Site-directed mutagenesis of maize recombinant C4-pyruvate,orthophosphate dikinase at the phosphorylatable target threonine residue.
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A key regulatory enzyme of the C4-photosynthetic pathway is stromal pyruvate,orthophosphate dikinase (PPDK, EC 2.7.9.1). As a pivotal enzyme in the C4 pathway, it undergoes diurnal light-dark regulation of activity which is mediated by a single bifunctional regulatory protein (RP). RP specifically inactivates PPDK in the dark by an ADP-dependent phosphorylation of an active-site Thr residue (Thr-456 in maize). Conversely, RP activates inactive PPDK in the light by phosphorolytic dephosphorylation of this target Thr-P residue. We have employed a His-tagged maize recombinant C4 PPDK for directed mutagenesis of this active-site regulatory Thr. Three such mutants (T456V, T456S, T456D) were analyzed with respect to overall catalysis and regulation by exogenous maize RP. Substitution with Val and Ser at this position does not affect overall catalysis, whereas Asp abolishes enzyme activity. With respect to regulation by RP, it was found that Ser can effectively substitute for the wild-type Thr residue in that mutant enzyme is phosphorylated and inactivated by RP. The T456V mutant, however, could not be phosphorylated and was, thus, resistant to ADP-dependent inactivation by RP. (+info)
Expression and characterization of recombinant pyruvate phosphate dikinase from Entamoeba histolytica.
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The parasite Entamoeba histolytica is an organism whose main energetic source comes from glycolysis. It has the singularity that several of its glycolytic enzymes use pyrophosphate as an alternative phosphate donor. Thus, pyruvate phosphate dikinase (PPDK), an inorganic pyrophosphate (PPi)-dependent enzyme, substitutes pyruvate kinase present in humans. We previously cloned and sequenced the gene that codifies for PPDK in E. histolytica. We now report its expression in a bacterial system and its purification to 98% homogeneity. We determined its K(m) for phosphoenolpyruvate, AMP and PPi (21, < 5 and 100 microM, respectively). Unlike PPDK from maize and bacteria and pyruvate kinase from other cells, EhPPDk is dependent on divalent cations but does not require monovalent cations for activity. The enzyme has an optimum pH of 6.0, it is labile to low temperatures and has a tetrameric structure. Since EhPPDK is a PPi-dependent enzyme, we also tested the effect of some pyrophosphate analogs as inhibitors of activity. Studies on the function and structure of this enzyme may be important for therapeutic research in several parasitic diseases, since it has no counterpart in humans. (+info)
Functional and molecular characterization of a glycosomal PPi-dependent enzyme in trypanosomatids: pyruvate, phosphate dikinase.
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Trypanosomatids are parasitic protists that have an ATP-dependent glycolysis with no indication of PPi-dependent metabolism. Most of the glycolysis takes place in peroxisome-like organelles, the glycosomes. We characterized in Trypanosoma brucei a single-copy gene encoding a PPi-dependent enzyme, pyruvate, phosphate dikinase (PPDK), which was expressed functionally in Escherichia coli. Specific antibodies detected a 100-kDa protein in procyclic forms but not in mammalian forms of T. brucei, indicating a differential expression. Glycosomal localization of PPDK was determined by immunofluorescence analysis and was confirmed by Western blot analysis on glycosomal fractions by using anti-PPDK antibodies. Expression and localization of recombinant PPDKs in procyclic forms of T. brucei showed that the AKL motif at the C-terminal extremity of PPDK is necessary for glycosomal targeting. PPDK was detected in every trypanosomatid tested-Trypanosoma congolense, Trypanosoma vivax, Trypanosoma cruzi, Phytomonas, Crithidia and Leishmania-with a good correlation between amount of protein and enzymatic activity. The precise role of PPDK in trypanosomatid carbohydrate metabolism remains to be clarified. (+info)