Abstract
The genes encoding three subunits of Saccharomyces cerevisiae proteasome were cloned and sequenced. The deduced amino acid sequences were homologous not only to each other (30 to 40% identity) but also to those of rat and Drosophila proteasomes (25 to 65% identity). However, none of these sequences showed any similarity to any other known sequences, including various proteases, suggesting that these proteasome subunits may constitute a unique gene family. Gene disruption analyses revealed that two of the three subunits (subunits Y7 and Y8) are essential for growth, indicating that the proteasome and its individual subunits play an indispensable role in fundamental biological processes. On the other hand, subunit Y13 is not essential; haploid cells with a disrupted Y13 gene can proliferate, although the doubling time is longer than that of cells with nondisrupted genes. In addition, biochemical analysis revealed that proteasome prepared from the Y13 disrupted cells contains tryptic and chymotryptic activities equivalent to those of nondisrupted cells, indicating that the Y13 subunit is not essential for tryptic or chymotryptic activity. However, the chymotryptic activity of the Y13 disrupted cells is not dependent on sodium dodecyl sulfate (SDS), an activator of proteasome, since nearly full activity was observed in the absence of SDS. Thus, the activity in proteasome of the Y13 disrupted cells might result in unregulated intracellular proteolysis, thus leading to the prolonged cell cycle. These results indicate that cloned proteasome subunits having similar sequences to the yeast Y13 subunit are structural, but not catalytic, components of proteasome. It is also suggested that two subunits (Y7 and Y8) might occupy positions essential to proteasome structure or activity, whereas subunit Y13 is in a nonessential but important position.
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