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JBC, Vol. 252, Issue 6, 1858-1864, Mar, 1977
Z. Reuveny and P. Filner
The ATP sulfurylase of cultured tobacco cells is repressed during growth on
readily assimiliated sulfur sources, such as sulfate, L-cysteine, or
L-methionine, but it is derepressed during growth on slowly assimiliated
sulfur sources, such as L-djenkolate or glutathione, or during sulfur
starvation. The enzyme is not induced by sulfate. The enzyme level in the
cells begins to rise 12 to 24 h after the derepression conditions are
initiated and continues to rise for 3 to 4 days, up to as much as 25 times
above the initial specific activity. Addition of a repressing sulfur source
to derepressed cells causes the enzyme to decay. Derepression by sulfur
limitation does not occur in cells starved for nitrogen, a circumstance in
which turnover synthesis of protein is known to continue. Upon addition of
a nitrogen source to such cells, the development of the enzyme begins
within 12 h, along with the resumption of growth and net protein synthesis.
Derepression occurs in cells growing on the slowly assimilated nitrogen in
urea, reaching specific activities very similar to those which develop in
cells grown on nitrate, in spite of the lower protein accumulation rate on
urea. Thus the ATP sulfurylase of tobacco cells appears to be regulated by
both a negative feedback mechanism in which an end product of the sulfate
assimilation pathway is the effector, and by a positive mechanism which
serves to couple the regulation of the sulfate assimilation pathway to the
cells' potential for nitrogen assimilation, i.e. net protein synthesis. The
sulfur compounds which affect the development of ATP sulfurylase in vivo
have no effect on the enzyme activity in vitro. Furthermore, extracts with
high activity contain no activator and extracts with low activity contain
no inhibitor of ATP sulfurylase. Cycloheximide, at a concentration which
strongly inhibits amino acid incorporation into protein, inhibits
derepression. ATP sulfurylase does not decay in cells inhibited by
cycloheximide. Therefore, the changes in ATP sulfurylase of tobacco cells
appear to involve changes in the rate of formation or degradation of the
enzyme.
Regulation of adenosine triphosphate sulfurylase in cultured tobacco cells. Effects of sulfur and nitrogen sources on the formation and decay of the enzyme
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