Malate dehydrogenase isozymes in flax genotroph leaves: Differences in apparent molecular weight and charge between and within L and S

Ferguson plots demonstrated that corresponding malate dehydrogenase (MDH) isozymes of Durrant's L and S flax genotrophs differ in apparent molecular weight (MW) and also in net negative charge. The MW differences explain heritable differences in electrophoretic relative mobility (R _m) between corresponding L and S isozymes. The MW for each MDH isozyme was higher for L than for S and resulted in a slowerR _m for L. The net negative charge for each isozyme was higher for L than for S. MDH isozymes also differ in MW within L and S. MW was lower for isozymes in leaves from the bottom of the stem than in leaves from the top of the stem, particularly in L. Integration of information on the MDH isozyme system in the flax genotrophs and information on the peroxidase system suggests the possibility that common modifier loci may controlR _m in both enzymes.The financial assistance of the Natural Sciences and Engineering Research Council of Canada is acknowledged with thanks.     

Rm Differences in Leaf Malate Dehydrogenases of Flax (Linum usitatissimum) Genotrophs: Apparent Developmental Effects

Fieldes, M. A. and Gray, T. J. 1988. R_m differences in leafmalate dehydrogenases of flax (linum usitatissimum) genotrophs:apparent developmental effects.—J. exp. Bot. 39: 499–509. Malate dehydrogenase (MDH) isozyme relative mobility (R_m) wasexamined in leaf extracts of Durrant's large (L) and small (S)flax genotrophs. Within both L and S there were differencesin R_m between leaves sampled from different positions down themain stem and between leaves sampled from plants of differentages. For leaves sampled from plants which were at the onsetof flowering, the R_m differences from the apex to the base ofthe stem showed similar trends in L and S. However, the neteffect of the trend for L was a linear increase in R_m from apexto base, which did not occur in S. The changes in R_m which occurredin apical leaves as the plants aged were also different in Land S; R_mdecreased in L and increased in S during the growthperiod just prior to flowering. The possible relationship betweenthese differences in the changes in MDH R_m within L and S, previouslyreported differences in the changes in peroxidase (PER) isozymeR_m and the morphological/developmental differences between Land S is discussed. In addition, the experimentation demonstratedthat ‘negative’ bands detected in MDH-stained gelsunder certain staining conditions appear to correspond to PERisozymes and effectively mean that PER and MDH isozyme R_m'scan be obtained from the same electrophoretic gels. Key words: Malate dehydrogenase, peroxidase, relative mobility, flax     

Segregation of the isozymes of flax genotrophs

The segregation of isozymes of peroxidase and acid phosphatase in progenies of crosses between large (L) and small (S and L₆) flax genotrophs has been determined. The peroxidase isozymes segregated as expected on a simple Mendelian model with a dominant and a recessive allele and with the L genotroph being a homozygous dominant. All the peroxidase isozymes which differed segregated together, so the isozymes are controlled by either a single locus or closely linked loci. The acid phosphatase isozymes in the F₁ were all L type, but the segregations observed in the F₂ were not always consistent with a simple Mendelian model.     

Effect of ínductive photoperiod and gibberellin treatment on peroxidase enzyme system in relation to floral induction inImpatiens balsamina L

Gibberellins A₃ and A₁₃ cause floral induction inImpatiens balsamina, a qualitative short day plant, under non-inductive 24-h photoperiods (continuous illumination). However, the influence of the two inductive factors,i.e. gibberellins and short days (8-h photoperiods) on the peroxidase enzyme system is different. The total peroxidase activity decreases under both inductive and non-inductive photoperiods, with or without gibberellin treatment. The electrophoretic pattern of isoperoxidases changes only in response to gibberellin treatment. Under 24-h photoperiods, treatment with gibberellins A₃ and A₁₃ causes the appearance in the stem of three additional isoenzymes of peroxidase (Rm 0.50, 0.71 and 0.76). These bands do not appear in the leaves, which are non-essential for gibberellin-caused floral induction in this plant. Under 8-h photoperiods also, gibberellins induce the appearance of new isoenzyme bandsi.e. two in the stem (Rm 0.50 and 0.76) and one in the leaves (Rm 0.05). These may be correlated with the synergistic increase in the number of floral buds in these plants in response to simultaneous exposure to two inductive factors.     

Characteristic Amino Acid Sequences of Chloroplast and Cytosol Isozymes of CuZn-Superoxide Dismutase in Spinach, Rice and Horsetail

Two isozymes of CuZn-superoxide dismutase (SOD) were purifiedfrom spinach. One (CuZn-SOD II) was localized in chloroplastsand had the same properties as the enzyme previously reported[Asada et al. (1973) Eur. J. Biochem. 36: 257–266]. Theother isozyme (CuZn-SOD I) was predominantly expressed in seedsand in etiolated seedlings of spinach, but was localized inthe cytosol of the leaves as a minor enzyme. The isozymes havesimilar molecular weights, subunit structures, and metal contents;but their amino acid compositions, absorption spectra, CD spectraand sensitivities to hydrogen peroxide are different. The amino acid sequences of 50 amino-terminal residues of thechloroplast and cytosol isozymes of CuZn-SOD from spinach, riceand horsetail were determined and compared with those of CuZn-SODsfrom other plants. The sequences can be divided into chloroplastand cytosol types, and characteristic sequences can be identifiedin accordance with the observations that the two types of CuZn-SODisozymes from green algae, ferns and angiosperms can be distinguishedimmunologically from each other. Differences in amino acid sequencesamong the cytosol enzymes are greater than those among the chloroplastenzymes, indicating that the rate of mutation of the cytosolCuZn-SOD is higher than that of the chloroplast CuZn-SOD. Theseresults provide further evidence that the divergence of thetwo types of isozyme of CuZn-SOD occurred at a very early stageof its acquisition, and that each type of CuZn-SOD has evolvedindependently. (Received September 1, 1989; Accepted November 6, 1989)     

CuZn-Superoxide Dismutases in Rice: Occurrence of an Active, Monomeric Enzyme and Two Types of Isozyme in Leaf and Non-Photosynthetic Tissues

Rice leaves and seed embryos contain four isozymes of CuZn-superoxidedismutase (SOD) and two isozymes of Mn-SOD. CuZn-SOD I is amajor enzyme in leaves, but not in embryos or etiolated seedlings.CuZn-SODs II,III and IV were found in the embryos but were alsofound as minor isozymes in leaves. CuZn-SODs I, II and IV were purified to homogeneity from riceleaves. CuZn-SODs I and II had similar properties with respectto molecular weight, dimeric structure, absorption spectrumand metal content, but their amino acid compositions differedfrom each other. The absorption spectrum of CuZn-SOD IV wassimilar to that of isozymes I and II, but this enzyme was amonomer with a molecular mass of 1.7 kDa. Antibody against CuZn-SODI from rice did not cross-react with isozymes II and IV. Antibodiesagainst CuZn-SOD from spinach leaves cross-reacted with isozymeI but not with isozymes II, III and IV. By contrast, the antibodiesagaist CuZn-SOD from spinach seeds cross-reacted with isozymesII, III and IV but not with isozyme I. Thus, the isozyme thatis expressed mainly in leaves (CuZn-SOD I) and the isozymesexpressed mainly in non-photosynthetic tissues (CuZn-SODs II,III, IV) are immunologically distinct. (Received October 7, 1988; Accepted January 27, 1989)     

Relative mobility and activity of leaf malate dehydrogenase in flax(Linum usitatissimum) genotrophs and genotypes

Malate dehydrogenase (MDH) band relative mobility (R _m) and activity were examined in leaf extracts of Durrant's flax genotrophs, L and S, and flax genotypes, R and M. MDH activity in leaves from just below the inflorescence was higher in the two smaller, sparsely branched plant types, S and M, than in the larger, more branched plant types, L and R. The MDH electrophoretic banding pattern in flax leaf extracts consisted of three major anionic bands, MDH-1, MDH-2, and MDH-3. NoR _m differences were detected between corresponding isozymes of genotypes R and M. For the genotrophs, however, all three bands of S migrated faster than the corresponding bands of L. Codominance was absent in F₁ hybrids; SR _m was dominant for MDH-2 and MDH-3 and LR _m was dominant for MDH-1. The observations suggest that MDHR _m in L and S may be controlled by a modifier locus (or loci). Previous studies indicate that a modifier locus may also control heritable genotrophic differences in peroxidase (PER) and acid phosphates (AP)R _m. The three enzyme systems are compared.The financial assistance of the Natural Sciences and Engineering Research Council of Canada is acknowledged with thanks.     

The isozymic similarity of indoleacetic Acid oxidase to peroxidase in birch and horseradish

The relationship of indoleacetic acid oxidase activity to peroxidase activity is complicated by numerous multiple forms of this enzyme system. It is not known if all isozymes of this complex system contain both types of activity. Isozyme analysis of commercial horseradish peroxidase and leaf extracts of yellow birch (Betula alleghaniensis) by isoelectric focusing in polyacrylamide gels was used to examine this problem. Horseradish and birch exhibited 20 and 13 peroxidase isozymes, respectively, by staining with benzidine or scopoletin. Guaiacol was less sensitive. Indoleacetic acid oxidase staining (dimethylaminocinnamaldehyde) generally showed fewer bands, and left doubt as to the residence of both types of activity on all isozymes. Elution of the isozymes from the gels and wet assays verified that all peroxidase isozymes contained indoleacetic acid oxidase activity as well. Estimation of oxidase to peroxidase ratios for the major bands indicated small differences in this parameter. A unique isozyme for one or the other type of activity was not found.     

Total protein and isozyme characterization in the flax zygotic embryo during development

Flax zygotic embryogenesis was studied for isozyme patterns of acid phosphatase and esterase and for content of total proteins. For acid phosphatase, six multiple molecular forms or isozymes, were identified during flax zygotic embryo development. For esterase, six isozymes were expressed during zygotic flax embryogenesis. Some of the isozymes were expressed during entire embryogenesis, and some were only transiently expressed or appeared near maturation. The amount of total proteins was very low at early embryogenesis and proteins in a range from 26.6 kDa to 97.4 kDa were expressed. During further flax embryo development the protein spectra became more diverse and the quantity of total proteins increased. Proteins ranging from 3.4 kDa to 97.4 kDa were present, and proteins of 20 kDa to 36.5 kDa were expressed in the highest amount. The results are discussed with reference to selected information in the literature. Received: 16 October 2000 / Revision accepted: 20 April 2001     

Isozymes of bovine intestinal alkaline phosphatase

Alkaline phosphatases from calf and bovine small intestines have been isolated in homogeneous form from both mucosa and luminal contents. The detergent-solubilized calf enzyme resolves into two peaks of activity, C-1 and C-2, on chromatofocusing. Only one of these activity peaks is present in the enzyme from the adult animal. Amino acid compositions, N-terminal sequences, and tryptic peptide maps show that C-1 and C-2 are isozymes of differing primary structure and that the adult form of the enzyme is identical to C-2. The developmentally controlled expression of the two isozymes reported here suggests a molecular basis for the previous indications that functional changes in intestinal alkaline phosphatase occur with tissue maturation. The sugar composition of the carbohydrate chains of these isozymes has been determined and enzymatic deglycosylation with endo-beta-N-acetylglucosaminidase-F indicates two N-linked and one or more O-linked glycoconjugates/monomer.     

The Lipoxygenase Isozymes in Soybean [Glycine max (L.) Merr.] Leaves (Changes during Leaf Development,after Wounding,and following Reproductive Sink Removal)

The levels of individual lipoxygenase isozymes in soybean [Glycine max (L.) Merr.] leaves were assessed during leaf development, after mechanical wounding, and in response to reproductive sink removal. Native isoelectric focusing followed by immunoblotting was employed to examine individual lipoxygenase isozymes. In leaves of all ages, two distinct classes of lipoxygenase isozymes were detected. One class of lipoxygenase isozymes had nearly neutral isoelectric points (pls) ranging from pH 6.8 to 7.2. The other class of lipoxygenase isozymes had acidic pls ranging from pH 4.7 to 5.6. During leaf development, all of the neutral lipoxygenase isozymes and most of the acidic isozymes were present in greatest abundance in the youngest leaves examined and declined in amount as leaf age increased. However, four acidic lipoxygenase isozymes (pl = 4.70, 4.80, 4.90, 4.95) were more abundant in intermediateage leaves than in either the youngest or oldest leaves examined. Following mechanical wounding of leaves, these same four acidic isozymes also increased in abundance both locally and systemically in leaves from wounded plants. Unlike the specific effects of wounding on the lipoxygenase isozymes in leaves, reproductive sink removal stimulated a general increase in most of the acidic lipoxygenase isozymes in leaves.     

Electrophoretic analysis of the multiple forms of dextransucrase from Leuconostoc mesenteroides

Multiple forms of the extracellular dextransucrase [EC 2.4.1.5] from Leuconostoc mesenteroides NRRL B-512F strain were characterized by polyacrylamide gel electrophoresis. Based on the Rm (Relative mobility) values, a newly devised simple plot of log (Rm X 10/(1-Rm)) vs. degree of association of the enzyme showed a good correlation with the results obtained by the Hedrick-Smith method. Both results indicated that the B-512F dextransucrase aggregates were a mixture of two types of forms, i.e., oligomers of a 65 kDa protomer and their charge isomers. Boiling and treatment of the enzyme at pH 10.5 suggested that enzyme aggregates contained dextran or its fragments bound to the enzyme and the enzyme-dextran complex showed the charge isomerism. Since the highly aggregated forms showed higher activity for dextran synthesis than the dissociated forms, the endogenous dextran may serve as a source of primer and may stabilize the enzyme molecule. Besides allosteric regulation of the activity, the occurrence of oligomeric forms of the enzyme may play an important role in the control of dextran synthesis in vivo.     

Fetal gut mesenchyme induces differentiation of cultured intestinal endodermal and crypt cells

An experimental model was designed to analyze the effect of fetal gut mesenchyme on the cytodifferentiation of crypt cells and of embryonic progenitor cells. The cells used were the rat intestinal crypt cell line, IEC-17, and primary cell cultures prepared form isolated 14-day-old fetal intestinal endoderm (EC). Both cultures prepared from isolated 14-day-old fetal rat intestinal endoderm (EC). Both types of cells were associated with 14-day-old fetal rat gut mesenchyme (Rm) and grafted under the kidney capsule of adult rats. Seventy percent of the Rm/EC and ten percent of the Rm/IEC recombinants, recovered after 9 days, exhibited well-vascularized structures in which the mesenchyme had induced morphogenesis of the cells into a villus epithelium. The four main intestinal epithelial cell types, absorptive, goblet, endocrine, and Paneth cells, were identified using electron microscopy. Biochemical determinations of enzyme activities associated with brush border membranes revealed that alkaline phosphatase, lactase, sucrase, and maltase were expressed in both types of associations. These results were confirmed by immunofluorescence staining using monoclonal antibodies to brush border enzymes. Both enzyme assays and immunocytochemistry showed that the amount of enzymes present in the brush border membrane of Rm/IEC grafts was in general lower than that of the Rm/EC recombinants. The results indicate that fetal rat gut mesenchyme enables morphogenesis and cytodifferentiation of both crypt and embryonic progenitor cells.     

Report and characterization of a new variant, EB, of human red cell acid phosphatase.

A new variant phenotype of human red cell acid phosphatase, designated EB, was discovered in a male during a survey of blood donors from Copenhagen, Denmark. Electrophoretically, the variant revealed the two isozymes corresponding to the B type as well as two fast moving anodic isozymes. The enzyme activity and thermostability were found to be higher than in any earlier reported type. Isoelectric focusing of the variant type indicated that the isoelectric point of the variant enzyme is lower than in the common types.     

Isozymal differention between two species of Prosopis

The patterns of five multilocus isozyme systems were investigated in seed, shoot and cotyledon tissue of two species of mesquite, Prosopis glandulosa var. glandulosa and P. pallida. The isozymes of malate dehydrogenase, peroxidase, esterase, alcohol dehydrogenase and acid phosphatase from each of these tissues were analysed by starch gel electrophoresis and specific histochemical stains. In the case of each enzyme system examined, there were distinctly different isozymes which could be utilized to differentiate between these two species.     

Phosphodiesterase-phosphomonesterases from Fusarium moniliforme. Separation and properties of four isozymes.

Purified phosphodiesterase-phosphomonoesterase was found to be composed of four isozymes with different isoelectric points. These isozymes, phosphodiesterase-phosphomonoesterases 1-4, were separated from one another by repeated isoelectric focusing. Very little difference in amino acid composition, enzymic properties or circular dichroism spectra was detected among the isozymes. Far-ultraviolet circular dichroism spectra showed that the enzyme contained about 10% alpha-helix and 40% beta-structure. Phosphodiesterase-phosphomonesterase is a glycoprotein, because it was adsorbed on concanavalin A-Sepharose 4B and gave a band of carbohydrate coincident with that of protein or enzymic activity on polyacrylamide disc gel electrophoresis. Carbohydrate analyses revealed that the enzyme contained 37 micron of N-acetylglucosamine and 358 micron of mannose per mg of protein. The carbohydrate contents of the four isozymes were almost the same.     

Effect of gibberellic acid and salicylic acid on the activity and electrophoretic pattern of IAA-oxidase during floral induction inImpatiens balsamina

IAA-oxidase activity increased in the stem as well as in the leaves of plants treated with GA₃, SA and GA₃ + SA during the early stages under inductive and non-inductive photoperiods, the activity being the highest in GA₃ + SA-treated plants. An isoenzyme of IAA-oxidase with Rm 0.15 developed in the stem as well as in the leaves subsequent to 1 or 2 inductive treatments. As this band persisted till the end of the experiment, it may be associated with the initiation as well as development of floral buds. Another band (Rm 0.30) appears to be associated with the phenol (SA) as it developed in the stem as well as in the leaves of SA- and GA₃ + SA-treated plants under both photoperiods. A band with Rm 0.60 developed in the leaves but not in the stem of GA₃-, SA- and GA₃ + SA-treated plants under both photoperiods.