JBC, Vol. 250, Issue 2, 653-660, Jan, 1975
Subunit interactions in aspartate transcarbamylase. Characterization of a complex between the catalytic and the regulatory subunits
J. S. Mort and W. W. Chan
The complex formed when excess regulatory subunits (r2) of aspartate
transcarbamylase is added to a dilute solution of the catalytic subunit
(c3) has been further studied. By stabilizing the complex with saturating
levels or r2, it was possible to perform ultracentrifugation in sucrose
density gradients. The sedimentation coefficient of the complex (7.7 plus
or minus 0.2 S) is intermediate between those of the catalytic subunit (5.8
S) and of the native enzyme (11.7 S). Consideration of the likely
hydrodynamic properties of the complex suggests that this sedimentation
coefficient may be consistent with the c3r6 structure previously proposed.
The formation of c3r6 from c3 and r2 is readily reversible. At
nonsaturating levels or r2, conversion to the native enzyme (c3r6) takes
place. This conversion is inhibited by high concentrations of r2. The c3r6
complex shows Michaelis-Menten kinetics with a low Km for aspartate and
considerable substrate inhibition. The pH activity profile at high
aspartate concentrations is almost identical with that of the native
enzyme. All of these observations suggest that c3r6 represents the relaxed
(R) state of aspartate transcarbamylase. The insensitivity of c3r6 toward
CTP or ATP can also be explained by considering c3r6 as a stabilized
relaxed state. These properties of c3r6 have significant implications
regarding the allosteric mechanism of the native enzyme.
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