Zusammenfassung
Lange Zeit hindurch wurde der Mechanismus der Photosynthese grüner Pflanzen für starr und unwandelbar gehalten. Die ersten Zweifel an der Berechtigung dieser Ansicht kamen auf, als Nakamura (1937, 1938) die Beobachtung machte, daß bei einer Blaualge (Oscillatoria spec.) und einer Diatomee (Pinnularia spec.) die Photosynthese durch H2S nicht gehemmt wird. Es fand vielmehr bei diesen Algen im Licht eine CO2-Reduktion bei gleichzeitiger Absorption von H2S statt, und an Stelle der normalen photosynthetischen O2-Entwicklung wurde Schwefel in den Zellen ausgeschieden.
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Literatur
Atkinson, D. E.: The biochemistry of Hydrogenamonas. IV. The inhibition of hydrogenase by oxygen. J. biol. Chem. 218, 557–564 (1956).
Baas Becking, L. G. M., and E. J. F. Wood: Biological processes in the estuarine environment. Proc. kon. ned. Akad. Wet. B 58, 160–181 (1955).
Badin, E. J., and M. Calvin: The path of carbon in photosynthesis. IX. Photosynthesis, photoreduction and the hydrogen-oxygen-carbon dioxide dark reaction. J. Amer. chem. Soc. 72, 5266–5270 (1950).
Bishop, N. I.: The influence of the herbicide, DCMU, on the oxygen-evolving system of photosynthesis. Biochim. biophys. Acta 27, 205–206 (1958).
Boitschenko, E.A.: Evolution of hydrogen by isolated chloroplasts. C. R. Acad. Sci. URSS. 52, 521–524 (1946).
Hydrogenase of isolated chloroplasts. Biochimija 12, 153–162 (1947).
Activation of molecular hydrogen by hydrogenases of chloroplasts. Biochimija 13, 219–224 (1948).
The product of reduction of carbon dioxide by chloroplast hydrogenase. Dokl. Akad. Nauk SSSR. 64, 545–548 (1949).
Brown, A. H.: The carbohydrate constituents of Scenedesmus in relation to the assimilation of carbon by photoreduction. Plant Physiol. 23, 331–337 (1948).
Brugger, J. E., and J. Franck: Experimental and theoretical contribution to studies of the afterglow of chlorophyll in plant materials. Arch. Biochem. 75, 465–496 (1958).
Czurda, V.: Schwefelwasserstoff als ökologischer Faktor der Algen. Zbl. Bakt., II. Abt. 103, 285–311 (1941).
Damaschke, K.: Die Wasserstoffgärung von Chlorella im Dunkeln nach Anaerobiose unter Stickstoff. Z. Naturforsch. 12b, 441–443 (1957).
Damaschke, K., u. M. Lübke: Hemmung der Wasserstoffgärung von Chlorella p. durch Gifte. Z. Naturforsch. 13b, 54–55 (1958a).
Über die Fähigkeit der Chlorella pyrenoidosa zur anaeroben Nitritreduktion. Z. Naturforsch. 13b, 134–135 (1958b).
Die Wirkung verschiedener Gifte auf die Entstehung von Wasserstoff bei Belichtung anaerob inkubierter Chlorella pyrenoidosa. Z. Naturforsch. 13b, 172–182 (1958c).
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).
Fisher, H. F., A. I. Krasna and D. Rittenberg: The interaction of hydrogenase with oxygen. J. biol. Chem. 209, 569–578 (1954).
Foster, J. W.: The role of organic substrates in photosynthesis of purple bacteria. J. gen. Physiol. 24, 123–134 (1940).
Oxidation of alcohols by non-sulfur photosynthetic bacteria. J. Bact. 47, 355–372 (1944).
Franck, J., and H. Gaffron: Photosynthesis, facts and interpretations. Advanc. Enzymol. 1, 199–262 (1941).
Franck, J., P. Pringsheim and D. T. Lad: Oxygen production by anaerobic photosynthesis of algae measured by a new micromethod. Arch. Biochem. 7, 103–142 (1945).
Frenkel, A.: A study of the hydrogenase systems of green and bluegreen algae. Biol. Bull. 97, 261–262 (1949).
Frenkel, A., H. Gaffron and E. H. Battley: Photosynthesis and photoreduction by a species of blue-green algae. Biol. Bull. 97, 269 (1949).
Photosynthesis and photoreduction by the blue green alga, Synechococcus elongatus, Näg. Biol. Bull. 99, 157–162 (1950).
Frenkel, A. W.: Hydrogen evolution by the flagellate green alga, Chlamydomonas moewusii. Arch. Biochem. 38, 219–230 (1952).
Frenkel, A. W., and R. A. Lewin: Photoreduction by Chlamydomonas. Amer. J. Bot. 41, 586–589 (1954).
Frenkel, A. W., and C. Rieger: Photoreduction in algae. Nature (Lond.) 167, 1030 (1951).
Gaffron, H.: Über den Stoffwechsel der Purpurbakterien. II. Biochem. Z. 275, 301–319 (1935).
Reduction of carbon dioxide with molecular hydrogen in green algae. Nature (Lond.) 143, 204–205 (1939).
The oxyhydrogen reaction in green algae and the reduction of carbon dioxide in the dark. Science 91, 529–530 (1940a).
Carbon dioxide reduction with molecular hydrogen in green algae. Amer. J. Bot. 27, 273–283 (1940b).
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. 19, 1–20 (1944).
Some effects of derivatives of vitamin K on the metabolism of unicellular algae. J. gen. Physiol. 28, 259–268 (1945a).
o-Phenanthroline and derivatives of vitamin K as stabilizers of photoreduction in Scenedesmus. J. gen. Physiol. 28, 269–285 (1945b).
Mechanism of photosynthesis, p. 152–185. In: Autotrophic Micro-organisms. Cambridge 1954.
Photosynthesis and the origin of life, p. 127–154. In: Rhythmic and Synthetic Processes in Growth. Princeton Univ. Press 1957.
Gaffron, H., E. W. Fager and J.L.Rosenberg: Intermediates in photosynthesis: Formation and transformation of phosphoglyceric acid. Symp. Soc. exp. Biol. 5, 262–283 (1951).
Gaffron, H., and J. Rubin: Fermentative and photochemical production of hydrogen in algae. J. gen. Physiol. 26, 219–240 (1942).
Gest, H., M. D. Kamen and H. M. Bregoff: Studies on the metabolism of photosynthetic bacteria. V. Photoproduction of hydrogen and nitrogen fixation by Bhodospirillum rubrum. J. biol. Chem. 182, 153–170 (1950).
Hansen, I., u. J. Gerloff: Beitrag zur Kenntnis einiger Volvocales. Ber. dtsch. bot. Ges. 65, 87–93 (1952).
Holt, A. S., I.A.Brooks and W. A. Arnold: Some effects of 2537 Å on green algae and chloroplast preparations. J. gen. Physiol. 34, 627–645 (1951).
Horwitz, L.: Observations on the oxyhydrogen reaction in Scenedesmus and its relation to respiration and photosynthesis. Arch. Biochem. 66, 23–44 (1957a).
Observations on the affect of metallic mercury upon some microorganisms. J. cell. comp. Physiol. 49, 437–453 (1957b).
Horwitz, L., and F. L. Allen: Oxygen evolution and photoreduction in adapted Scenedesmus. Arch. Biochem. 66, 45–63 (1957a).
Oxygen evolution and photoreduction by adapted Scenedesmus, p. 232–238. In: Research in Photosynthesis. New York: Interscience 1957b.
Hutner, S. H., and L. Provasoli: The phytoflagellates, p. 27–128. In: Biochemistry and Physiology of Protozoa, Vol.1. New York: Academic Press 1951.
Kessler, E.: On the role of manganese in the oxygen-evolving system of photosynthesis. Arch. Biochem. 59, 527–529 (1955).
Reduction of nitrite with molecular hydrogen in algae containing hydrogenase. Arch. Biochem. 62, 241–242 (1956).
Stoffwechselphysiologische Untersuchungen an Hydrogenase enthaltenden Grünalgen. I. Über die Rolle des Mangans bei Photoreduktion und Photosynthese. Planta (Berl.) 49, 435–454 (1957a).
Stoffwechselphysiologische Untersuchungen an Hydrogenase enthaltenden Grünalgen. II. Dunkel-Reduktion von Nitrat und Nitrit mit molekularem Wasserstoff. Arch. Mikrobiol. 27, 166–181 (1957b).
Untersuchungen zum Problem der photochemischen Nitratreduktion in Grünalgen. Planta (Berl.) 49, 505–523 (1957c).
Manganese as a cofactor in photosynthetic oxygen evolution, p. 243–249. In: Research in Photosynthesis. New York: Interscience 1957d.
Kessler, E., W. Arthur and J. E. Brugger: The influence of manganese and phosphate on delayed light emission, fluorescence, photoreduction and photosynthesis in algae. Arch. Biochem. 71, 326–335 (1957).
Larsen, H.: On the microbiology and biochemistry of the photosynthetic green sulfur bacteria. Kgl. norske Vid. Selsk. Skr. 1953, 1–199.
Larsen, H., C. S. Yocum and C. B. van Niel: On the energetics of the photosyntheses in green sulfur bacteria. J. gen. Physiol. 36, 161–171 (1952).
Lewin, J. C.: Obligate autotrophy in Chlamydomonas moewusii Gerloff. Science 112, 652–653 (1950).
Lindstrom, E. S., R. H. Burris and P. W. Wilson: Nitrogen fixation by photosynthetic bacteria. J. Bact. 58, 313–316 (1949).
Monod, J.: Inhibition de l’adaptation enzymatique chez B. coli en présence de 2, 4dinitrophénol. Ann. Inst. Pasteur 70, 381–384 (1944).
Nakamura, H.: Über das Auftreten des Schwefelkügelchens im Zellinnern von einigen niederen Algen. Bot. Mag. (Tokyo) 51, 529–533 (1937).
Über die Kohlensäureassimilation bei niederen Algen in Anwesenheit des Schwefelwasserstoffs. Acta phytochim. (Tokyo) 10, 271–281 (1938).
Niel, C. B. van: The bacterial photosyntheses and their importance for the general problem of photosynthesis. Advanc. Enzymol. 1, 263–328 (1941).
Peck, H. D., A. San Pietro and H. Gest: On the mechanism of hydrogenase action. Proc. nat. Acad. Sci. (Wash.) 42, 13–19 (1956).
Pirson, A., C. Tichy u. G. Wilhelmi: Stoffwechsel und Mineralsalzernährung einzelliger Grünalgen. I. Vergleichende Untersuchungen an Mangelkulturen von Ankistrodesmus. Planta (Berl.) 40, 199–253 (1952).
Rabinowitch, E. I.: Photosynthesis and Related Processes, vol.1. New York: Interscience 1945.
Reiner, J. M.: Effect of enzyme inhibitors on transformation of enzymes in the living cell. Proc. Soc. exp. Biol. (N. Y.) 63, 81–84 (1946).
Rieke, F. F.: Quantum efficiencies for photosynthesis and photoreduction in green plants, p. 251–272. In: Photosynthesis in Plants. Ames, Iowa 1949.
Rieke, F.F., and H. Gaffron: Flash saturation and reaction periods in photosynthesis. J. phys. Chem. 47, 299–308 (1943).
Roelofsen, P. A.: On the metabolism of the purple sulphur bacteria. Proc. kon. ned. Akad. Wet. 37, 660–669 (1934).
Schatz, A.: Speculations on the ecology and photosynthesis of the “copper mosses”. Bryologist 58, 113–120 (1955).
Spruit, C. J. P.: Photoproduction of hydrogen and oxygen in Chlorella, p. 323–327. In: Proc. 1. Internat. Photobiol. Congr., Amsterdam 1954.
Simultaneous photoproduction of hydrogen and oxygen by Chlorella. Mededel. Landbouwhogeschool Wageningen 58, 1–17 (1958).
Stephenson, M., and L. H. Stickland: Hydrogenase: A bacterial enzyme activating molecular hydrogen. I. The properties of the enzyme. Biochem. J. 25, 205–214 (1931).
Tödt, F.: Elektrochemische Sauerstoffmessungen. Berlin: W. de Gruyter & Co. 1958.
Ulubekova, M. V.: Study of photosynthesis in green algae by means of carbon-14. Dokl. Akad. Nauk SSSR. 104, 491–493 (1955).
Vishniac, W., and G. H. Reazin: Photoreduction in Ochromonas malhamensis, p. 239 to 242. In: Research in Photosynthesis. New York: Interscience 1957.
Wassink, E. C., E. Katz and R. Dorrestein: On photosynthesis and fluorescence of bacteriochlorophyll in Thiorhodaceae. Enzymologia 10, 285–354 (1942).
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Kessler, E. (1960). Biochemische Variabilität der Photosynthese: Photoreduktion und verwandte Photosynthesetypen. In: Pirson, A. (eds) Die CO2-Assimilation / The Assimilation of Carbon Dioxide. Handbuch der Pflanzenphysiologie / Encyclopedia of Plant Physiology, vol 5. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-94798-8_33
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