-
PDF
- Split View
-
Views
-
Cite
Cite
J. Michael Robinson, Martin Gibbs, Donald N. Cotler, Influence of pH upon the Warburg Effect in Isolated Intact Spinach Chloroplasts: I. Carbon Dioxide Photoassimilation and Glycolate Synthesis , Plant Physiology, Volume 59, Issue 4, April 1977, Pages 530–534, https://doi.org/10.1104/pp.59.4.530
Close - Share Icon Share
Abstract
The influence of pH upon the O2 inhibition of 14CO2 photoassimilation (Warburg effect) was examined in intact spinach (Spinacia oleracea) chloroplasts. With conditions which favored the Warburg effect, i.e. rate-limiting CO2 and 100% O2, O2 inhibition was greater at pH 8.4 to 8.5 than at pH 7.5 to 7.8. At pH 8.5, as compared with 7.8, there was an enhanced 14C-labeling of glycolate, and a decrease of isotope in some phosphorylated Calvin cycle intermediates, particularly triose-phosphate. The 14C-labeling of starch was also more inhibited by O2 at higher pH. The enhanced synthesis of glycolate during 14CO2 assimilation at higher pH resulted in a diminution in the level of phosphorylated intermediates of the Calvin cycle, and this was apparently a causal factor of the increased severity of the Warburg effect.
The 14C-labeling profiles have been interpreted in terms of a “CO2”-sensitive as well as a “CO2”-insensitive mechanism for glycolate synthesis. Both mechanisms functioned optimally at the higher pH and both responded to O2.
Postdoctoral trainee of National Institute of Health Grant BM-1586-09.
Present address: Immunological Research Laboratories, Harvard Medical School, Robert Brigham Hospital, Roxbury, Mass.
This research was generously supported by National Science Foundation Grant BMS71-00978 and United States Energy Research and Development Administration Grant ET(11-1)3231.
