Literatur
Allen, M. B., D. I. Arnon, J. B. Capindale, F. R. Whatley andL. J. Durham: Photosynthesis by isolated chloroplasts. III. Evidence for complete photosynthesis. J. Amer. Chem. Soc.77, 4149–4155 (1955).
Arnon, D. I.: Some recent advances in the study of essential micronutrients for green plants. VIII. Congr. Int. Bot., Paris, Sekt.11, S. 73–80. 1954.
: Phosphorus motabolism and photosynthesis. Annual Rev. Plant Physiol.7, 325–354 (1956).
Atkinson, D. E.: The biochemistry ofHydrogenomonas. IV. The inhibition of hydrogenase by oxygen. J. of Biol. Chem.218, 557–564 (1956).
Bergmann, L.: stoffwechsel und Mineralsalzernährung einzelliger Grünalgen. II. Vergleichende Untersuchungen über den Einfluß mineralischer Faktoren bei heterotropher und mixotropher Ernährung. Flora (Jena)142, 493–539 (1955).
Calvin, M.: Der Photosynthese-Cyclus. Angew. Chem.68, 253–264 (1956).
Damaschke, K., u.L. Rothbühr: Die langsamste Dunkelreaktion der Photosynthese und der Einfluß von Giften auf diese, verfolgt durch elektrochemische Sauerstoffmessung. Biochem Z.327, 39–61 (1955).
Duysens, L. N. M.: Reversible changes in the absorption spectrum ofChlorella upon irradiation. Science (Lancaster, Pa.)120, 353–354 (1954).
Emerson, R.: Photosynthesis as a function of light intensity and of temperature with different concentrations of chlorophyll. J. Gen. Physiol.12, 623–639 (1929).
Eyster, C., T. E. Brown andH. A. Tanner: Manganese requirement with respect to respiration and the Hill reaction inChlorella pyrenoidosa. Arch. of Biochem. a. Biophysics64, 240–241 (1956).
Frenkel, A. W.: Hydrogen evolution by the flagellate green alga,Chlamydomonas moewusii. Arch. of Biochem. a. Biophysics38, 219–230 (1952).
Frenkel, A. W., andC. Rieger: Photoreduction in algae. Nature (Lond.)167, 1030 (1951).
Gaffron, H.: Carbon dioxide reduction with molecular hydrogen in green algae. Amer. J. Bot.27, 273–283 (1940).
: The effect of specific poisons upon the photoreduction with hydrogen in green algae. J. Gen. Physiol.26, 195–217 (1942a).
: Reduction of carbon dioxide coupled with the oxyhydrogen reaction in algae. J. Gen. Physiol.26, 241–267 (1942b).
: Photosynthesis, photoreduction and dark reduction of carbon dioxide in certain algae. Biol. Rev. Cambridge Philos. Soc.19, 1–20 (1944).
: o-Phenanthroline and derivatives of vitamin K as stabilizers of photoreduction inScenedesmus. J. Gen. Physiol.28, 269–285 (1945).
Gaffron, H., andJ. Rubin: Fermentative and photochemical production of hydrogen in algae. J. Gen. Physiol.26, 219–240 (1942).
Gerretsen, F. C.: Manganese in relation to photosynthesis. II. Redox potentials of illuminated crude chloroplast suspensions. Plant a. Soil2, 159–193 (1950).
Hill, R.: Oxygen produced by isolated chloroplasts. Proc. Roy. Soc. Lond., Ser. B127, 192–210 (1939).
Kenten, R. H., andP. J. G. Mann: The oxidation of manganese by illuminated chloroplast preparations. Biochemic. J.61, 279–286 (1955).
Kessler, E.: On the role of manganese in the oxygen-evolving system of photosynthesis. Arch. of Biochem. a. Biophysics59, 527–529 (1955).
: Reduction of nitrite with molecular hydrogen in algae containing hydrogenase. Arch. of Biochem. a. Biophysics62, 241–242 (1956).
Kessler, E.: Stoffwechselphysiologische Untersuchungen an Hydrogenase enthaltenden Grünalgen. II. Dunkel-Reduktion von Nitrat und Nitrit mit molekularem Wasserstoff. Arch. Mikrobiol. (im Druck).
Kessler, E.: Untersuchungen zum Problem der photochemischen Nitratreduktion in Grünalgen. Planta (im Druck).
Kessler, E., W. Arthur andJ. E.Brugger: The influence of manganese and phosphate on delayed light emission, fluorescence, photoreduction and photosynthesis in algae. Arch. of Biochem. a. Biophysics (im Druck).
Mehler, A. H.: Studies on reactions of illuminated chloroplasts. II. Stimulation and inhibition of the reaction with molecular oxygen. Arch. of Biochem. a. Biophysics34, 339–351 (1951).
Nason, A.: Enzymatic steps in the assimilation of nitrate and nitrite in fungi and green plants. p. 109–136 in: Inorganic Nitrogen Metabolism. Baltimore 1956.
Peck, H. D., A. San Pietro andH. Gest: On the mechanism of hydrogenase action. Proc. Nat. Acad. Sci. U.S.A.42, 13–19 (1956).
Pirson, A.: Ernährungs- und stoffwechselphysiologische Untersuchungen anFontinalis undChlorella. Z. Bot.31, 193–267 (1937).
: Functional aspects in mineral nutrition of green plants. Annual Rev. Plant Physiol.6, 71–114 (1955).
Pirson, A., C. Tichy u.G. Wilhelmi: Stoffwechsel und Mineralsalzernährung einzelliger Grünalgen. I. Vergleichende Untersuchungen an Mangelkulturen vonAnkistrodesmus. Planta (Berl.)40, 199–253 (1952).
Rieke, F. F.: Quantum efficiencies for photosynthesis and photoreduction in green plants. p. 251–272 in: Photosynthesis in Plants. Ames (Iooa) 1949.
Schwartz, M.: The photochemical reduction of quinone and ferricyanide by lyophilizedChlorella cells. Biochim. et Biophysica Acta22, 463–470 (1956).
Shiau, Y. G., andJ. Franck: Chlorophyll fluorescence and photosynthesis in algae, leaves and chloroplasts. Arch. of Biochem.14, 253–295 (1947).
Vennesland, B., andE. E. Conn: Carboxylating enzymes in plants. Annual Rev. Plant Physiol.3, 307–332 (1952).
Warburg, O.: Schwermetalle als Wirkungsgruppen von Fermenten. Berlin: Dr. W. Saenger 1948.
Weller, S., andJ. Franck: Photosynthesis in flashing light. J. Phys. Chem.45, 1359–1373 (1941).
Author information
Authors and Affiliations
Additional information
Mit 16 Textabbildungen
Diese Untersuchungen wurden ausgeführt in den Research Institutes (Fels Fund) der University of Chicago. Mein besonderer Dank gebührt Herrn Prof. Dr.H. Gaffron für die freundliche Aufnahme, die ich in seinem Institut gefunden habe, und für vielfache Anregungen und Diskussionen. Für die Gewährung eines Forschungs-Stipendiums danke ich der National Academy of Sciences und der International Cooperation Administration.
Rights and permissions
About this article
Cite this article
Kessler, E. Stoffwechselphysiologische Untersuchungen an Hydrogenase enthaltenden Grünalgen. Planta 49, 435–454 (1957). https://doi.org/10.1007/BF01947485
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF01947485