. Biological structure and function; proceedings. Biochemistry; Cytology. 38o DANIEL I. ARNON. 20 40 minutes Fig. 22. Effect of succinate on photofixation of nitrogen gas by Chromatium cells. Experimental conditions as described in Fig. 21, except that thiosulphate and oxaloacetate were omitted. 20 /imoles of succinate were added as indicated (Losada, Nozaki, Tagawa, and Arnon [155, 154]). sulphate was the electron donor (Table IX). These results suggest that ammonia or Ng did not inhibit the flow of electrons that are required for CO2 assimilation (by way of DPNH., or TPNHg). At high light in
. Biological structure and function; proceedings. Biochemistry; Cytology. 38o DANIEL I. ARNON. 20 40 minutes Fig. 22. Effect of succinate on photofixation of nitrogen gas by Chromatium cells. Experimental conditions as described in Fig. 21, except that thiosulphate and oxaloacetate were omitted. 20 /imoles of succinate were added as indicated (Losada, Nozaki, Tagawa, and Arnon [155, 154]). sulphate was the electron donor (Table IX). These results suggest that ammonia or Ng did not inhibit the flow of electrons that are required for CO2 assimilation (by way of DPNH., or TPNHg). At high light intensity, when the electron flux is large enough to cope with the requirements of. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original IUB/IUBS International Symposium (1st : 1960 : Stockholm); International Union of Biochemistry; International Union of Biological Sciences; Goodwin, T. W. (Trevor Walworth); Lindberg, Olov, 1914-. London, New York, Academic Press
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