The aerobic uptake of Mn++ in rat liver mitochondria gives rise to an internal ESR signal which is the sum of two components: a sextet signal corresponding to hydrated Mn++ and a single line representing the spin exchange signal. While no problems arise from the interpretation of the sextet signal, the spin exchange component has been attributed either to Mn++ binding to specific energy-dependent membrane sites or to Mn3(PO4)2 precipitate. The aim of the present paper is to study the interaction between Mn++ and the 'internal' mitochondrial membrane surface without interference due to phosphate presence (and to external Mn-EDTA complex signal), accepting that submitochondrial particles are 'inside-out' membranes in which the internal mitochondrial membrane surface is in contact with the external medium
Interaction of Mn++ with submitochondrial particles
Ossola F;
1985
Abstract
The aerobic uptake of Mn++ in rat liver mitochondria gives rise to an internal ESR signal which is the sum of two components: a sextet signal corresponding to hydrated Mn++ and a single line representing the spin exchange signal. While no problems arise from the interpretation of the sextet signal, the spin exchange component has been attributed either to Mn++ binding to specific energy-dependent membrane sites or to Mn3(PO4)2 precipitate. The aim of the present paper is to study the interaction between Mn++ and the 'internal' mitochondrial membrane surface without interference due to phosphate presence (and to external Mn-EDTA complex signal), accepting that submitochondrial particles are 'inside-out' membranes in which the internal mitochondrial membrane surface is in contact with the external medium| File | Dimensione | Formato | |
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