Products of rat liver mitochondrial protein synthesis: Electrophoretic analysis of the number and size of these proteins and their solubility in chloroform: Methanol

Abstract

Rat liver mitochondria were incubated in vitro with radioactive leucine, and submitochondrial particles prepared by several methods. Analysis of the labeled mitochondrial membrane fractions by sodium dodecylsulfate gel electrophoresis revealed three labeled bands of molecular weights corresponding to 40,000; 27,000; and 20,000 daltons. Electrophoresis for longer times at higher concentrations of acrylamide revealed eight labeled bands, ranging in molecular weights from 48,000 to 12,000. Mitochondria were incubated for 5 min with [ 3H]leucine followed by a chase of unlabeled leucine. Gel electrophoresis of the membranes obtained after labeling for 5 min indicated significant synthesis of polypeptides in the 40,000 M r, range and very little labeling of low molecular-weight polypeptides. After addition of the chase, increased synthesis of the high molecular-weight polypeptides was observed; however, no significant increase or decrease of radioactivity in the bands of low molecular-weight was observed, suggesting that rat liver mitochondria have the ability to synthesize complete proteins in the M r 27,000–40,000 range. Approximately 16% of the total leucine incorporated into protein by isolated rat liver mitochondria in vitro could be extracted by chloroform: methanol. Gel electrophoresis of the chloroform: methanol extract revealed several bands containing radioactivity with the majority of counts in a band of 40,000 molecular weight. Gel electrophoresis of the chloroform: methanol extract of lyophilized submitochondrial particles indicated label in two broad bands in the low molecular-weight region of 14,000-10,000 with insignificant counts in the higher molecular-weight regions of the gel. Yeast cells were pulse labeled in vivo with [ 3H]leucine in the presence of cycloheximide and the submitochondrial particles extracted with chloroform:methanol. The extract separated after gel electrophoresis into four labeled bands ranging in molecular weight from 52,000 to 10,000. Preincubation of the yeast cells with chloramphenicol prior to the pulse labeling caused a 6-fold stimulation of labeling into the band of lowest molecular weight of the chloroform: methanol extract. These results suggest that the accumulation of mitochondrial proteins synthesized in the cytoplasm, when chloramphenicol is present in the medium, may stimulate the synthesis of certain specific mitochondrial proteins which are soluble in chloroform: methanol.