Glutamate dehydrogenase isoenzymes in Ricinus communis seedlings

Castor bean seedling glutamate dehydrogenase isoenzymes are not artifacts. The isoenzymes have different salting out properties and they utilize NAPD to differing extents, but they have the same isoelectric point of pH 6·2. Tissue specific patterns occur but the patterns are the same between genotypes. The GDH isoenzymes are probably of functional significance in castor bean seedlings.     

Characterization of chromatin from Triticum aestivum

Chromatin was isolated from wheat seedlings using chromatin aggregation in the presence of cations and dispersion in the absence of these cations. The preparation contained some contaminating RNA. The protein, DNA and RNA moieties were separated from each other by ion exchange chromatography on hydroxyapatite in the presence of 5 M urea and 2 M NaCl. The histone and non-histone proteins were subsequently separated on CM-cellulose and the histones partially separated from one another. The various protein fractions were characterized by urea-acetic acid and sodium dodecyl sulphate polyacrylamide gel electrophoresis.     

Salt tolerance in the halophyte Suaeda maritima. Further properties of the enzyme malate dehydrogenase

Malate dehydrogenase activity in supernatant fractions prepared from the halophyte Suaeda maritima was modified by added NACl with an optimal concentration for activation of about 50 mM. At this ionic strength of 0.05 the chlorides of sodium, potassium, ammonium, rubidium, calcium and magnesium all produced a similar degree of stimulation, while the nitrates of potassium and sodium were somewhat less effective. A similar result was obtained whether the plants were grown in the presence or absence of NACl. Furthermore, malate dehydrogenase activity in preparations from the glycophyte Pisum sativum behaved in a similar manner. The enzyme activity from both Suaeda and Pisum was separable into two fractions (I and II) by gel filtration on Sephadex G200. The MW of fraction II from Suaeda was estimated to be 165000 and that from Pisum approximately 282000: fraction I from both species eluted at the void volume of Sephadex G200. Storage of lyophilised supernatant resulted in the loss of enzyme activity from fraction I and a decrease in the overall stimulation by NaCl. Treatment of the lyophilised enzyme with NACl at a concentration of 100 mM also resulted in the loss of enzyme activity from fraction I.     

The effect of salts on malate dehydrogenase from leaves of Zea mays

The effect of sodium and potassium chlorides and of sodium sulphate on malic dehydrogenase (EC 1.1.1.37) from Zea mays chloroplasts and cytosol has     

Heterologous expression of non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase from Triticum aestivum and Arabidopsis thaliana

Non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase (np-Ga3PDHase) plays a key metabolic role in higher plants. Purification to homogeneity of enzymes found in relatively low abundance in plants represents a major technical challenge that can be solved by molecular gene cloning and heterologous expression. To apply this strategy to np-Ga3PDHase we performed the cloning of the gapN gene from Arabidopsis thaliana and Triticum aestivum, followed by the heterologous expression in Escherichia coli by two different strategies. Soluble expression of the Arabidopsis enzyme in the pET32c+ vector required a chaperone co-expression system (pGro7). The system using E. coli BL21-CodonPlus^® cells and the pRSETB vector was successful for expression of a soluble His₆-taged recombinant wheat enzyme producing 2.5 mg of electrophoretically pure protein per liter of cell culture after a single chromatographic purification step. Both systems were effective for the expression of functional plant np-Ga3PDHases, however the expression of the Arabidopsis enzyme in pRSETB was affordable but not as optimal as for the wheat protein. This would be associated with a different codon usage preference between this specific plant and E. coli. Considering the relevant role played by np-Ga3PDHase in plant metabolism, it is experimentally valuable the development of a procedure to obtain adequate amounts of highly purified enzyme, which envisages the viability to perform studies of structure-to-function relationships to better understand the enzyme kinetics and regulation, as well as carbon and energy metabolism in higher plants.     

Epicuticular wax of Triticum aestivum demar 4

The composition of epicuticular wax from plants of bread wheat (Demar 4 variety) at 3 stages of growth was studied. After germination for 30 and 130 da     

Structure of hemicelluloses isolated from Canavalia ensiformis and Triticum aestivum straws

Hemicellulose was extracted from horse bean and wheat straws in a yield of 5 and 9% respectively. The whole hemicellulose was hydrolysed and the molar ratio of the component monosaccharides was determined. Uronic acid, galactose, glucose, arabinose and xylose were found in both hemicelluloses. The molar ratio of the monosaccharides was determined in each of 4 fractions derived from the saccharide. The main fractions (B and C) were partially hydrolysed and an oligosaccharide containing arabinose and xylose (1:1) was isolated from both hemicelluloses. Another oligosaccharide containing xylose and glucose (2:1) was also isolated from wheat straw hemicellulose. Periodate oxidation was carried out on fractions B and C. The formic acid and the consumed periodate were determined. Each hemicellulose was subjected to Smith's degradation. Glycerol, erythrytol and compounds containing xylose and glycerol (1:1), and xylose and erythrytol (1:1) were isolated.     

Characterization of the early synthesized DNA in germinating Triticum aestivum embryos

A radioactive DNA preparation was isolated from the post-mitochondrial supernatant fraction of thymidine-[¹⁴C] fed wheat embryos. The isolated sDNA preparation was similar to cytoplasmic non-mitochondrial DNA of other eukaryotic cells. The buoyant density and frequency of pyrimidine nucleotide clusters found for the sDNA were, essentially, the same as those found for the nuclear DNA. In contrast to DNA that can be leaked from nuclei or other DNA-containing organelles, the sDNA is firmly bound to a protein component. At an early germination stage (6–12 hr), the sDNA is the only newly-synthesized DNA fraction that can be isolated from the embryo homogenate. Considerable synthesis of nuclear and organellar DNA starts 18 hr after the beginning of germination, just prior to the first maximum of the cell divisions. It is concluded that wheat embryo cells contain cytoplasmic non-mitochondrial DNA and are able to resume its synthesis at an early germination stage, prior to the first post-dormant round of nuclear DNA replication.     

Properties of three sets of isoenzymes of alcohol dehydrogenase isolated from barley (Hordeum vulgare)

Three sets of isoenzymes of alcohol dehydrogenase were separated from root and shoot tissue of Hordeum vulgare by DEAE-cellulose chromatography. Set I showed only one band of ADH activity after polyacrylamide gel electrophoresis; Set II—two and Set III—three, making a total of six discernable bands. Only one set (I) was detected in the dry seed and one set (III) in the M9 (Adh-1-null) mutant available in tissue culture. The sets were found to have identical molecular weights (90 000), were all located in the cytoplasm but showed small differences in pH optima and substrate specificity. The affinity for ethanol (K_m value, mM) varied between Set I (27.5), Set II (7.2) and Set III (3.5), whilst the affinity for NADH varied five-fold between the three sets. A dimeric quaternary structure was inferred from the random reassociation of enzyme subunits after dissociation in high ionic strength buffer.     

RNA polymerase activity in isolated Triticum aestivum embryos during germination

A gradual decrease in the total activity of DNA-dependent RNA polymerase in isolated wheat embryos began 6 hr after germination and continued for up to 48 hr. DEAE-cellulose column chromatography indicated the presence of two RNA polymerase fractions (major and minor) in the resting embryos, only one of which (major) could be detected in the embryos germinated for 48 hr. The major RNA polymerase fraction was tentatively identified as nucleoplasmic (RNA polymerase II).     

Disc electrophoretic investigation of Coffea arabica and C. canephora: General protein and malate dehydrogenase of mature seeds

A preliminary disc electrophoretic investigation utilizing malate dehydrogenase and general protein banding patterns obtained from mature seeds revealed detectable differences among Coffea species, varieties and cultivars. Protein differences among seed samples from individual plants of the same variety were also implied. The analyzed protein data were presented as dendrograms and compared with published genetical and taxonomical data.     

Separate monophenolase and o-diphenolase enzymes in Triticum aestivum

Monophenolase and o-diphenolase activities of polyphenol oxidase are usually thought to be a part of the same enzyme complex. It has now been demonstrated that the two catalytic activities of the polyphenol oxidase of wheat grains are separable and reside in different enzymes. The electrophoretically separated monophenolase enzyme showed specificity only for monophenol (l-tyrosine) after its elution from acrylamide gels. Further, this enzyme is confined to the endosperm tissue and is undetectable in the embryonic region of the seedling.     

Action of sulphite on plant malate dehydrogenase

SO₃^2? acts on NAD- and NADP-dependent malate dehydrogenase in several ways. Firstly, SO₃^2? favours the appearance of low MW species (65 000 and 39 000 daltons) in Sephadex gel chromatography. Secondly, the enzyme form which is obtained by gel chromatography with dithioerythritol plus nucleotide cofactor is changed in the presence of SO₃^2?. This is indicated by the appearance of a linear reaction (instead of curvilinear), and by the abolition of the biphasic sigmoidal kinetics on varying substrate and cofactor concentrations. SO₃^2? causes the loss of negative cooperativity at low substrate or cofactor concentrations. Thus the inhibition of initial velocity at high substrate or cofactor concentrations is even more marked than at lower ones. Thirdly, SO₃^2? strongly reduces the activity in substrate saturating conditions.     

Pathways of carbohydrate oxidation in leaves of Pisum sativum and Triticum aestivum

The aim of this work was to establish the pathways of carbohydrate oxidation used in the dark by leaves of Pisum sativum and Triticum aestivum. Segments of young and mature leaves of pea released the carbons of glucose-[¹⁴C] as ¹⁴CO₂ in the order 3,4 > 1 > 2 > 6 whereas in segments of young and mature leaves of wheat the order was 3,4 > 1 > 6 > 2. The detailed labelling of the constituents of mature leaves of wheat by glucose-[1-¹⁴C], -[2-¹⁴C], -[3,4-¹⁴C], and -[6-¹⁴C] was determined and showed that the high yield of CO₂ from C-6 relative to that from C-2 was due to release of C-6 during pentan synthesis. Estimates were made of the maximum catalytic activities of phosphofructokinase and glucose-6-phosphate dehydrogenase in pea and wheat leaves of three ages. The results of all the above investigations strongly indicate that both pea and wheat leaves in the dark oxidize carbohydrate via glycolysis and the pentose phosphate pathway with the latter accounting for no more than a third of the total. No evidence was obtained of any major change in the relative activities of the two pathways during the development of either type of leaf.     

Electrophoretic variation of supernatant malate dehydrogenase in marsupials

Starch gel electrophoresis of supernatant malate dehydrogenase (MDH A₂) was performed on erythrocyte samples from 505 individual animals representative of 33 marsupial species. Most species exhibited electrophoretically identical forms of MDH A₂ activity with the exception of the grey kangaroos, Trichosurus possums, and bandicoots, thus confirming the phylogenetic relatedness of animals within each group and the conservative nature of this enzyme. Polymorphisms were observed in two of the six species analyzed whose mobilities were non-standard. Allelic isozyme patterns and those from interspecies F₁ hybrids between grey kangaroos and other macropods were consistent with a dimeric subunit structure and an autosomal locus (MDH-A) encoding the enzyme.Supported in part by grants from the Australian Research Grants Committee.     

Specific template activity of ribonucleoprotein particles isolated from germinating Triticum aestivum embryo

A ribonucleoprotein (RNP) complex formed in wheat embryo at early germination stage was shown to be composed of 40-S RNP particle monomers and oligomers. RNA purified from this complex stimulated incorporation in vitro of various amino acids with efficiences dependent upon the frequencies of the corresponding codons calculated for this RNA from its base composition. Methionine was incorporated over the expected rate when the crude RNP complex, instead of the purified RNA, was used as the template. It is believed that the RNP complex represents a crude informosome fraction. The informosomes seem to contain a protein component that promotes the initiation of translation but does not involve the subsequent production of protein.     

Cell wall-bound malate dehydrogenase from horseradish

Isolated cell walls from horseradish contain NAD-specific malate dehydrogenase which is not released on treatment with 2 M NaCl. This enzyme catalyses a rapid reduction of oxalacetate. Its physiological role, however, is assumed to be the oxidation of malate, thus providing NADH as electron donor in the formation of H₂O₂, by a wall-bound peroxidase. In the presence of malate, NAD and Mn²⁺ ions, cell walls catalyse the synthesis of H₂O₂ which might be utilized in lignin formation. In analogy to the known malate-oxalacetate shuttles, the possibility is discussed that this cell wall-associated malate dehydrogenase is involved in the transport of cytoplasmic reducing equivalents through the plasmalemma into the cell wall.     

Alcohol dehydrogenase isoenzymes in chickpea cotyledons

Alcohol dehydrogenase (ADH) (EC 1.1.1.1) in the cotyledons of chickpea consists of three isoenzymes, ADH-1, ADH-2 and ADH-3, in order of decreasing ele     

Purine and pyrimidine bases and nucleosides of germinating Triticum aestivum seeds

Adenine, guanine, uracil and the corresponding nucleosides were identified in mature wheat grain. On germination, contents of these compounds changed in a regular pattern. Amounts of the free bases rose immediately and remained at the increased levels for a short period (3–6 hr). Nucleoside content decreased at the initial phase and increased sharply 12 to 48 hr after germination.     

Aggregation states of mitochondrial malate dehydrogenase.

The oligomeric state of fluorescein-labeled mitochondrial malate dehydrogenase (L-malate NAD+ oxidoreductase; mMDH; EC 1.1.1.37), as a function of protein concentration, has been examined using steady-state and dynamic polarization methodologies. A "global" rotational relaxation time of 103 +/- 7 ns was found for micromolar concentrations of mMDH-fluorescein, which is consistent with the reported size and shape of mMDH. Dilution of the mMDH-fluorescein conjugates, prepared using a phosphate buffer protocol, to nanomolar concentrations had no significant effect on the rotational relaxation time of the adduct, indicating that the dimer-monomer dissociation constant for mMDH is below 10(-9) M. In contrast to reports in the literature suggesting a pH-dependent dissociation of mMDH, the oligomeric state of this mMDH-fluorescein preparation remained unchanged between pH 5.0 and 8.0. Application of hydrostatic pressure up to 2.5 kilobars was ineffective in dissociating the mMDH dimer. However, the mMDH dimer was completely dissociated in 1.5 M guanidinium hydrochloride. Dilution of a mMDH-fluorescein conjugate, prepared using a Tris buffer protocol, did show dissociation, which can be attributed to aggregates present in these preparations. These results are considered in light of the disparities in the literature concerning the properties of the mMDH dimer-monomer equilibrium.