Comparative sensitivities of electrophoretic assays for human enzymes

The sensitivities of 26 starch gel electrophoretic enzyme assays have been compared using HeLa human cells and A9 mouse cells grown in vitro.This research was supported by National Institutes of Health Grant No. USPHS GM 09966.     

Linkage of the structural gene for uroporphyrinogen I synthase to markers on mouse chromosome 9 in a cross between feral and inbred mice

The Ups locus has been mapped to mouse chromosome 9 in a three-point cross. The observed gene order is centromere-Ups-15-Mpi-1-22-Mod-1. Ups is unlinked to Lv, which encodes the previous enzyme in the heme biosynthesis pathway. Feral mice collected at Skive, Denmark, have been characterized at several biochemical loci; multiple differences from inbred strains make this a useful stock for linkage analysis.Supported by USPHS Grants GM 24872 and GM 19521.     

A profile of Drosophila species' enzymes assayed by electrophoresis. I. Number of alleles,heterozygosities, and linkage disequilibrium in glucose-metabolizing systems and some other enzymes

Seven isolated large populations of Drosophila belonging to five different species were examined by starch gel electrophoresis for allozyme variation. Six to eleven enzyme loci in the glucose-metabolizing system (group I) and six to eight enzyme loci (group II) which were not directly involved in the above-mentioned system were assayed. The parameters estimated were the average number of alleles per locus, allele frequencies, proportions of polymorphic loci, and average heterozygosity per population for group I and group II loci. The major finding is that genetic variability measured by allozyme variations is much higher for group II than for group I enzymes in terms of every parameter in all the populations. This is consistent with the earlier findings in D. ananassae by Gillespie and Kojima (1968). Linkage disequilibrium, a measure of genome integration, was computed between an enzyme locus and an inversion segment of the same chromosome. The preliminary analysis of this aspect of the study indicates that no substantial linkage disequilibrium builds up between the chromosomal segments unless the pair of segments is less than 10 centimorgan units apart.This study was supported by USPHS Grant GM-15769 and Atomic Energy Commission Contract AT-(40-1)-3681.NIH Trainee supported by Grant 5 TO 1 GM 00337.     

Reduction of Methionine Sulfoxide by Plants

A relaxed (rel) mutant was found among thirty spontaneous thiopeptin-resistant isolates of Streptomyces antibioticus strain 3720, an actinomycin-producing strain, which showed severely reduced ability to accumulate ppGpp during a nutritional shift-down. The pool size of GTP decreased markedly in the parental strain, but to a lesser extent in the rel mutant. The rel mutant did not show the induction of an enzyme, phenoxazinone synthase, which is involved in the biosynthesis of actinomycin. No negative effect of the rel mutation was observed on a constitutive enzyme, kynurenine formamidase, which also plays a role in actinomycin synthesis. The mutant also failed to produce melanin, but still retained the ability to form aerial mycelium and spores, although the onset of the formation of aerial mycelium was markedly delayed. Neither the phenoxazinone synthase activity nor the kynurenine formamidase activity was affected by ppGpp in vitro. It is suggested tha the stringent response (ppGpp) may be generally essential for the induction of enzymes involved in secondary metabolism.     

Molybdenum hydroxylases in Drosophila

Summary A reliable method for visualizing the Drosophila enzyme pyridoxal oxidase in polyacrylamide gels is described. Antiserum to pyridoxal oxidase has been produced and used in quantitative immunoelectrophoresis to determine the relative amounts of pyridoxal oxidase cross reacting material (CRM) in several mutants including lpo, lxd, ma-l and cin. The lpo variant did not have CRM for PO, thus further supporting the idea that it represents a structural gene for pyridoxal oxidase in Drosophila. CRM for PO was found in ma-l and lxd indicating that their effects upon the enzyme are probably post-translational. No CRM for PO could be found in the cin mutants.This work was supported by PHS grant GM 23736 to V. Finnerty     

Mutations affecting phenol oxidase activity inDrosophila: quicksilver andtyrosinase-1

The complex enzyme phenol oxidase plays a major role in sclerotization and melanization of cuticle in insects. Production of active enzyme from the inactive proenzyme involves at least six protein components inDrosophila. We examine here the biochemical phenotype of two loci that affect phenol oxidase activity—quicksilver (qs; 1–39.5) andtyrosinase-1 (tyr-1; 2–54.5). Three mutations isolated by different procedures in three different laboratories are alleles at thequicksilver locus. The effects of these mutations have been monitored by means of enzyme assaysin vitro and in polyacrylamide gels and by measurement of catecholamine pool sizes. The activity of all three active enzyme components (A1, A2, and A3) is reduced inqs mutants. The activated enzyme of oneqs allele is thermolabile, while its activator is normal. Deletion and genetic mapping placetyr-1 nearpurple (pr; 2–54.5). Enzyme activity is reduced to 10% of normal but is not thermolabile and the activator is normal. The activity of all three A components is reduced. The diphenol oxidase activity in double mutant combinations shows that these mutations andDox-A2 (Pentzet al., 1986) affect this enzyme in different ways.B.C.B. was supported by National Institutes of Health Research Grant GM31217 and E.S.P. was supported by National Institutes of Health Research Grant GM19242 to T.R.F.W.     

Enzymatic and chemical oxidation of gangliosides in cultured cells: effects of choleragen.

Cell surface glycolipids of normal human fibroblasts and NCTC2071 cells (transformed mouse fibroblasts) were labeled by incubating the intact cells with either galactose oxidase or sodium periodate, followed by reduction of the oxidized sugar residues with NaB3H4. In intact human fibroblasts, incorporation of 3H was increased with increasing time of exposure to galactose oxidase prior to treatment with NaB3H4. Following limited exposure to galactose oxidase, more label was incorporated into the larger glycolipids. Although labeling of the monosialoganglioside GM1 was maximal by 16 h, not all of the GM1 in the intact cells appeared to be accessible to galactose oxidase, since 10 to 12 times more GM1 was labeled when cells were disrupted before incubation with the enzyme. The human fibroblasts contained approximately 8 X 10(6) molecules of GM1 per cell. Maximal binding of choleragen (5 X 10(5) molecules of [125I]choleragen per cell) completely prevented cholevented oxidation of GM1 in intact fibroblasts by galactose oxidase but only partially protected the sialic acid moiety of GM1 from oxidation by periodate. Choleragen had little effect on the enzymatic or chemical oxidation of other glycolipids. NCTC 2071 cells do not contain endogenous GM1 but incorporate exogenous GM1 from the culture medium. When bound to NCTC 2071 cells, exogenous GM1 was protected by choleragen from oxidation by galactose oxidase or whether endogenous or taken up from the incubation medium, are, after interaction with choleragen, less accessible to oxidation by periodate or galactose oxidase.     

Tissue-specific and substrate-specific detection of aldehyde and pyridoxal oxidase in larval and imaginal tissues of Drosophila melanogaster

The substrate specificities of aldehyde and pyridoxal oxidases in Drosophila melanogaster have been determined with a variety of aliphatic and aromatic aldehydes. This analysis has led to the discovery that 2,4,5-trimethoxy-benzaldehyde is a specific substrate for pyridoxal oxidase, as based on the histochemical distribution of oxidase activity, the absence of enzymatic activity in the lpo ¹strains, and the dosage dependence on the number of lpo ⁺genes present. The tissue-specific localization of aldehyde oxidase (AO) and pyridoxal oxidase (PO) in the larval and adult structures showed that AO was present in all the major internal organs of the larvae and adults, including brain, imaginal discs, Malpighian tubules, digestive system, and reproductive structures. Pyridoxal oxidase is present in many of the same structures which possess AO, but is missing from the cardia, crop, imaginal discs, ovarian follicle cells, paragonia, pericardial cells, and wreath cells. The only structure which possesses PO but lacks AO is the larval salivary gland. These histochemical differences in AO and PO distribution were also confirmed by enzymatic analysis of the activities present in homogenates of ovaries, paragonia, and salivary glands. The general pattern of enzyme expression appears to be established during embryogenesis and maintained throughout the life of the individual.This work was supported by NIH Grants AG01975 and GM27866.This paper is dedicated to Professor Donald F. Poulson, Yale University, a pioneer in Drosophila developmental genetics.     

A novel o-aminophenol oxidase responsible for formation of the phenoxazinone chromophore of grixazone

Grixazone contains a phenoxazinone chromophore and is a secondary metabolite produced by Streptomyces griseus. In the grixazone biosynthesis gene cluster, griF (encoding a tyrosinase homolog) and griE (encoding a protein similar to copper chaperons for tyrosinases) are encoded. An expression study of GriE and GriF in Escherichia coli showed that GriE activated GriF by transferring copper ions to GriF, as has been observed for a Streptomyces melanogenesis system in which the MelC1 copper chaperon transfers copper ions to MelC2 tyrosinase. In contrast with tyrosinases, GriF showed no monophenolase activity, although it oxidized various o-aminophenols as preferable substrates rather than catechol-type substrates. Deletion of the griEF locus on the chromosome resulted in accumulation of 3-amino-4-hydroxybenzaldehyde (3,4-AHBAL) and its acetylated compound, 3-acetylamino-4-hydroxybenzaldehyde. GriF oxidized 3,4-AHBAL to yield an o-quinone imine derivative, which was then non-enzymatically coupled with another molecule of the o-quinone imine to form a phenoxazinone. The coexistence of N-acetylcysteine in the in vitro oxidation of 3,4-AH-BAL by GriF resulted in the formation of grixazone A, suggesting that the -SH group of N-acetylcysteine is conjugated to the o-quinone imine formed from 3,4-AHBAL and that the conjugate is presumably coupled with another molecule of the o-quinone imine. GriF is thus a novel o-aminophenol oxidase that is responsible for the formation of the phenoxazinone chromophore in the grixazone biosynthetic pathway.     

Immunological similarities of mammalian xanthine oxidases

The degree of relatedness among mammalian xanthine oxidases (XO) was determined by microcomplement fixation. Rabbit anti bovine milk XO serum was tested against xanthine oxidase (homologous protein) and against the heterologous proteins of bovine liver, monkey liver, rat liver, lactating cow serum, nonlactating cow serum, and steer serum. The indices of dissimilarity for the heterologous proteins were expressed as units of immunological distance and the percent sequence differences among these proteins inferred from the y=5x relationship where y is immunological distance and x is percent sequence difference. Rat liver XO differed by approximately 27% in amino acid sequence from bovine milk XO. In order of increasing immunological distance from bovine milk XO, the sources of XO ranked as follows: lactating cow serum < nonlactating cow serum < steer serum = beef liver < monkey liver < rat liver. The monkey ranked much closer than the rat in order of phylogenetic kinship to the cow. Starch gel electrophoresis of liver, milk, and serum showed that the milk and the serum contained only cationic forms of xanthine oxidase while all the liver samples tested contained cationic as well as anionic forms of the enzyme. The electrophoretic mobility properties of xanthine oxidase confirmed the polymorphic nature of the enzyme as revealed by the immunological data.This investigation was supported by the National Dairy Council, Chicago, Illinois, and by USPHS Grant AM16726.     

Isozyme genotype-environment relationships in natural populations of the harvester ant,Pogonomyrmex barbatus,from Texas

Three different allelic isozyme systems (two esterases, ESH and ESR, and a malic dehydrogenase, MDH) were analyzed in population samples of a species of ant, Pogonomyrmex barbatus, from Texas. Allelic frequencies were determined for several collection localities, and a number of significant differences were found. Principal component analysis was used to compare the patterns of variability of the allelic frequencies with environmental factors. Significant correlation was particularly evident with respect to weather and the pattern of variability in both esterases, and it is therefore suspected that natural selection is important in determining the allele frequency patterns. Observed and expected genotypic proportions were found in good agreement, generally, but in some localities homozygotes appeared in significantly greater numbers than expected. Heterotic selective maintenance was thus not indicated. Correlation found between patterns of variability in the enzyme systems themselves was consistent with the hypothesis that all three enzyme systems were affected by the environmental factors.Supported in part by USPHS Research Grants No. GM 15769, GM 11609, and GM 11546 and Texas A & I University Faculty Research Grant No. 449-N-68. The field work and laboratory analyses in this investigation were done while the senior author was at the University of Texas, and the data were analyzed at North Carolina State University. The computing was supported by Grant FR-00011 of the National Institutes of Health. Paper number 2784 of the Journal Series of the North Carolina Agricultural Experiment Station, Raleigh, North Carolina.     

Pleiotropic effects of a relC mutation in Streptomyces antibioticus.

Ochi (Agric. Biol. Chem. 51:829-835, 1987) has isolated a relaxed mutant of Streptomyces antibioticus, designated relC49, relC49 accumulates significantly lower levels of ppGpp than the parent stain, IMRU3720. At its maximum, the ppGpp level in relC49 was only one-fourth that observed in strain IMRU3720. Interestingly, a burst of ppGpp synthesis between 18 and 22 h of growth in IMRU3720 coincided with the onset of actinomycin production in that strain. As shown previously, the activity in protein synthesis of ribosomes from strain IMRU3720 decreases with the age of the culture. The decrease in activity was less pronounced in cultures of relC49. relC49 mycelium contains reduced levels of phenoxazinone synthase, a key enzyme involved in actinomycin biosynthesis. The rel mutation prevents the normal increase in the activity of one of the other enzymes required for production of the antibiotic, 3-hydroxyanthanilate-4-methyltransferase, and a third enzyme, actinomycin synthetase I, appears to be completely absent from relC49 mycelium. Levels of phenoxazinone synthease mRNA were examined by RNA dot blotting with the cloned phenoxazinone synthase gene as a probe. mRNA levels for phenoxazinone synthase were dramatically reduced in relC49 compared with strain IMRU3720. These results are discussed in terms of the possible regulation of the onset of actinomycin production by ppGpp.     

Genetic and biochemical studies of actidione sensitivity in Drosophila

A new mutant, act, a recessive gene carried on chromosome III of Drosophila, results in sensitivity to actidione, an inhibitor of protein synthesis. The mutant gene has no detectable effect except that it acts as a conditional lethal in the presence of actidione. The possibility that this gene encodes a ribosomal component was tested and eliminated using an in vitro system. Conditions are described for in vitro protein synthesis utilizing Drosophila microsomes and transfer RNA derived from Escherichia coli.This study was supported by USPHS Grant 1 R01 GM 15055.     

Effect of gangliosides on membrane permeability studied by enzymic and fluorescence-spectroscopy techniques.

The effect of gangliosides on membrane permeability was investigated by studying the kinetic properties of cytochrome c oxidase, the activity of which, when the enzyme is reconstituted in phospholipid vesicles, is dependent on membrane permeability to H+ and K+. The experiments indicate that three different gangliosides (GM1, DD1a, GT1b) incorporated into cytochrome c oxidase-containing phospholipid vesicles stimulate enzymic activity, in the absence of ionophores, most probably by disorganizing the bilayer lipid assembly and increasing its permeability to ions. This interpretation was confirmed by fluorescence-spectroscopy experiments in which the rate of passive leakage of carboxyfluorescein entrapped in the vesicles was measured. Cholera toxin, or its isolated B-subunit, added to GM1-containing proteoliposomes inhibited cytochrome c oxidase activity, indicating the lack of formation, under these experimental conditions, of channels freely permeable to H+ or K+.     

The α-glycerophosphate cycle inDrosophila melanogaster. I. Biochemical and developmental aspects

The two α-glycerophosphate dehydrogenases ofDrosophila melanogaster (mitochondrial αGPO and soluble αGPDH) have been biochemically characterized in a preliminary investigation of the α-glycerophosphate cycle inDrosophila. The soluble enzyme is NAD linked and can be distinguished from the mitochondrial oxidase in terms of locational specificity,pH optimum, salt precipitation, and electrophoretic behavior. The mitochondrial enzyme is NAD independent and exhibits behavior typical of a lipoprotein. Extraction procedures are described for αGPO with nonionic detergents. Isoelectric focusing of αGPO on polyacrylamide gels resolved two molecular forms of αGPO which differ in isoelectric point, ease of extraction, and developmental and spatial distribution. Developmental profiles of both αGPO and αGPDH are presented. The occurrence of multiple forms of both the soluble (Wright and Shaw, 1969) and the mitochondrial forms of the enzymes is discussed in light of a multifunctional role of the α-glycerophosphate cycle inDrosophila. This project was supported by a Genetics Training Grant T1 GM 1035 from the National Institute of General Medical Sciences.     

Studies on the xanthine oxidase activity of mammalian cells

Xanthine oxidase in man is confined to but a few tissues and is absent from cultured cell strains. In rodents, however, the enzyme is more widely distributed among the tissues and can be demonstrated in most cell lines. Rodents possess the enzyme uricase and are therefore able to carry purine catabolism one step further than man. Preliminary results suggest that uricase is restricted to but a few rodent tissues and is absent from cultured rodent cells. Hence it may be that in each species only the final enzyme of purine catabolism is tissue restricted. In other experiments, mammalian cells were grown in the presence of compounds known to induce xanthine oxidase in a eukaryotic fungus (Aspergillus nidulans). These compounds did not induce the enzyme in mammalian cells.Supported by program project grants 1-PO-GM 15419 and GM 18153-01, National Institutes of Health, United States Public Health Service.     

Assignment of the gene for dipeptidase 2 to Mus musculus chromosome 18 by somatic cell hybridization

Evidence is presented for the assignment of the gene for dipeptidase 2 to Mus musculus chromosome 18 by synteny testing and karyotypic analysis of Chinese hamster × mouse somatic cell hybrid clones. DIP-2 and chromosome 18 were expressed concordantly in 24/24 clones examined (ten primary clones and 14 secondary clones). Synteny testing indicated that DIP-2 was not expressed concordantly with the expression of any marker enzymes.This work was supported by NIH grant USPHS GM 09966.     

GM1-ganglioside-triton X-100 mixed micelles: Changes of micellar properties studied by laser-light scattering and enzymatic methods

The micellar properties of mixtures of GM1 ganglioside and the non-ionic amphiphile Triton X-100 in 25 mM Na phosphate-5 mM di Na EDTA buffer (pH = 7.0) were investigated by quasielastic light scattering in a wide range of Triton/GM1 molar ratios and in the temperature range 15–37°C. These measurements: (a) provided evidence for the formation of mixed micelles; (b) allowed the determination of such parameters as the molecular weight and the hydrodynamic radius of the mixed micelles; (c) showed the occurrence of statistical aggregates of micelles with increasing temperature and micelle concentration. Galactose oxidase was chosen for studying the relation between enzyme activity and micellar properties. The action of the enzyme on GM1 was found to be strongly dependent on the micellar structure. In particular: (a) galactose oxidase acted very poorly on homogeneous GM1 micelles, while affecting mixed GM1/Triton X-100 micelles; (b) at fixed GM1 concentration the oxidation rate increased by enhancing Triton X-100 concentration and followed a biphasic kinetics with a break at a certain Triton X-100 concentration; (c) the formation of statistical micelle aggregates was followed by inhibition of the enzyme activity.