M. Seeger et al., CHARACTERISTICS OF 26-S PROTEASES FROM FISSION YEAST MUTANTS, WHICH ARREST IN MITOSIS, Journal of Molecular Biology, 263(3), 1996, pp. 423-431
We have isolated the 26 S protease from the fission yeast Schizosacchn
romyces pombe. The affinity-purified enzyme contains the two regulator
y ATPases mts2(+), a homolog of human S4, and CIM5, a homolog of human
MSS1 = S7. We show that mts3(+), a homolog of the budding yeast NIN1
protein and human S14, is a true component of the 19 S regulatory comp
lex from the fission yeast. The 26 S proteases purified from two therm
osensitive mutants, mts2-1 and mts3-1, which arrest in cell cycle at t
he restrictive temperature (37 degrees C), have been compared with the
wild-type enzyme after growing cells at permissive (25 degrees C) and
non-permissive temperatures. We demonstrate that mutated mts2 protein
is integrated into the protease complex prepared from mts2 cells, whe
reas mutated mts3 is not present in the 19 S regulatory complex from m
ts3 cells. The two mutant 26 S proteases isolated after growing cells
at 37 degrees C remain stable for two hours at 37 degrees C as measure
d by ATP-dependent cleavage of the fluorogenic peptide sucLLVY-MCA. At
the restrictive temperature, the mutant 26 S proteases do not degrade
ubiquitin-[(125)]lysozyme conjugates in an ATP-dependent manner, indi
cating that mts2(+) and mts3(+) are essential for ubiquitin conjugate
degradation. This explains the conditional lethality of the mutants an
d the cell-cycle arrest in metaphase to anaphase transition. In additi
on, our data demonstrate that the ATPases of the 26 S enzyme are not r
edundant. (C) 1996 Academic Press Limited