Rp. Walker et al., PHOSPHOENOLPYRUVATE CARBOXYKINASE IN C-4 PLANTS - ITS ROLE AND REGULATION, Australian journal of plant physiology, 24(4), 1997, pp. 459-468
Some of the recent findings which revise our view of the role and regu
lation of phosphoenolpyruvate carboxykinase (PEPCK) in C-4 plants are
discussed. Evidence is presented that PEPCK is present at appreciable
activities in the bundle-sheath of some NADP-malic enzyme-type C-4 pla
nts, such as maize, but it was not detectable in NAD-malic enzyme-type
C-4 plants. PEPCK is rapidly inactivated in crude extracts of leaves
of the C-4 plant, Panicum maximum. This inactivation could be prevente
d by high concentrations of dithiothreitol or by the inclusion of ADP
or ATP, suggesting the involvement of thiols at the active site. PEPCK
is also subject to rapid proteolysis in crude extracts of a range of
C-4 plants, resulting in cleavage to a smaller (62 kDa) form. This can
be reduced by extraction at high pH and by the inclusion of SDS, but
it means that intact PEPCK has never been purified from a C-4 plant. T
he molecular mass of PEPCK varies considerably in C-4 plants, unlike C
-3 and CAM plants in which it is usually 74 kDa. PEPCK is phosphorylat
ed during darkness (and reversed by light) in some C-4 plants with PEP
CK of a larger molecular mass, such as Panicum maximum (71 kDa), but i
t was not phosphorylated in the PEPCK-type C-4 plant, Sporobolus pyram
idalis (69 kDa). The known regulatory properties of PEPCK are discusse
d in relation to its role in C-4 photosynthesis, in particular its sen
sitivity to regulation by adenylates and by Mn2+.