Demonstration of a factor in fraction I of reticulocyte lysates necessary for the steady state accumulation of ubiquitin conjugates of des-75-76-ubiquitin.

Addition of des-75-76-ubiquitin (ubiquitin lacking its two C-terminal glycine residues) to reticulocyte lysates leads to the inhibition of proteolysis and the formation of conjugates between it and native ubiquitin, as demonstrated by the incorporation of both 125I-labeled des-75-76-ubiquitin and 125I-labeled ubiquitin into these conjugates. Conjugate formation is blocked by methylation of the amino groups of des-75-76-ubiquitin, consistent with the concept that the conjugates represent attachment of the ubiquitin alpha-carboxyl group to amino groups of des-75-76-ubiquitin. The lack of significant direct competition for conjugate formation by typical ubiquitinatable proteolysis substrates or by des-73-76-ubiquitin, together with differences in conjugate formation between des-73-76-ubiquitin and des-75-76-ubiquitin demonstrated earlier, indicates that the enzyme involved recognizes the ubiquitin sequence as a substrate for ubiquitination. Increasing concentrations of native ubiquitin first increase and then reduce the steady state level of conjugates of the des-75-76-protein, the inhibitory effects of high concentrations consistent with competition by native ubiquitin for conjugate formation. Upon fractionation of reticulocyte lysates, a factor essential to the net synthesis of conjugates of des-75-76-ubiquitin was demonstrated to be present in Fraction I and to behave as a protein of molecular weight 38,000. The role in this system of a factor from Fraction I other than ubiquitin indicates that a novel pathway is involved.