Nascent secretory polypeptides synthesized on Escherichia coli ribosomes are not translocated across mammalian endoplasmic reticulum.

Cell-free protein-synthesizing systems from Escherichia coli and wheat germ were compared for their capacity to support the translocation of secretory proteins across microsomal membranes derived from mammalian endoplasmic reticulum. Three different secretory proteins, two of bacterial and one of eucaryotic origin, were tested in this respect. In all three cases a contrast between the results in the eucaryotic and procaryotic protein-synthesizing systems was revealed. Whereas the eucaryotic system, as expected, supported the translocation of nascent secretory proteins across the microsomal membranes, the procaryotic system failed to do so. This failure was not due to the absence of a translocation-promoting activity or the presence of a translocation-blocking activity in the procaryotic system. These results demonstrate a specificity in the requirement of components of the protein-synthesizing machinery for protein translocation. These components might participate in forming a functional ribosome-membrane junction during protein translocation. The nascent secretory chain alone is not sufficient for making this junction, which might involve the postulated binding of the ribosome to the signal recognition particle or another component of the membrane.