonderheft12: 90–108. 1940. [Abs.].
Seybold, A. Does the chlorophyll content of leaves show daily variations? Bot. Arch.43: 71–77. 1941.
—. Some problems of the physiology of chlorophyll. Scientia71: 19–23. 1942.
— andEgle, K. Contribution to the knowledge of protochlorophyll (II). Planta29: 119–128. 1938–39.
——. Contribution to the knowledge of bacteriochlorophyll. Sitzber. Heid. Akad. Wiss. Math.-Nat.-Klasse, Abh.1: 7–17. 1939.
——. The physical condition of chlorophyll in the plastids. Bot. Arch.41: 578–603. 1940. [Abs.]
——. The pigment content of green spores and seeds. Bot. Arch.43: 78–83. 1941. [Abs.]
—,et al. Chlorophyll and carotenoid determinations on freshwater algae. Bot. Arch.42: 239–253. 1941.
— andHulsbruch, W. Further analyses of chlorophyll and carotenoid in fresh-water algae. II. Bot. Arch.44: 336–341. 1943.
— andWeissweiler, A. Spectrophotometric measurements of green plants and chlorophyll solutions. Bot. Arch.43: 252–290. 1942. [Abs.]
Shcheglova, O. A. The relation of the energy of photosynthesis to the quantity of chlorophyll in leaves of buckwheat. Exp. Bot. No. 4, Trudy Bot. Inst., Acad. Sci. USSR, IV, 63–69 (in English, 69–70). 1940. [Abs.]
Shemin, D. andRittenberg, D. Utilization of glycine for the synthesis of a porphyrin. Jour. Biol. Chem.159: 567–568. 1945.
——. Biological utilization of glycine for the synthesis of protoporphyrin. Jour. Biol. Chem.155: 621–625. 1946.
Shemin, D.,et al. The relationship of serine to porphyrin synthesis. Jour. Biol. Chem.183: 767–769. 1950.
Sideris, C. P. Chlorophyll and protein interrelationships inAnanas comosus (L.) Merr. Pl. Phys.22: 160–173. 1947.
— andYoung, H. Y. Effects of Fe on chlorophyll pigments, … ofAnanas comosus (L.) Merr. supplied with NO3 or NH4+ salts. Pl. Phys.19: 52–75. 1944.
——. Effect of K on chlorophyll, ascorbic acid, and carbohydrates ofAnanas comosus (L.) Merr. Pl. Phys.20: 649–670. 1945.
—,et al. Effects of Fe on the growth and ash constituents ofAnanas cosmosus (L.) Merr. Pl. Phys.18: 608–632. 1943.
Singh, B. N.,et al. Influence of artificial fertilizers on the photosynthetic efficiency ofAndropogon sorghum. Proc. Indian Acad. Sci.9B: 151–168. 1939.
Sisakyan, N. M. andKobyakoia, A. M. Activity and condition of enzymes in plastids. Biokhimiya13: 88–94. 1948.
Skopintsev, B. A. andBruk, E. S. Study of the regeneration of N and P compounds in the course of decomposition of dead plankton. Compt. Rend. Acad. Sci. URSS26: 807–810. 1940.
Smith, E. L. Chlorophyll as the prosthetic group in the green leaf. Science91: 199–200. 1940.
—. Chlorophyll-protein compounds of the green leaf. Jour. Gen. Physiol.24: 565–582. 1941.
—. The chlorophyll-protein compound of the green leaf. Chron. Bot.7: 148–149. 1942.
— andPickels, E. G. Micelle formation in aqueous solutions or digitonin. Proc. Nat. Acad. Sci.26: 272–277. 1940.
——. Effect of detergents in the chlorophyllprotein compound of spinach. Jour. Gen. Physiol.24: 753–764. 1941.
Smith, J. H. C. Organic compounds of Mg and their relation to chlorophyll formation. Jour. Am. Chem. Soc.69: 1492–1496. 1947.
—. Protochlorophyll, precursor of chlorophyll. Arch. Biochem.19: 449–454. 1948.
Sorby, H. C. On comparative vegetable chromatology. Proc. Royal Soc., London21: 442–483. 1873.
Spoehr, H. A. andMilner, H. W. The chemical composition ofChlorella; effect of environmental conditions. Pl. Phys.24: 120–149. 1949.
Stephenson, R. B. A preliminary investigation of the effects of naphthalene-acetic acid upon the growth and composition of oats. Trans. Illinois State Acad. Sci.35: 83–84. 1942.
Stewart, R. andEyster, H. C. A study of the green pigments in the lotus embryo. Proc. S. D. Acad. Sci.19: 89–91. 1939.
Stoll, A. andWiedemann, H. Chlorophyll. Chemie Org. NaturforbstoffeI: 159–254.
Strain, H. H. andManning, W. M. Isomerization of chlorophyllsa andb. Jour. Biol. Chem.146: 275–276. 1942.
—,et al. ChlorophyllC of diatoms and dinoflagellates. Jour. Biol. Chem.144: 625–636. 1942.
—,et al. ChlorophyllC (chlorofucine). Jour. Biol. Chem.148: 655–658. 1943.
Thomas, J. Origin of the tetrapyrrole nucleus. Bull. Soc. Chin. Biol.20: 471–635. 1938.
Troensgaard, N. andMygind, H. G. Demonstration of pyrrole and pyridine ring systems in proteins. Zeits. Physiol. Chem.184: 147–156. 1949.
Turner, W. Theory of porphyrinogenesis. Jour. Lab. & Clin. Med.26: 323. 1940.
Virtanen, A.,et al. Investigations on vitamin formation in plants. I. Biochem. Zeits.267: 179–191. 1933.
Warburg, O. andLüttgens, W. Carbon dioxide assimilation. Naturwiss.32: 301. 1944.
——. Carbon dioxide assimilation. Naturwiss.32: 161. 1944.
——. Photochemical reduction of quinone in green cells and grana. Biokhimiya11: 303–222. 1946.
Weast, C. A. andMackinney, G. Chlorophyllase. Journ. Biol. Chem.133: 551–558. 1940.
Wendel, K. Daily variations in the content of chlorophyll in plants. Zeits. Ges. Naturw.6: 327–329. 1941.
White, P. R. Vegetable staticks. Am. Sci.30: 119–136. 1942.
Wilschke, A. The fluorescence of the components of chlorophyll. Zeits. Wissensch. Mikr.31: 338–361. 1914. [Abs.]
Wiixstätter, R. andPage, H. J. Pigments of brown algae. Ann.404: 237–271. 1914.
- andStoll, A. Investigation on chlorophyll. 1913.
Yamahuzi, K.,et al. Coupling reaction between splitting of water and oxidation processes. Biocem. Zeits.303: 260–265. 1939.
Yin, H. C. andTung, Y. T. Phosphorylase in guard cells. Science108: 87–88. 1948.
Zaitseva, A. A. Content of chlorophyll in wheat as related to development. Compt. Rend. Acad. Sci. URSS25: 695–699. 1939.
—. Chlorophyll in wheat as related to development. Compt. Rend. Acad. Sci. URSS27: 59–62. 1940.
—. The effect of vernalizing on the chlorophyll content of wheat seedlings. Compt. Rend. Acad. Sci. URSS27: 271–273. 1940.
Zhukovskii, V. S. Photosynthesis of formaldehyde from CO2 and H3O under the effect of infra-red radiation. Trudy Beloruss. Sel’sko-Khoz. Inst. #8 (30), 150–152. 1939. [Abs.]
Zscheile, F. P. The third component of chlorophyll. Bot. Gaz.95: 529–562. 1934.
—. Number of chlorophyll components. Bot. Gaz.103: 401–430. 1941.
— andComar, C. Influence of preparative procedure on the purity of chlorophyll components as shown by absorption spectra. Bot. Gaz.102: 463–481. 1941.
Author information
Authors and Affiliations
Additional information
Contribution No. 132 from the Institute for Atomic Research and the Department of Botany, Iowa State College, Ames, Iowa. This document is based in part on work performed in the Ames Laboratory of the Atomic Energy Commission.
Rights and permissions
About this article
Cite this article
Aronoff, S. Chlorophyll. Bot. Rev 16, 525–588 (1950). https://doi.org/10.1007/BF02868972
Issue Date:
DOI: https://doi.org/10.1007/BF02868972