Abstract
The effects of cadmium on isolated corn shoot mitochondria were determined. In the absence of phosphate cadmium stimulated the oxidation of exogenous NADH optimally at 0.025 mM, but was inhibitory at 0.1 mM and above. The presence of phosphate negated the cadmium stimulation of exogenous NADH oxidation and permitted inhibitions only at higher cadmium concentrations. Succinate or malate + pyruvate oxidation in the absence of phosphate was inhibited to a greater extent by cadmium than when phosphate was present. ADP/O and respiratory control ratios were reduced by cadmium but generally were less sensitive to cadmium than state 4 or minus phosphate respiration. The data suggest that the site of cadmium effect is likely to be early in electron transport. Cadmium had a pronounced effect on mitochondrial swelling under either passive or active conditions. When succinate or exogenous NADH were being oxidized swelling occurred at 0.05 mM cadmium, but with malate + pyruvate the cadmium concentration had to exceed 1.0 mM. Phosphate (2 mM) prevented the swelling. Dithiothreitol, a SH group protector, prevented any effect of cadmium on swelling or respiration which suggests that sulfhydryl groups are likely involved in the cadmium-membrane interaction.
Citation Formats
Miller, R J, Bittell, J E, and Koeppe, D E.
Effect of cadmium on electron and energy transfer reactions in corn mitochondria.
Sweden: N. p.,
1973.
Web.
doi:10.1111/j.1399-3054.1973.tb01170.x.
Miller, R J, Bittell, J E, & Koeppe, D E.
Effect of cadmium on electron and energy transfer reactions in corn mitochondria.
Sweden.
https://doi.org/10.1111/j.1399-3054.1973.tb01170.x
Miller, R J, Bittell, J E, and Koeppe, D E.
1973.
"Effect of cadmium on electron and energy transfer reactions in corn mitochondria."
Sweden.
https://doi.org/10.1111/j.1399-3054.1973.tb01170.x.
@misc{etde_5195422,
title = {Effect of cadmium on electron and energy transfer reactions in corn mitochondria}
author = {Miller, R J, Bittell, J E, and Koeppe, D E}
abstractNote = {The effects of cadmium on isolated corn shoot mitochondria were determined. In the absence of phosphate cadmium stimulated the oxidation of exogenous NADH optimally at 0.025 mM, but was inhibitory at 0.1 mM and above. The presence of phosphate negated the cadmium stimulation of exogenous NADH oxidation and permitted inhibitions only at higher cadmium concentrations. Succinate or malate + pyruvate oxidation in the absence of phosphate was inhibited to a greater extent by cadmium than when phosphate was present. ADP/O and respiratory control ratios were reduced by cadmium but generally were less sensitive to cadmium than state 4 or minus phosphate respiration. The data suggest that the site of cadmium effect is likely to be early in electron transport. Cadmium had a pronounced effect on mitochondrial swelling under either passive or active conditions. When succinate or exogenous NADH were being oxidized swelling occurred at 0.05 mM cadmium, but with malate + pyruvate the cadmium concentration had to exceed 1.0 mM. Phosphate (2 mM) prevented the swelling. Dithiothreitol, a SH group protector, prevented any effect of cadmium on swelling or respiration which suggests that sulfhydryl groups are likely involved in the cadmium-membrane interaction.}
doi = {10.1111/j.1399-3054.1973.tb01170.x}
journal = []
volume = {28}
journal type = {AC}
place = {Sweden}
year = {1973}
month = {Jan}
}
title = {Effect of cadmium on electron and energy transfer reactions in corn mitochondria}
author = {Miller, R J, Bittell, J E, and Koeppe, D E}
abstractNote = {The effects of cadmium on isolated corn shoot mitochondria were determined. In the absence of phosphate cadmium stimulated the oxidation of exogenous NADH optimally at 0.025 mM, but was inhibitory at 0.1 mM and above. The presence of phosphate negated the cadmium stimulation of exogenous NADH oxidation and permitted inhibitions only at higher cadmium concentrations. Succinate or malate + pyruvate oxidation in the absence of phosphate was inhibited to a greater extent by cadmium than when phosphate was present. ADP/O and respiratory control ratios were reduced by cadmium but generally were less sensitive to cadmium than state 4 or minus phosphate respiration. The data suggest that the site of cadmium effect is likely to be early in electron transport. Cadmium had a pronounced effect on mitochondrial swelling under either passive or active conditions. When succinate or exogenous NADH were being oxidized swelling occurred at 0.05 mM cadmium, but with malate + pyruvate the cadmium concentration had to exceed 1.0 mM. Phosphate (2 mM) prevented the swelling. Dithiothreitol, a SH group protector, prevented any effect of cadmium on swelling or respiration which suggests that sulfhydryl groups are likely involved in the cadmium-membrane interaction.}
doi = {10.1111/j.1399-3054.1973.tb01170.x}
journal = []
volume = {28}
journal type = {AC}
place = {Sweden}
year = {1973}
month = {Jan}
}