Evolution of acid phosphatase-1 in the genus drosophila as estimated by subunit hybridization. Interspecific tests

Summary The dimeric enzyme, acid phosphatase-1, was partially purified from eleven species of the genus Drosophila. Dissociated subunits were mixed and allowed to reassociate in forty-one interspecific combinations. In each so-called quantitative subunit hybridization test, the relative activities of the heterospecific and the two homospecific enzymes were determined by densitometry. In 34 of the 41 tests significant differences between observed and expected homospecific: heterospecific enzyme activity ratios were detected. The differences ranged from a four-fold excess of the heterospecific enzyme to over a six-fold excess of the homospecific enzymes. In order to measure the enzyme activities on a protein basis, fifteen heterospecific enzymes were purified and used as antigens in CRM tests. The antisera were diluted such that only the homologous subunit in the heterospecific enzyme complexed the acid phosphatase antibodies. The results from each CRM test show that the heterospecific enzymes is only one-half as antigenic as the homologous homospecific enzyme, when the two are adjusted to equal catalytic activities. Thus, the differences between observed and expected levels of acid phosphatase activity measured by the quantative subunit hybridization technique apparently reflect differences in the relative amounts of protein which form during subunit reassociation. The technique, then, appears to detect differences in acid phosphatase subunit affinities.The data either taken directly from the 41 interspecific tests or in terms of the average difference between each two species in third species tests were used to construct phenograms. The species relationships depicted in both phenograms were very different from their actual phylogenetic relationships. This method, then, is not useful as an evolutionary metric. The differences between observed and expected heterospecific:homospecific enzyme ratios may be due to a relatively large number of amino acid substitutions if acid phosphatase subunits pair isologously.     

Naturally occurring quantitative variants of acid phosphatase-1 in Drosophila melanogaster

We have examined 111 wild Drosophila melanogaster lines for cis-acting quantitative variants of the Acph-1 gene, which codes for acid phosphatase-1 (ACPH). Three variants with obvious, reproducible phenotypes were isolated. All variants acted equally on all tissues and developmental stages examined. No recombinants were detected between one quantitative variant and the site determining the electrophoretic mobility of Acph-1 among 3885 flies examined. Several enzymatic properties of the variant enzymes were tested, including the K _m values for two substrates, inhibition by three different inhibitors, and thermal stability; the variant enzymes behaved identically to the wild-type enzyme in all cases. Immunological titration experiments showed that the variant enzymes had the same enzyme activity per molecule of ACPH as the wild-type enzyme. These results suggest that the quantitative variants we have identified are altered in the regulatory portion of Acph-1 so as to produce altered numbers of normal ACPH molecules.This work was supported by NIH Grant 21548. MAJ was supported by NIH Predoctoral Training Grant GM07413.     

Developmental modification and hybridization of allelic acid phosphatase isozymes in homo- and heterozygotes for the Acp-1 locus in rice

A number of alleles each specified a set of three major and three minor bands of acid phosphatase (E.C. 3.1.3.2) in wild and cultivated rice strains. Relative intensity of the major bands was found to differ significantly according to the developmental stages of the leaves, suggesting the presence of protein modification genes. In heterozygotes, six parental and three hybrid major bands were clearly observed in most of the heterozygotes, but the intensities of the hybrid bands were found to be generally lower than those theoretically expected due to random association of enzyme subunits. The cause of this phenomenon is discussed.Contribution No. 1342 from the National Institute of Genetics.     

Immunological studies on the interaction of polyadenylic acid and human liver ribonuclease

The effect of polyadenylic acid, a potent inhibitor of mammalian and bacterial RNAses, on the binding of human liver RNAse to its antibody was studied. To do this, a human liver RNAse antibody was immobilized on Sepharose 4B. Examination of the ability of the enzyme to bind to the immobilized anti-RNAse in the presence or absence of polyadenylic acid indicated that enzyme-antibody binding was more sensitive to the presence of polyadenylic acid than was enzyme activity. Furthermore, the effect of polyadenylic acid on enzyme-antibody binding was specific since neither polycytidylic acid nor polyuridylic acid had much effect on the antigenicity of the enzyme. The metal cation, Mg2+, and the polyamine, spermidine, but not putrescine, readily reversed the effects of polyadenylic acid on enzyme-antibody binding.     

Isozyme variability in species of the genus Drosophila. VIII. The alcohol dehydrogenase polymorphism in north carolina populations of D. melanogaster

Adult Drosophila melanogaster flies collected from populations broadly dispersed over ecological and geographic strata of North Carolina, and over a period of 4 years, were analyzed for alcohol dehydrogenase phenotypes by gel electrophoresis. Gene frequencies in spring-summer-fall field collections were remarkably stable over all strata. Two winter collections exhibited contrasting gene frequency changes. In one case the results are interpreted in terms of long-distance migration from Florida, while the other is explicable by assignment of a causal role to environmental factors which accompany the winter season.This investigation was supported in part by NIH Research Grant No. GM11546 from the National Institute of General Medical Sciences and by Contract No. AT-(40-1)-3980 from the United States Atomic Energy Commission.Paper No. 4719 of the Journal Series of the North Carolina Agricultural Experiment Station, Raleigh, North Carolina 27609.     

Comparison of purified acid phosphatase allozymes inDrosophila virilis: Differences in carbohydrate content and composition of the allozymes

Three acid phosphatase (EC 3.1.3.2) allozymes (ACPH¹, ACPH², and ACPH⁴) ofDrosophila virilis show different activities as measured by electrophoretic techniques. Recently, it was suggested that these differences are attributable to the variable ability of the allozymes to be incorporated into lysosomes (Narise, S.,Genet. Res. Cambr., 45:143, 1985). Immunoelectrophoresis demonstrated that the activity differences between these electrophoretic variants coincided with differences in the amount of the enzyme protein in soluble fractions but not in whole cell-free extracts. These results support the idea that acid phosphatase allozymes inD. virilis are cell-localization variants. We examined the problem by structural analysis of both the protein and the carbohydrate moieties of these allozyme glycoproteins, since lysosomal enzymes are known to become localized in lysosomes through their carbohydrate moieties. The three ACPH allozymes were purified to homogeneity from their respective homozygotes and compared with respect to amino acid composition and carbohydrate content and composition. Amino acid compositions were similar, while content and compositions of neutral sugars were significantly different. The neutral sugar content of ACPH¹ was 9.2%; that of ACPH², 21.0%; and that of ACPH⁴, 7.3%. A trace of hexosamines, but noN-acetylneuraminic acid, was found in the ACPH allozymes. Isoelectric points varied corresponding to their electrophoretic mobilities, which were not changed by treatment with alkaline phosphatase and neuraminidase.     

Preliminary studies on the toxicity and mutagenicity of 1-amino-2-naphthol-4-sulphonic acid inDrosophila melanogaster

The toxicity and mutagenicity of 1-amino-2-naphtho-4-sulphonic acid were analysed inDrosphila melanogaster. Rate of development and viability were the two parameters employed to study the toxicity. The frequency of dominant lethals was scored to evaluate the mutagenic effect of the chemical on male and female germ cells. Concentrations of 250 mg and above/100 ml wheat cream agar medium were found to be significantly toxic. Significant number of dominant lethals was induced even by a concentration as low as 50 mg/100 ml medium. Male germ cells were more sensitive than female germ cells.     

Capillary electrophoresis of herbicides. III. Evaluation of octylmaltopyranoside chiral surfactant in the enantiomeric separation of phenoxy acid herbicides

A chiral alkylglucoside surfactant, namely n-octyl-β-D-maltopyranoside (OM), was evaluated in the enantiomeric separation of phenoxy acid herbicides. The enantiomeric resolution of the phenoxy acid herbicides could be manipulated readily by adjusting the surfactant concentration, ionic strength, pH, the percent organic modifier and separation temperature. The optimum surfactant concentration needed for maximum enantiomeric resolution varied among the different analytes, and was an inverse function of the hydrophobicity of the phenoxy acid herbicides with the most hydrophobic solute requiring less surfactant concentration for attaining a baseline enantiomeric resolution. Due to the ionic nature of the phenoxy acid herbicides, increasing the pH of the running electrolyte increased the degree of ionization of the acidic herbicides thus decreasing their association with the chiral micelles and in turn their enantiomeric resolution. Increasing the ionic strength of the running electrolyte seems to enhance both the solubilization of the solute in the micelle and the chiral interaction of the solute with the micelle with a net increase in enantiomeric resolution. The percent of added methanol had a varying effect on the resolution of the various enantiomers in the sense that it enhanced the enantiomeric resolution for the most hydrophobic solutes while it decreased the enantiomeric resolution for the weakly hydrophobic ones. Thermostating the capillary column at subambient temperature improved enantiomeric resolution. © 1996 Wiley-Liss, Inc.     

Study on the reaction of 2,3-dihydroxybenzoic acid with molybdenum in aqueous solution. I. Synthesis and characterization of the oligomeric complexes formed

Dimeric or oligomeric oxo-complexes of Mo(VI) with 2,3-dihydroxybenzoic acid were prepared in aqueous solutions in the presence or not of K₂S₂O₅ (acting as a reducing agent) in various conditions. The complexes were found to contain the cis-(Mo₂O₅)²⁺ core and the ligands in the catecholate, semiquinonate or mixed valence oxidation form, depending on the reaction conditions and especially on the presence or not of the reductant. The isolated complexes in the presence or absence of reductant and the oxidation products in solution in the presence of air were studied via elemental, thermogravimetric and electrochemical analysis, Infrared, Raman, NMR and ESR spectroscopies and Electrospray Mass Spectra. The general molecular formula for the complexes is {[(PPh₄)₂(Mo₂O₅L₂X₂] · xH₂O)}_n, where the coordinated ligand’s L oxidation form varies and X involves coordinated water or hydroxyl group depending on the ligand oxidation state.     

Sites of acid phosphatase in the differentiating root protophloem of Nymphoides peltata (S.G. Gmel.) O. Kuntze.

Abstract Sites of acid-phosphatase activity were found in the differentiating root protophloem of Nymphoides peltata by lead-salt and by azo-dye methods. Different substrates revealed different subcellular locations of the enzyme. The substrates β-glycerophosphate (β-GP) and naphthol ASBI phosphate revealed enzyme activity at similar sites within the sieve element. These sites included plasmodesmata, dictyosomes and small vacuoles in the cytoplasm. The substrate p-nitrophenylphosphate (p-NPP), however, revealed additional sites of acid-phosphatase activity which were not detectable by either naphthol ASBI phosphate or β-GP. For example, the inner region of the wall in mature sieve elements showed conspicuous acid-phosphatase activity only when p-NPP was used as substrate. The significance of the different locations of acid phosphatase within the sieve element is discussed. The convoluted ER, characteristic of immature sieve elements of N. peltata, failed to show acid-phosphatase activity whichever substate was used. By contrast, the stacked ER found in the parietal layer of mature sieve elements showed prominent acid-phosphatase activity regardless of the substrate used. The demonstration of acid-phosphatase activity in the stacked ER, and by both lead-salt and azo-dye methods, suggests that this organelle is a true site of acid-phosphatase activity. The onset of acid-phosphatase activity in the ER in later stages of sieve-element differentiation is compatible with the view that stacked ER plays a role in the final autolysis of the sieve-element protoplast.     

Ecophysiological studies on orchids of Madagascar: incidence and plasticity of crassulacean acid metabolism in species of the genus Angraecum Bory

The present study is an investigation on photosynthetic options in an orchid taxon and deals with the mainly epiphytes comprising genus Angraecum Bory. The incidence of crassulacean acid metabolism (CAM) in Angraecum species collected at various habitats in Madagascar was surveyed by analysis of stable carbon isotope composition (¹³C values). The values showed both inter- and intraspecific variability and suggest that in situ about 50% of the analysed species perform C3 photosynthesis, 20% moderate CAM (fixation of external CO₂ during day-and night-time) and 30% pronounced CAM (CO₂ uptake entirely during the night). The photosynthetic behaviour of the species indicated by the ¹³C values was clearly related to the habitat from where the samples derived. In A. eburneum, A. sororium and particularly in A. sesquipedale the stable carbon isotope analysis was complemented by measurements of CAM performance under controlled conditions. The experiments with A. sesquipedale revealed that drought and temperature are important factors modulating CAM, whereas variation of the leaf-to-air water vapor pressure difference was less effective. Altogether, the results of the study support the view that the high biological adaptability and thus the ecological success of the genus Angraecum is largely based on genotypic diversity and intraspecific plasticity of the photosynthetic behaviour.     

Metabolism of fatty acid in yeast: characterisation of beta-oxidation and ultrastructural changes in the genus Sporidiobolus sp. cultivated on ricinoleic acid methyl ester

Cell structure modifications and beta-oxidation induction were monitored in two strains of Sporidiobolus, Sp. Ruinenii and Sp. pararoseus after cultivation on ricinoleic acid methyl ester. Ultrastructural observations of the yeast before and after cultivation on fatty acid esters did not reveal major modifications in Sp. ruinenii. Unexpectedly, in Sp. pararoseus a proliferation of the mitochondrion was observed. After induction, Sp. ruinenii principally exhibited an increase in the activities of acyl-CoA oxidase (ACO), hydroxyacyl-CoA deshydrogenase (HAD), thiolase and catalase. In contrast, Sp. pararoseus lacked ACO and catalase activities, but an increase in acyl-CoA deshydrogenase (ACDH) and enoyl-CoA hydratase (ECH) activity was observed. These data suggest that in Sp. ruinenii, beta-oxidation is preferentially localized in the microbody, whereas in Sp. pararoseus it might be localized in the mitochondria.     

X-ray studies on crystalline complexes involving amino acids and peptides: Part XVIII. Crystal structure of a new form of L-arginine D-glutamate and a comparative study of amino acid crystal structures containing molecules of the same and mixed chirality

The new form of L-arginine D-glutamate is monoclinic, P2₁, witha = 9.941(1),b = 4.668(2),c = 17.307(1) Å,β = 95.27(1)°, and Z = 2. In terms of composition, the new form differs from the old form in that the former is a monohydrate whereas the latter is a trihydrate. The structure has been solved by the direct methods and refined to R = 0.085 for 1012 observed reflections. The conformation of the arginine molecule is the same in both the forms whereas that of the glutamate ion is different. The change in the conformation of the glutamate ion is such that it facilitates extensive pseudosymmetry in the crystals. The molecules arrange themselves in double-layers stabilised by head-to-tail sequences involving main chains, in both the forms. However, considerable differences exist between the two forms in the interface, consisting of side chains and water molecules, between double-layers. A comparative study of the relationship between the crystal structures of L and DL amino acids on the one hand and that between the structures of LL and LD amino acid-amino acid complexes on the other, provides interesting insights into amino acid aggregation and the effect of chirality on it. The crystal structures of most hydrophobic amino acids are made up of double-layers and those of most hydrophilic amino acids contain single layers, irrespective of the chiralities of the amino acids involved. In most cases, the molecules tend to appropriately rearrange themselves to preserve the broad features of aggregation patterns when the chirality of half the molecules is reversed as in the structures of DL amino acids. The basic elements of aggregation in the LL and the LD complexes, are similar to those found in the crystals of L and DL amino acids. However, the differences between the LL and the LD complexes in the distribution of these elements are more pronounced than those between the distributions in the structures of L and DL amino acids.     

The role of protein phosphatase-1 in the modulation of synaptic and structural plasticity

Synaptic plasticity is a phenomenon contributing to changes in the efficacy of neuronal transmission. These changes are widely believed to be a major cellular basis for learning and memory. Protein phosphorylation is a key biochemical process involved in synaptic plasticity that operates through a tight balance between the action of protein kinases and protein phosphatases (PPs). Although the majority of research in this field has concentrated primarily on protein kinases, the significant role of PPs is becoming increasingly apparent. This review examines one such phosphatase, PP1, and highlights recent advances in the understanding of its intervention in synaptic and structural plasticity and the mechanisms of learning and memory.     

Transcriptional control and patterning of the pho-1 gene, an essential acid phosphatase expressed in the C. elegans intestine

We have previously described an acid phosphatase enzyme, PHO-1, present at the lumenal surface of all but the anterior six cells of the Caenorhabditis elegans intestine. In the present paper, we identify the pho-1 structural gene, which encodes a histidine acid phosphatase showing highest similarity to human prostatic acid phosphatase. The pho-1 5'-flanking DNA is capable of directing reporter gene expression that is both gut specific, correctly timed and correctly "patterned", that is, not expressed in the gut anterior. Furthermore, this anterior-posterior patterning of pho-1 expression responds to the C. elegans Wnt pathway as if pho-1 is repressed (directly or indirectly) by high levels of the HMG effector protein POP-1. Transgenic analysis of the pho-1 promoter shows that gut expression is critically dependent on a single WGATAR site. The gut-specific GATA factor ELT-2 binds to this site in vitro and removal of ELT-2 from the embryo destroys expression of the pho-1 reporter. Thus, all our results indicate that pho-1 is a direct downstream target of ELT-2. Finally, the pho-1 loss-of-function mutation shows an interesting and unexpected phenotype for a somatically-expressed hydrolytic enzyme: loss of pho-1 causes arrest of the majority of embryos but this lethality is a maternal effect. We suggest that pho-1 is required by the maternal intestine to assimilate some nutrient or cleavage product that is subsequently provided to the next generation of embryos.     

Rapid methods for the characterization of unilamellar phospholipid vesicles. Application to studies on fatty acid donor and acceptor properties of membranes and fatty acid binding proteins

Vesicles having diameters from 20 to 200 nm were prepared from egg-yolk phosphatidylcholine (PC) and were separated as well as analyzed by methods that can be carried out with standard laboratory equipment. Gel-chromatography on Sephacryl S 1000 was adapted for expeditious size analysis of vesicles as well as for isolation of vesicle populations having a narrow range of diameters. The internal volume of vesicles was derived from enzymic tests for PC and for glucose encapsulated. Size analysis and enzymic determinations provided a convenient check for the lamellarity of membranes produced.Fatty acids and fatty acid binding proteins (FABPs) must interact in vivo in the presence of cellular membranes. As a model, interactions between unilamellar vesicles, anthroyloxypalmitic acid (A16:0) and FABPs were studied with the aid of gel-chromatographic methods elaborated and of fluorescence spectroscopy. FABP from bovine heart donated A16:0 to membranes, whereas FABP from bovine liver removed this fatty acid from vesicle membranes. The results revealed characteristic differences between cardiac and hepatic FABPs with regard to binding a fatty acid.     

Four-carbon dicarboxylic acid production through the reductive branch of the open cyanobacterial tricarboxylic acid cycle in Synechocystis sp. PCC 6803

Succinate, fumarate, and malate are valuable four-carbon (C4) dicarboxylic acids used for producing plastics and food additives. C4 dicarboxylic acid is biologically produced by heterotrophic organisms. However, current biological production requires organic carbon sources that compete with food uses. Herein, we report C4 dicarboxylic acid production from CO₂ using metabolically engineered Synechocystis sp. PCC 6803. Overexpression of citH, encoding malate dehydrogenase (MDH), resulted in the enhanced production of succinate, fumarate, and malate. citH overexpression increased the reductive branch of the open cyanobacterial tricarboxylic acid (TCA) cycle flux. Furthermore, product stripping by medium exchanges increased the C4 dicarboxylic acid levels; product inhibition and acidification of the media were the limiting factors for succinate production. Our results demonstrate that MDH is a key regulator that activates the reductive branch of the open cyanobacterial TCA cycle. The study findings suggest that cyanobacteria can act as a biocatalyst for converting CO₂ to carboxylic acids.     

Effect of phosphate ions on the fluorescence of tryptophan derivatives. Implications in fluorescence investigation of protein-nucleic acid complexes

In order to test the ability of phosphate groups to quench the fluorescence of tryptophan in protein-nucleic acid complexes we have studied the effect of various phosphate ions on the fluorescence of tryptophan derivatives. Unsubstituted and monoalkyl monoanions (H2PO4- and CH3OPO3H-) quench the fluorescence of all investigated indole derivatives while the dimethyl anion (CH3O)2 PO2- does not. This suggests that quenching of tryptophan fluorescence by phosphate monoanions requires the presence of an acidic OH group and could be due to a proton transfer from the phosphate ion to the indole chromophore. Trianions (PO4 3-4) which are strong proton acceptors quench the fluorescence of all tryptophan derivatives except N(1)methyl tryptophan. This result strongly supports our proposal that quenching of tryptophan fluorescence by phosphate trianions occurs through deprotonation of the NH indole group. Bianions (HPO '4(7), and CH3O PO3 2-3) quench the fluorescence of several indole derivatives including N-acetyl tryptophanamide but have no effect on tryptophan or N(1)-methyl tryptophan. From our results we conclude that phosphate groups of nucleic acids are not able to quench the fluorescence of tryptophyl residues in protein-nucleic acid complexes except if an accessible residue is located near a phosphorylated polynucleotide chain end.