The effect of high hydrostatic pressure on eukaryotic protein synthesis.

The pressure response of two eukaryotic protein synthesizing systems has been characterized. The rabbit reticulocyte system has been tested, both in vivo and in vitro, using endogenous polysomes and polyuridylic acid (poly U). In addition, the poly U-directed polyphenylalanine synthesizing system obtained from wheat germ was utilized. The effect of pressure on eukaryotic protein synthesis has been found to be basically similar to that observed in prokaryotic systems, although the response of the eukaryotic protein synthesizing system is somewhat more complex signifying a greater influence of overlapping reactions. Magnesium was found to affect eukaryotic systems in much the same way as has been reported for prokaryotic systems, i.e., increasing the Mg2+ concentration in a protein synthesizing system increases the barotolerance exhibited by the system. Under conditions of high Mg2+ concentration, however, extreme (up to 160%) stimulation of protein synthesis at lower pressure levels was observed in the eukaryotic systems. Such high stimulation is not apparent in prokaryotic systems. The poly U-directed wheat germ system exhibited the most barotolerant polypeptide synthesis ever seen in our laboratory. This extreme barotolerance was only slightly decreased when the system was tested at reduced concentrations of magnesium.