Broad-specificity quinate (shikimate) dehydrogenasefrom Pinus taeda needles

Two proteins having quinate dehydrogenase (QDH, quinate:NAD(P)⁺-oxidoreductase, EC 1.1.1.24) and shikimate dehydrogenase (SDH, shikimate:NADP⁺-oxidoreductase, EC 1.1.1.25) activities were purified about 3 000-fold from young loblolly pine (Pinus taeda L.) needles. A combination of ammonium sulfate solubilization, and chromatographies on DEAE-cellulose, 2′, 5′ ADP-Sepharose and Mono-Q was used. Throughout all purification steps, the QDH activity consistently co-purified with the activity of the first of three forms of SDH, and the ratio of QDH/SDH was constant (variation from 1.63 to 1.89). These data indicate that both QDH and SDH activities are catalyzed by a single broad-specificity quinate (shikimate) dehydrogenase. Gel chromatography on Superdex 75 was used to estimate the native molecular mass of two forms of the enzyme as 35 and 53 kDa.     

Purification and characterisation of the cardenolide-specificβ-glucohydrolase CGH II from Digitalis lanata leaves

A cardenolide-hydrolysing β-D-glucosidase was isolated from young leaves of Digitalis lanata. Since this enzyme differs from the cardenolide glucohydrolase (CGH) described and characterised previously, it was termed cardenolide glucohydrolase II (CGH II). CGH II was detected in various Digitalis tissue cultures as well as in young leaves of D. lanata. The latter source was used as the starting material for the isolation and purification of CGH II. The specific enzyme activity reached about 15 pkat·mg^–1 protein in buffered leaf extracts. Optimal CGH II activity was seen at around pH 6.0 and 50 °C. CGH II was purified about 600-fold by anion exchange chromatography, size exclusion chromatography and hydroxyapatite chromatography. The apparent molecular mass of CGH II was 65 kDa as determined by SDS-PAGE. CGH II exhibited a high substrate specificity towards cardenolide disaccharides, especially to those with a 1-4-β-linked glucose-digitoxose moiety such as glucoevatromonoside. The K_m- and V_max-values for this particular substrate were calculated to be 101 μM and 19.8 nkat·mg^–1 protein, respectively.     

Regulation of loblolly pine (Pinus taeda L.) arginase in developing seedling tissue during germination and post-germinative growth

After seed germination, hydrolysis of storage proteins provides a nitrogen source for the developing seedling. In conifers the majority of these reserves are located in the living haploid megagametophyte tissue. In the developing loblolly pine (Pinus taeda L.) seedling an influx of free amino acids from the megagametophyte accompanies germination and early seedling growth. The major component of this amino acid pool is arginine, which is transported rapidly and efficiently to the seedling without prior conversion. This arginine accounts for nearly half of the total nitrogen entering the cotyledons and is likely a defining factor in early seedling nitrogen metabolism. In the seedling, the enzyme arginase is responsible for liberating nitrogen, in the form of ornithine and urea, from free arginine supplied by the megagametophyte. In this report we investigate how the seedling uses arginase to cope with the large arginine influx. As part of this work we have cloned an arginase cDNA from a loblolly pine expression library. Analysis of enzyme activity data, accumulation of arginase protein and mRNA abundance indicates that increased arginase activity after seed germination is due to de novo synthesis of the enzyme. Our results suggest that arginase is primarily regulated at the RNA level during loblolly pine seed germination and post-germinative growth.     

2-Hydroxyacid dehydrogenase from Haloferax mediterranei, a D-isomer-specific member of the 2-hydroxyacid dehydrogenase family

An NAD-dependent D-2-hydroxyacid dehydrogenase (EC 1.1.1.) was isolated and characterized from the halophilic Archaeon Haloferax mediterranei. The enzyme is a dimer with a molecular mass of 101.4 ± 3.3 kDa. It is strictly NAD-dependent and exhibits its highest activity in 4 M NaCl. The enzyme is characterized by a broad substrate specificity 2-ketoisocaproate and 2-ketobutyrate being the substrates with the higher V_max/K_m. When pyruvate and 2-ketobutyrate were the substrates the optimal pH was acidic (pH 5) meanwhile for 2-ketoisocaproate maximum activity was achieved at basic pH between 7.5 and 8.5. The optimum temperature was 52 ºC and at 65 ºC there was a pronounced activity decrease. This new enzyme can be used for the production of D-2-hydroxycarboxylic acid.     

Characterization of natural rubber biosynthesisin Ficus benghalensis

Natural rubber was identified for the first time in the latex of Ficus benghalensis, and the rubber biosynthetic activity in latex and rubber particles was investigated. ¹³C NMR analysis of samples prepared by successive extractions with acetone and benzene confirmed that the benzene-soluble residues were natural rubber, cis-1,4-polyisoprene. The rubber content in the latex of F. benghalensis was approximately 17 %. Gel permeation chromatography revealed that the molecular mass of the natural rubber from F. benghalensis was approximately 1 500 kDa. The high rubber content and large molecular size suggest that F. benghalensis is a good candidate for an alternative rubber source. Examination of latex serum from F. benghalensis by SDS-polyacrylamide gel electrophoresis revealed a small number of proteins with major proteins of 31 and 55 kDa in size. The 31-kDa protein was predominant in catalytically-active rubber particles. Determination of metal ion concentration in latex and a comparison of the effect of ethylenediamine-tetraacetic acid on in vitro rubber biosynthesis in F. benghalensis, F. carica and Hevea brasiliensis suggest that the divalent metal ion present in latex serum is an important physiological factor controlling the rubber biosynthetic activities in these plant species. Microscopic examination revealed that the rubber in F. benghalensis occurred in a series of laticifer cells located in concentric zones in the inner bark of stems and branches.     

Storage reserve mobilization during low temperature germination and early seedling growth in Brassica napus

In western Canada, oilseed rape (Brassica napus L. var. oleifera cv. Westar) is seeded during the early months of spring, when ambient temperatures are well below the optimum. This can result in poor seedling emergence. The objectives of the present study were to determine which developmental stages are sensitive to low temperature and whether the effects are thermal or developmental in nature. Seed was germinated at 22, 10 and 6 °C. Fresh weight changes and seedling growth were assessed on the basis of equal accumulated heat units, and the mobilization of storage reserves was assessed by employing antibodies against isocitrate lyase (ICL; EC 4.1.3.1), oleosin and cruciferin. Additionally, de novo protein synthesis was determined by quantifying the incorporation of methionine via in vivo labelling. Low temperature resulted in poor germination and early seedling growth with phase II of germination being most sensitive. At 10 °C, there was a temporal delay in germination that did not affect the overall success of germination. This was a thermal effect as seed at the lower temperatures required the equivalent of 16–24 degree days before germination occurred. Also, seedling growth at 10 °C was lower in comparison to seedlings grown at 22 °C. Seed at 6 °C displayed slow and incomplete germination and poor seedling growth as a result of both thermal and developmental effects.     

Cysteinyl-tRNA synthetase from Saccharomyces cerevisiae. Purification, characterization and assignment to the genomic sequence YNL247w

Cysteinyl-tRNA synthetase (CRS) from Saccharomyces cerevisiae was purified 2300-fold with a yield of 33%, to high-specific activity (k_cal4.3 s⁻¹ at 25°C for the aminoacylation of yeast tRNA^Cys). SDS-PAGE revealed a single polypeptide corresponding to a molecular mass of 86 kDa. Polyclonal antibodies to the purified protein inactivated CRS activity and detected only one polypeptide of 86 kDa, the native extract subjected to SDS-PAGE followed by immunoblotting. In contrast to bacterial CRS which is a monomer of about 50 kDa, the native yeast enzyme behaved as a dimer, as assessed by gel filtration and cross-linking. Its subunit molecular mass is in good agreement with the value of 87.5 kDa calculated for the protein encoded by the yeast genomic sequence YNL247w. The latter was previously tentatively assigned to CRS, based on limited sequence similarities to the corresponding enzyme from other sources. Determination of the amino acid sequence of internal polypeptides derived from the purified yeast enzyme confirmed this assignment. Alignment of the primary sequences of prokaryotic and yeast CRS reveals that the larger size of the latter is accounted for mostly by several insertions within the sequence.     

Seed dispersal, plant recruitment and spatial distribution of Bactris acanthocarpa Martius (Arecaceae) in a remnant of Atlantic forest in northeast Brazil

Seed dispersal ecology of Bactris acanthocarpa Mart. (Arecaceae), an Atlantic forest understory palm, was investigated during two years as an attempt to test the following predictions: (i) seeds of Bactris are dispersed by mammals and large-gaped birds; (ii) Bactris benefits from seed dispersal in terms of seed predation avoidance, improvement of seed germination and seedling survival; and (iii) spatial distribution of adults is related to patterns of seed dispersal. The study was conducted at Dois Irmãos Reserve, a 387.4-ha reserve of Atlantic forest in northeastern Brazil (8º S–35º W). Black–rumped agoutis (Dasyprocta prymnolopha) and Guianan squirrels (Sciurus aestuans) were identified as the seed dispersers/predators, moving seeds short distances (< 4 m from parents) and at low rates (0.04-0.05 diaspore/palm/day). Pyrene burial prevented seed predation by vertebrates and reduced by half seed infestation by Scolytidae beetles. Only buried pyrenes germinated. Pyrene predation was not correlated with distance from conspecific adults. In contrast, early seedling mortality was higher near conspecific adults. Most adults (64%) had their nearest conspecific adult neighbour > 4 m away in contrast to 96% of seedlings that occurred concentrated within 4 m from adults (77% under the palm crowns). Here, we present evidence that spatial distribution of B. acanthocarpa is partly due to low rates of seed removal, short-distance seed dispersal by agoutis and squirrels, and early seedling mortality associated with presence of seedlings under palm crowns.     

Ectomycorrhizal responses to organic and inorganic nitrogen sources when associating with two host species

While it is established that increasing atmospheric inorganic nitrogen (N) deposition reduces ectomycorrhizal fungal biomass and shifts the relative abundances of fungal species, little is known about effects of organic N deposition. The effects of organic and inorganic N deposition on ectomycorrhizal fungi may differ because responses to inorganic N deposition may reflect C-limitation. To compare the effects of organic and inorganic N additions on ectomycorrhizal fungi, and to assess whether host species may influence the response of ectomycorrhizal fungi to N additions, we conducted an N addition experiment at a field site in the New Jersey pine barrens. Seedlings of two host species, Quercus velutina (black oak) and Pinus rigida (pitch pine), were planted at the base of randomly-selected mature pitch pine trees. Nitrogen was added as glutamic acid, ammonium, or nitrate at a rate equivalent to 227.5 kg ha⁻¹ y⁻¹ for eight weeks, to achieve a total application of 35 kg ha⁻¹ during the 10-week study period. Organic and inorganic N additions differed in their effects on total ectomycorrhizal root tip abundance across hosts, and these effects differed for individual morphotypes between oak and pine seedlings. Mycorrhizal root tip abundance across hosts was 90 % higher on seedlings receiving organic N compared to seedlings in the control treatment, while abundances were similar among seedlings receiving the inorganic N treatments and seedlings in the control. On oak, 33–83 % of the most-common morphotypes exhibited increased root tip abundances in response to the three forms of N, relative to the control. On pine, 33–66 % of the most-common morphotypes exhibited decreased root tip abundance in response to inorganic N, while responses to organic N were mixed. Plant chemistry and regression analyses suggested that, on oak seedlings, mycorrhizal colonization increased in response to N limitation. In contrast, pine root and shoot N and C contents did not vary in response to any form of N added, and mycorrhizal root tip abundance was not associated with seedling N or C status, indicating that pine received sufficient N. These results suggest that in situ organic and inorganic N additions differentially affect ectomycorrhizal root tip abundance and that ectomycorrhizal fungal responses to N addition may be mediated by host tree species.     

Purification and biochemical characterization of a superoxide dismutase from the soluble fraction of the cyanobacterium, <Emphasis Type="Italic">Spirulina platensis</Emphasis>

A superoxide dismutase (SOD) was purified from Spirulina platensis sonicate. The SOD was purified to homogeneity (48-fold and 0.24% yield) through ammonium sulphate precipitation and DEAE-52 anion exchange chromatography. The SOD from S. platensis appeared to be a homodimer with a molecular weight of 30 kDa and a subunit MW of 15 kDa as determined by both native polyacrylamide gel electrophoresis and mass spectrometry. The enzyme activity was stable at pH 6.5–10.0 and 50 °C. Using group-specific chemical modifying reagents, the amino acids arginine, histidine, tryptophan, tyrosine and aspartic acid were identified to be essential for S. platensis SOD activity. The amino acid composition was found to lack methionine and cysteine. The inhibition of activity by H₂O₂ suggests that the enzyme may be an iron containing SOD.     

Glycan-binding profile of a D-galactose binding lectin purified from the annelid, Perinereis nuntia ver. vallata

A lectin recognizing D-galactose was purified from the pacific annelid Perinereis nuntia ver. vallata (Polychaeta) by affinity chromatography. Hemagglutinating activity, with a very low titer suggesting the presence of lectin appeared in the supernatant from the homogenization of body with Tris-buffered saline. However, dialyzed supernatant from the precipitate homogenized by galactose in the buffer revealed strong hemagglutinating activity against human erythrocytes. The crude supernatant was applied onto lactosyl–agarose column, and only the supernatant eluted from precipitate with galactose was obtained a galactose-binding lectin with 32 kDa polypeptide was obtained from the supernatant of the precipitate, extracted in presence of galactose. It suggests that the lectin tightly binds with glycoconjugate as endogenous ligand(s) in the tissue. Hemagglutinating activity against trypsinized and glutaraldehyde-fixed human erythrocytes was specifically inhibited by D-galactose, N-acetyl-D-galactosamine, lactose, melibiose, and asialofetuin. Glycan-binding profile of the lectin analyzed by frontal affinity chromatography shows that the lectin recognizes branched complex type N-linked oligosaccharides and both type 1 (Galβ1-3GlcNAc) and type 2 (Galβ1-4GlcNAc) lactosamine. The surface plasmon resonance study of the lectin against asialofetuin showed the k_ass and k_diss values are 5.14 × 10⁴ M^− 1 s^− 1 and 2.9 × 10⁻³ s^− 1, respectively. The partial primary structure of the lectin reveals 182 amino acids with novel sequence.     

Regulation of cytosolic carbon metabolism in germinating Ricinus communis cotyledons

The cytosolic pyruvate kinase (PK_C, EC 2.7.1.40) and phosphoenolpyruvate carboxylase (PEP-Case, EC 4.1.1.31) from cotyledons of 6-d-old castor seedlings (Ricinus communis L.) have been partially purified and characterized. PK_C was purified 370-fold to a specific activity of 20 mol · min ¹·(mg protein)^–1, and was shown to exist as a 237-kDa homotetramer. In addition, PK_C displayed hyperbolic substrate saturation kinetics and demonstrated pH-dependent modulation by several metabolite effectors including glutamine, glutamate, arginine, malate and 2-oxoglutarate. Most were inhibitors at pH 6.9, while activation by glutamine, asparagine and arginine and only weak inhibition for the rest were observed at pH 7.5. PEPCase was purified 33-fold to a final specific activity of 1 mol · min^–1 · (mg protein)^–1. The subunit and native M_r for the enzyme were shown to be 100 and 367 kDa, respectively, suggesting a homotetrameric native structure. PEPCase displayed a typical pH activity profile with an alkaline optimum and activity decreasing rapidly below pH 7.0. The enzyme was potently inhibited by malate, isocitrate, aspartate and glutamate at pH 7.0, whereas inhibition by these compounds was considerably diminished at pH 7.5. A model depicting the regulation of glycolytic carbon flow during amino-acid and sucrose import by castor cotyledons is proposed.Abbreviations IgG immunoglobulin G - I₅₀a inhibitor concentration producing 50 inhibition of enzyme activity - PK_C and PK_pa cytosolic and plastidic isoenzymes of pyruvate kinase, respectively - PEP phosphoenolpyruvate - PEPCase phosphoenolpyruvate carboxylase - 3-PGA 3-phosphoglycerate This work was supported by the Natural Sciences and Engineering Research Council of Canada (NSERC).     

An Arginine Specific Protease from Spirulina platensis

An arginine specific protease, Sp-protease, was purified by column chromatography from freeze-dried Spirulina platensis using a five-step process. Purified Sp-protease has a molecular weight of 80 kDa. It hydrolyzed the synthetic substrates containing arginine residue in the P1 position but did not hydrolyze synthetic substrates containing other amino acid residues, including lysine residue in the P1 position. Among the synthetic substrates tested, a substrate of plasminogen activator (Pyr-Gly-Arg-MCA) was hydrolyzed most effectively with the enzyme (K_m = 5.5 × 10⁻⁶ M), and fibrin gel was solubilized via activation of intrinsic plasminogen to plasmin with the enzyme. Activity was inhibited completely with camostat mesilate (K_i = 1.1 × 10⁻⁸ M) and leupeptin (K_i = 3.9 × 10⁻⁸ M) but was not inhibited with N^α-tosyl-L-lysine chloromethyl ketone (TLCK). The optimum pH of the enzyme has a range of pH 9.0 to pH 11.0. The optimum temperature was 50°C; the enzyme was stable at 0–50°C.     

Biochemical characterisation of extracellular phytase (myo-inositol hexakisphosphate phosphohydrolase) from a hyper-producing strain of Aspergillus niger van Teighem

Aspergillus niger van Teighem, isolated in our laboratory from samples of rotten wood logs, produced extracellular phytase having a high specific activity of 22,592 units (mg protein)^–1 . The enzyme was purified to near homogeneity using ion-exchange and gel-filtration chromatography. The molecular properties of the purified enzyme suggested the native phytase to be oligomeric, with a molecular weight of 353 kDa, the monomer being 66 kDa. The purified enzyme exhibited maximum activity at pH 2.5 and 52–55°C. The enzyme retained 97% activity after a 24-h incubation at 55°C in the presence of 10 mM glycine, while 87% activity was retained when no thermoprotectant was added. Phytase activity was not affected by most metal ions, inhibitors and organic solvents. Non-ionic and cationic detergents (0.1–5%) stabilise the enzyme, while the anionic detergent (SDS), even at a 0.1% level, severely inhibited enzyme activity. The chaotropic agents guanidinium hydrochloride, urea, and potassium iodide (0.5–8 M), significantly affected phytase activity. The maximum hydrolysis rate (V_max) and apparent Michaelis-Menten constant (K_m) were 1,074 IU/mL and 606 M, respectively, with a catalytic turnover number of 3×10⁵ s^–1 and catalytic efficiency of 3.69×10⁸ M^–1 s^–1.     

Molecular cloning and characterization of Mn-superoxide dismutase from disk abalone (Haliotis discus discus)

The mitochondrial enzyme manganese superoxide dismutase (mitMn-SOD) is one of the antioxidant enzymes involved in cellular defense against oxidative stress and catalyzes the conversion of O₂⁻ into the stabler H₂O₂. In this study, a putative gene encoding Mn-SOD from disk abalone (Haliotis discus discus, aMn-SOD) was cloned, sequenced, expressed in Escherichia coli K12(TB1) and the protein was purified using pMAL protein purification system. Sequencing resulted ORF of 681 bp, which corresponded to 226 amino acids. The protein was expressed in soluble form with molecular weight of 68 kDa including maltose binding protein and pI value of 6.5. The fusion protein had 2781 U/mg activity. The optimum temperature of the enzyme was 37 °C and it was active in a range of acidic pH (from 3.5 to 6.5). The enzyme activity was reduced to 50% at 50 °C and completely heat inactivated at 80 °C. The alignment of aMn-SOD amino acid sequence with Mn-SODs available in NCBI revealed that the enzyme is conserved among animals with higher than 30% identity. In comparison with human mitMn-SOD, all manganese-binding sites are also conserved in aMn-SOD (H28, H100, D185 and H189). aMn-SOD amino acid sequence was closer to that of Biomphalaria glabrata in phylogenetic analysis.     

L-asparaginase of Tetrahymena pyriformis is associated with a kinase activity

Most of L-asparaginase activity of Tetrahymena pyriformis was found to be present in microsomal membranes from which it has been purified to homogeneity (Tsirka, S.A.E. and Kyriakidis, D.A. Mol. Cell. Biochem. 83: 147–155, 1988). The native enzyme has a relative molecular weight of approximately 200 kDa, while under denaturing conditions the enzyme exhibits. a subunit size of 39 kDa. Aminoacid analysis and an oligopeptide from N-terminal sequence have been determined. Dephosphorylation of L-asparaginase by alkaline phosphatase results in an activation of its catalytic activity. This enzyme also exhibits intrinsic phosphorylation activity with a Km value for ATP of 0.5 mM. Autophosphorylation with -^32P ATP of purified L-asparaginase results in the phosphorylation of tyrosine residues as well as in loss of its activity. Mg²⁺ and Ca²⁺ added together act synergistically to stimulate the kinase activity by more than 160%. The polyamines putrescine, spermidine and spermine activate the kinase approximately 100%, while neither cAMP or cGMP have any effect. These results indicate that this membrane protein with dual L-asparaginase/kinase activity must play an important role in regulating the intracellular levels of L-asparagine in Tetrahymena pyriformis.     

Innate immune response and disease resistance in Carassius auratus by triherbal solvent extracts

This study reports the effect of aqueous, ethanol and methanol triherbal solvent extract from Azadirachta indica, Ocimum sanctum and Curcuma longa on innate immune mechanisms such as phagocytosis activity, respiratory burst activity, alternative complement activity and lysozyme activity and disease resistance in goldfish (Carassius auratus) against Aeromonas hydrophila. Fish were intraperitoneally injected with different doses of 0, 5, 50 and 100 mg kg⁻¹ body weight of each triherbal solvent extracts. The functional immunity in terms of percentage mortality and Relative Percent Survival (RPS) and innate immune response was assessed on week 1, 2 and 4 by challenging with live A. hydrophila (1 × 10⁷ cells ml⁻¹). All the chosen innate immune parameters were enhanced in the ethanol and methanol triherbal solvent extract treatment after week 2. However, the aqueous triherbal extract was enhanced only after week 4. The ethanol and methanol triherbal solvent extracts administration preceding the challenge with live A. hydrophila decreased the percentage mortality in the experimental groups with the consequence increase in RPS values. The study indicates that all the doses of ethanol or methanol triberbal solvent extracts could be positively influence the immune response and protect the heath status of goldfish against A. hydrophila infection.     

Purification and some properties of a carboxypeptidase B from dogfish Scyliorhinus canicula

A carboxypeptidase B (CPB) has been purified from dogfish (Scyliorhinus canicula) pancreas and partially characterized. The purification procedure included acetone precipitation, ion-exchange chromatography on a CM-cellulose column and gel filtration on Sephadex G-75. The purified enzyme migrates as a single band both on PAGE and SDS-PAGE. Its molecular mass is estimated to be about 32 kDa. The optimum of activity is obtained at pH 7.5–8.2. The enzyme is inhibited by typical metal-chelating agents (EDTA and o-phenanthroline) and by Hg²⁺. It is activated by Co²⁺, l-cysteine and by heat treatment at 40° and 50°C. Kinetic parameters, K_m and k_cat, of native enzyme, Co²⁺-activated CPB and heat-treated CPB have been determined     

Purification and characterization of chitinase from Alcaligenes xylosoxydans

Extracellular chitinase from Alcaligenes xylosoxydans was purified to electrophoretic homogeneity using affinity and gel filtration chromatography. The molecularmass of chitinase was estimated to be 45 kDa and44 kDa by SDS-PAGE and gel-filtration, respectively. The enzyme was optimally active at 50 °C (over 30 min) and pH 5. Activity staining after PAGE showed a single band. The Km for chitin was 3 g l^–1. Cu²⁺ and Na⁺ at 5 mM inhibited chitinase activity to 25% while Ca²⁺, Mg²⁺ and Ba²⁺ had no effect at the same concentration. The purified enzyme degraded mycelia of Aspergillus niger.     

Purification and properties of the NADP-dependent glutamate dehydrogenase from Dictyostelium discoideum

Summary NADP-dependent glutamate dehydrogenase from Dictyostelium discoideum was purified 9300 fold with a yield of 4.6%. The enzyme is a hexamer of apparent molecular weight 294 kDa on Sephacryl S400 and a subunit molecular weight of 52 kDa as determined by SDS gel electrophoresis. The apparent K_mS for -ketoglutarate, NADPH and NH _inf4 ^sup+ are 1.2 mM, 9.7 µM and 2.2 mM respectively, and the purified enzyme has a broad pH optimum with a peak at pH 7.75. GTP has a slight stimulatory effect (22% at 83 µM) as does ADP (11% at 1 mM), and AMP is slightly inhibitory (9% at 1 mM) whereas adenosine, ATP and cAMP have little or no effect. Neither the Zn²⁺ chelating compound 1,10-phenanthroline nor EDTA have any effect on the enzyme while p-hydroxymercuribenzoic acid inhibits enzyme activity (50% at 80 µM) yet N-ethylmaleimide does not.In addition, the NADP-GDH activity varies little during the various stages of morphogenesis.Abbreviations EDTA Ethylenediamine Tetraacetic Acid - Tris Tris(hydroxymethyl)aminomethane - Bis-tris bis(2-hydroxyethyl)imino-tris(hydroxymethyl)methane - TRITON X-100 iso-octylphenoxypoly-ethoxyethanol - pHMB p-Hydroxymercuribenzoic acid