Production of recombinant Entamoeba histolytica pyruvate phosphate dikinase and its application in a lateral flow dipstick test for amoebic liver abscess.

BACKGROUND: Amoebic liver abscess (ALA) is the most common clinical manifestation of extraintestinal amoebiasis especially in developing countries, causing up to 100 000 fatal cases annually. Accurate and early diagnosis is important to prevent the disease complications, however its diagnosis still poses many challenges due to the limitations of the available detection tools. Pyruvate phosphate dikinase (PPDK), an excretory-secretory protein of E. histolytica, has been reported as a potential diagnostic marker for ALA, hence it may be exploited in the development of a new test for ALA. METHODS: Recombinant PPDK (rPPDK) was expressed, purified and evaluated by Western blot. In parallel, recombinant galactose-and-N-acetyl-D-galactosamine inhibitable lectin (Gal/GalNAc lectin) was produced and tested similarly. The protein identity was confirmed by analysis using MALDI-TOF/TOF. A lateral flow dipstick (LFD) test using rPPDK was subsequently developed (rPPDK-LFD) and evaluated for serodiagnosis of ALA. RESULTS: rPPDK was expressed as soluble protein after 4 hours of induction with 1 mM isopropyl ß-D-1-thiogalactopyranoside (IPTG) at 30°C. Purification using nickel-nitrilotriacetic acid (Ni-NTA) resin yielded 1.5 mg of rPPDK from 1 L of culture with estimated molecular mass of 98 kDa on SDS-PAGE. Western blots using sera from patients with ALA, healthy individuals and other diseases probed with anti-human IgG4-HRP showed the highest sensitivity (93.3%) and specificity (100%); as compared to blots using IgG and IgG1 as secondary antibodies. Moreover, rPPDK showed better specificity when compared to rGal/GalNAc lectin. In the development of the LFD test, the optimum amount of rPPDK was 0.625 µg per dipstick and the optimum working concentration of colloidal gold conjugated anti-human IgG4 was optical density (OD) 5 (1.7 µg of anti-human IgG4). Evaluation of rPPDK-LFD using ALA patients and controls serum samples showed 87% diagnostic sensitivity and 100% specificity. CONCLUSION: The developed rPPDK-LFD showed good potential for rapid diagnosis of ALA, and merit further multicentre validation using larger number of serum samples.

Pyramiding expression of maize genes encoding phosphoenolpyruvate carboxylase (PEPC) and pyruvate orthophosphate dikinase (PPDK) synergistically improve the photosynthetic characteristics of transgenic wheat.

Using particle bombardment transformation, we introduced maize pepc cDNA encoding phosphoenolpyruvate carboxylase (PEPC) and ppdk cDNA encoding pyruvate orthophosphate dikinase (PPDK) into the C3 crop wheat to generate transgenic wheat lines carrying cDNA of pepc (PC lines), ppdk (PK lines) or both (PKC lines). The integration, transcription, and expression of the foreign genes were confirmed by Southern blot, Real-time quantitative reverse transcription PCR (Q-RT-PCR), and Western blot analysis. Q-RT-PCR results indicated that the average relative expression levels of pepc and ppdk in the PKC lines reached 10 and 4.6, respectively, compared to their expressions in untransformed plants (set to 1). The enzyme activities of PEPC and PPDK in the PKC lines were 4.3- and 2.1-fold higher, respectively, than in the untransformed control. The maximum daily net photosynthetic rates of the PKC, PC, and PK lines were enhanced by 26.4, 13.3, and 4.5%, respectively, whereas the diurnal accumulations of photosynthesis were 21.3, 13.9, and 6.9%, respectively, higher than in the control. The Fv/Fm of the transgenic plants decreased less than in the control under high temperature and high light conditions (2 weeks after anthesis), suggesting that the transgenic wheat transports more absorbed light energy into a photochemical reaction. The exogenous maize C4-specific pepc gene was more effective than ppdk at improving the photosynthetic performance and yield characteristics of transgenic wheat, while the two genes showed a synergistic effect when they were transformed into the same genetic background, because the PKC lines exhibited improved photosynthetic and physiological traits.

Evidence of coexistence of C3 and C4 photosynthetic pathways in a green-tide-forming alga, Ulva prolifera.

Ulva prolifera, a typical green-tide-forming alga, can accumulate a large biomass in a relatively short time period, suggesting that photosynthesis in this organism, particularly its carbon fixation pathway, must be very efficient. Green algae are known to generally perform C3 photosynthesis, but recent metabolic labeling and genome sequencing data suggest that they may also perform C4 photosynthesis, so C4 photosynthesis might be more wide-spread than previously anticipated. Both C3 and C4 photosynthesis genes were found in U. prolifera by transcriptome sequencing. We also discovered the key enzymes of C4 metabolism based on functional analysis, such as pyruvate orthophosphate dikinase (PPDK), phosphoenolpyruvate carboxylase (PEPC), and phosphoenolpyruvate carboxykinase (PCK). To investigate whether the alga operates a C4-like pathway, the expression of rbcL and PPDK and their enzyme activities were measured under various forms and intensities of stress (differing levels of salinity, light intensity, and temperature). The expression of rbcL and PPDK and their enzyme activities were higher under adverse circumstances. However, under conditions of desiccation, the expression of rbcL and ribulose-1, 5-biphosphate carboxylase (RuBPCase) activity was lower, whereas that of PPDK was higher. These results suggest that elevated PPDK activity may alter carbon metabolism and lead to a partial operation of C4-type carbon metabolism in U. prolifera, probably contributing to its wide distribution and massive, repeated blooms in the Yellow Sea.

[Expression of PPDK from Microbispora rosea subsp. aerata in Escherichia coli and its application in pyrosequencing].

Pyruvate phosphate dikinase (PPDK; EC 2.7.9.1) is found in certain microorganisms and plants, and catalyzes the conversion of AMP, PPi and phosphoenolpyruvate (PEP) to ATP, Pi and pyruvate. Using the genomic DNA of Microbispora rosea subsp. aerata as the template, a DNA fragment encoding the gene PPDK was amplified by PCR and inserted into the expression vector pET28a(+), yielding pET28a (+)-PPDK. The E. coli BL21 (DE3) was transformed with the pET28a (+)-PPDK. After inducing with IPTG, the E. coli BL21 (DE3) [pET28a (+)-PPDK] expressed recombinant PPDK fused to an N-terminal sequence of 6-His Tag. The molecular weight of PPDK was estimated to be 101 kD by SDS-PAGE. The PPDK was purified by His * Bind Resin affinity chromatography and ultrafiltration using 10 kD cut-off membrane. The successful application of PPDK in pyrosequencing was also demonstrated.

Cellular expression of C3 and C4 photosynthetic enzymes in the amphibious sedge Eleocharis retroflexa ssp. chaetaria.

The amphibious leafless sedge Eleocharis retroflexa ssp. chaetaria expresses C(4)-like biochemical characteristics in both the terrestrial and submerged forms. Culms of the terrestrial form have Kranz anatomy, whereas those of the submerged form have Kranz-like anatomy combined with anatomical features of aquatic plant leaves. We examined the immunolocalization of C(3) and C(4) enzymes in culms of the two forms. In both forms, phosphoenolpyruvate carboxylase; pyruvate, Pi dikinase; and NAD-malic enzyme were compartmentalized between the mesophyll (M) and Kranz cells, but their levels were somewhat reduced in the submerged form. In the terrestrial form, ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) occurred mainly in the Kranz cells, and weakly in the M chloroplasts. In the submerged form, the rubisco occurred at higher levels in the M cells than in the terrestrial form. In both forms, the C(4) pattern of enzyme expression was clearer in the M cells adjacent to Kranz cells than in distant M cells. During the transition from terrestrial to submerged conditions, the enzyme expression pattern changed in submerged mature culms that had been formed in air before submergence, and matched that in culms newly developed underwater. It seems that effects of both environmental and developmental factors overlap in the C(4) pattern expression in this plant.

Pyruvate phosphate dikinase from a thermophilic actinomyces Microbispora rosea subsp. aerata: purification, characterization and molecular cloning of the gene.

Various thermophilic bacteria were analyzed by Southern hybridization analysis using oligonucleotide probes coding for the pyruvate phosphate dikinase (PPDK) gene from Clostridium symbiosum, and positive hybridization signals were observed in the chromosomal DNAs from Microbispora rosea subsp. aerata (IFO 14047). PPDK activity was detected in lactose induced cells and the enzyme was purified to homogeneity. The molecular mass of PPDK was estimated to be 230000 by gel filtration chromatography and 91000 by SDS-PAGE, suggesting that PPDK is a dimeric enzyme. This enzyme was specific for adenine nucleotide and the apparent Km values for AMP, PPi, and phosphoenolpyruvate were 5, 38, and 280 microM, respectively. It was stable in the pH range 6 to 11, and retained 80% activity after 60 min heat treatment at 60 degrees C. We cloned the PPDK gene from M. rosea. It consists of 878 amino acids with a molecular mass of 95514. Sequence comparison indicates around 50% similarity with other PPDKs and it has all the highly conserved regions of the related enzymes. We expressed the PPDK gene in Escherichia coli and obtained enzymatically active protein.

Low-oxygen stress and water deficit induce cytosolic pyruvate orthophosphate dikinase (PPDK) expression in roots of rice, a C3 plant.

Pyruvate orthophosphate dikinase (PPDK) is known for its role in C4 photosynthesis but has no established function in C3 plants. Abscisic acid, PEG and submergence were found to markedly induce a protein of about 97 kDa, identified by microsequencing as PPDK, in rice roots (C3). The rice genome was found to contain two ppdk loci, osppdka and osppdkb. We isolated osppdka cDNA, which encodes a cytosolic rice PPDK isoform of 96.6 kDa, that corresponded to the ABA-induced protein from roots. Western blot analysis showed a PPDK induction in roots of rice seedlings during gradual drying, cold, high salt and mannitol treatment, indicating a water deficit response. PPDK was also induced in the roots and sheath of submerged rice seedlings, and in etiolated rice seedlings exposed to an oxygen-free N2 atmosphere, which indicated a low-oxygen stress response. None of the stress treatments induced PPDK protein accumulation in the lamina of green rice seedlings. Ppdk transcripts were found to accumulate in roots of submerged seedlings, concomitant with the induction of alcohol dehydrogenase 1. Low-oxygen stress triggered an increase in PPDK activity in roots and etiolated rice seedlings, accompanied by increases in phosphoenolpyruvate carboxylase and malate dehydrogenase activities. The results indicate that cytosolic PPDK is involved in a metabolic response to water deficit and low-oxygen stress in rice, an anoxia-tolerant species.

The transcriptional activator Opaque-2 controls the expression of a cytosolic form of pyruvate orthophosphate dikinase-1 in maize endosperms.

The maize Opaque-2 (O2) protein is a transcription factor of the basic/leucine-zipper class, involved in the regulation of endosperm proteins including the 22kDa alpha-zein storage proteins and b32 protein. In this study we have focussed our attention on the relationship between O2 and the cyPPDK1 gene, which encodes a cytoplasmic pyruvate orthophosphate dikinase (PPDK) isoform. The results of this study showed that PPDK activity is detectable in wild-type maize endosperms, while in o2 mutant endosperms, the levels of PPDK protein, mRNA and enzymatic activity are reduced, indicating that O2 is involved in the regulation of cyPPDK1 in this tissue. By employing transient expression experiments in tobacco mesophyll protoplasts, we have demonstrated that the O2 protein can activate expression of a chloramphenicol acetyl transferase reporter gene placed under the control of the cyPPDK1 promoter. An in vitro binding assay and DNaseI footprint analysis demonstrated that a specific sequence in the cyPPDK1 promoter can be recognized and protected by maize O2 protein. The regulation by the O2 locus of cyPPDK1 reported here, and control of alpha-zein synthesis by O2 suggest that the O2 protein may play a more general role in maize endosperm development than previously thought.

Cold stability of pyruvate, orthophosphate dikinase of Flaveria brownii.

The nucleotide sequences of the complementary DNA of pyruvate, Pi dikinase (PPDK) from Flaveria bidentis, a C4 plant which possesses a cold-sensitive form of PPDK, and Flaveria brownii, a 'C4-like' plant which possesses a cold-tolerant form of PPDK, were determined. PPDK was isolated from the leaves of both Flaveria species and purified and the N-terminal amino acid sequences characterised. Together with a maize PPDK cDNA, cDNA inserts which code for the mature form of PPDK of F. bidentis and of F. brownii were expressed in bacteria and the cold sensitivity of the expressed PPDK studied. The cold sensitivity of the PPDK expressed in bacteria mimics the cold sensitivity of PPDK found in vivo in all three plant species. This study indicates that the cold sensitivity of plant PPDK is controlled by the primary structure of the enzyme.

Age-dependent induction of pyruvate, orthophosphate dikinase in Mesembryanthemum crystallinum L.

A full-length transcript for pyruvate, orthophosphate dikinase (PPDK; EC 2.7.9.1), has been characterized from Mesembryanthemum crystallinum. Under salt stress or with increasing age, this plant shows a transition from C3 to Crassulacean acid metabolism (CAM). The PPDK plays a central role in gluconeogenesis during the light phase of CAM. The transcript is 3165 bases in length with a single open reading frame of 2739 nucleotides specifying a protein of molecular mass 103098, including a transit peptide of mass 7902 for chloroplast import. The protein shares 44-77% sequence identity with PPDK from C4-plants and microorganisms. Known functional and regulatory amino acids are conserved. Southern-type hybridizations indicated one copy or very few closely related copies of the gene per haploid genome. We investigated the induction of PPDK at the mRNA and protein levels, using the well characterized induction of a CAM-form of phosphoenol pyruvate carboxylase (PEPCase) as internal standard. During wilting of excised leaves PEPCase mRNA amounts increased strongly within 8 h. Under these conditions amounts of PPDK mRNA remained constant. Re-hydrating leaves from previously stressed plants led to a decrease in PEPCase and PPDK mRNA amounts. During salt stress, no correlation between PEPCase and PPDK was observed. Analysis of plants of different ages indicated that, even in well-watered plants, PPDK-specific protein and mRNA increased when the plants reached a certain age. In old plants, salt stress failed to further increase PPDK mRNA or protein levels.(ABSTRACT TRUNCATED AT 250 WORDS)

Primary structure of the photosynthetic pyruvate orthophosphate dikinase of the C3 plant Flaveria pringlei and expression analysis of pyruvate orthophosphate dikinase sequences in C3, C3-C4 and C4 Flaveria species.

We have isolated full-size cDNA sequences encoding the photosynthetic isoform of pyruvate orthophosphate dikinase (PPDK) of the C3 plant Flaveria pringlei. The encoded protein shares 96% identical amino acid residues with the C4 isoform of PPDK in the C4 species F. trinervia. The differing amino acid residues are evenly distributed along the polypeptide chain. Genomic Southern analysis of photosynthetic PPDK sequences in F. pringlei (C3), F. chloraefolia (C3-C4), F. linearis (C3-C4), F. floridana (C3-C4), F. brownii (C4-like) and F. trinervia (C4) reveals a simple hybridization pattern which is suggestive of a single gene. Northern hybridization experiments show that the abundance of PPDK transcripts in leaves correlates with the degree of C4 characteristics expressed in the various photosynthetic types analysed. This finding demonstrates that the increase in expression levels must have played a crucial role in evolving the C4-PPDK gene in the genus Flaveria.

Protein phosphatase activity is required for light-inducible gene expression in maize.

Chlorophyll accumulation and photosynthetic gene activation are two hallmarks of greening process in etiolated maize leaves in response to light signals. However, very little is known about the relevant signal transduction pathways mediating these essential processes that lead to photosynthetic competence. It is shown here that a potent and specific protein phosphatase 1 (PP1) and PP2A inhibitor, okadaic acid, efficiently blocks chlorophyll accumulation induced by light in etiolated maize leaves. In addition, the light-inducible expression of two photosynthetic fusion genes can be specifically suppressed by the structurally unrelated PP1 and PP2A inhibitors, okadaic acid and calyculin A, using a sensitive and physiological maize protoplast transient assay. The specificity and effective concentration of the inhibitors in vivo and in vitro strongly suggest that PP1 is required for transmitting light signals. Intriguingly, several partial cDNAs encoding novel as well as conserved PP1 can be identified in maize leaves using the polymerase chain reaction. Studies of chimeric promoters indicate that PP1 activity is essential for the interaction of multiple regulatory elements. Although PP1 and PP2A have been implicated in the suppression of gene activity in yeast and animals, the present data indicate that PP1 appears to be essential for light-dependent gene activation in plants.

Cis-acting elements in the pyruvate, orthophosphate dikinase gene from maize.

To investigate the mechanisms that control expression of the gene for pyruvate, orthophosphate dikinase (PPDK) in maize, the 5' flanking region of the gene was analyzed for interactions with nuclear extracts. Gel retardation assays showed that there are several sites in the promoter region which bind to protein factors. In this report we describe further study of one of these sites, designated the PPD-1 binding site. The nuclear binding factor, PPD-1, is restricted to nuclear extracts from green leaves where the PPDK gene is expressed. No binding of PPD-1 was detected in tissues such as roots or etiolated leaves where the gene is not expressed in vivo. Gel retardation assays using deletion fragments from the promoter region and synthetic oligonucleotides, as well as exonuclease III protection assays, revealed that the site of PPD-1 binding lies between positions -301 and -296. To identify the functional role of the interaction between PPD-1 and its binding site, a deletion series of the promoter region was joined to a reporter gene, beta-glucuronidase. These constructs were introduced into green leaves of maize by microprojectile bombardment. Expression of the reporter gene occurred if the PPD-1 binding site remained in the promoter region of the chimeric genes but deletion of the binding site caused a drastic reduction in expression levels. These data indicate that interaction between PPD-1 and its binding site is essential for active transcription of the PPDK gene.

Molecular mechanisms underlying the differential expression of maize pyruvate, orthophosphate dikinase genes.

I describe here the organization of maize C4 chloroplast and non-C4 cytosolic pyruvate, orthophosphate dikinase (PPDK) genes and the molecular mechanisms underlying their differential expression. The maize C4 chloroplast PPDK gene (C4ppdkZm1) appears to have been created by the addition of an exon encoding the chloroplast transit peptide at a site upstream of a cytosolic PPDK gene (cyppdkZm1). A splice acceptor sequence located in the first exon of cyppdkZm1 allows the fusion of the transit peptide to the cyppdkZm1 sequences. A second cyPPDK gene (cyppdkZm2) shares extensive homology with cyppdkZm1 in the coding region and in the 5' flanking region up to the TATA box. By a novel protoplast transient expression method, I show that the light-inducible expression of C4ppdkZm1 is controlled by two expression programs mediated through separate upstream regulatory elements that are active in leaf, but inactive in root and stem. Light-mediated C4ppdkZm1 expression in maize is apparently uncoupled from leaf development and partially associated with chloroplast development. For cyppdkZm1 expression, distinct upstream elements and a specific TATA promoter element, located in the first intron of C4ppdkZm1, are required. The low expression of cyppdkZm2 can be attributed to an absence of upstream positive elements and weak activity of the TATA promoter element.