Calmodulin genes in zebrafish (revisited)

Calmodulin (CaM), a ubiquitous protein, ancestral in early eukaryotes, regulates a large number of physiologically important functions by activating other proteins, some of them enzymes, usually in response to changes in the local concentration of calcium ions. Invertebrates possess one gene that codes for CaM. Among vertebrates, mammals display three genes that code for a 100% identical CaM molecule, while for zebra fishes etc., a non-mammalian vertebrate, we reported earlier the existence of four such genes. The number of multiple genes coding for a 100% identical CaM molecule present in the zebra fish genome, however, is corrected here, from the four, as previously suggested, to six (alpha, alpha2, beta, beta2, gamma and gamma 2). Identification of each of these genes is readily achieved upon examination of the characteristic 5 and 3 UTRs within their respective mRNAs even though we do not know at present what role these UTRs might play. A scanning of the 3 UTRs for short homology elements among the six genes (and a comparison with the human type I, II, and III CaM 3 UTRs) also suggests that duplication processes for three genes resulted in the formation of six such genes. As they become available, the promoter regions for these six genes should be scanned for possible identification of putative regulatory elements if we are to understand the need for the uniquely rigid evolutionary maintenance of these six genes. A comparison of the promoter regions for the beta and beta 2 genes is presented in this paper. A few common short homologous elements appear to be retained in these generally highly variant two regions, but conclusions about differential expression controls must be delayed until the promoter regions for all the other CaM genes have been examined.     

Monomers for Oligonucleotide Synthesis with Linkers Carrying Reactive Residues: II. The Synthesis of Phosphoamidites on the Basis of Uridine and Cytosine and Containing a Linker with Methoxyoxalamide Groups in Position 2′

A convenient preparative synthesis of 2-amino-2-deoxyuridine was developed. Starting from 2-amino-2-deoxyuridine and 2-amino-2-deoxycytidine, monomers for the phosphoamidite oligonucleotide synthesis were obtained that carry a linker with methoxyoxalamide groups in position 2.     

Mutation spectra of N-ethyl-N''-nitro-N-nitrosoguanidine and 1-(2-hydroxyethyl)-1-nitrosourea in Escherichia coli

Summary DNA sequencing was used to determine the specific types of DNA base changes induced following in vivo exposure of Escherichia coli to the ethylating agent N-ethyl-N-nitro-N-nitrosoguanidine (ENNG) and the hydroxyethylating agent 1-(2-hydroxyethyl)-1-nitrosourea (HENU) using the xanthine guanine phosphoribosyltransferase (gpt) gene as the genetic target. We observed that 22/30 of the ENNG-induced mutations were GCAT transitions, 4/30 were ATGC transitions, 3/30 were ATTA transversions, and 1/30 was an ATCG transversion. We observed that 37/40 HENU-induced mutations were GCAT transitions and that the remaining 3/40 were ATGC transitions. A majority of the GCAT transitions induced by ENNG and HENU (68% and 73%, respectively) occurred at the second guanine of the sequence 5-GG(A or T)-3; this sequence specificity was similar to that previously seen with the alkylating agents N-methyl- and N-ethyl-N-nitrosourea (MNU and ENU) and N-methyl-N-nitro-N-nitrosoguanidine (MNNG). A DNA strand preference for the GA changes (antisense strand), previously noted for MNU, ENU, and MNNG, was observed following exposure to HENU and ENNG. The ATGC transitions induced by ENNG, HENU, and ENU also exhibit a sequence specificity with 13/13 mutations occurring at the T of the sequence 5-NTC-3. A strand preference was not apparent for these mutations.     

Cofactor interactions and the regulation of glutamate decarboxylase activity

More than 50% of glutamate decarboxylase (GAD) in brain is present as apoenzyme. Recent work has opened the possibility that apoGAD can be studied in brain by labeling with radioactive cofactor. Such studies would be aided by a compound that inhibits specific binding. One possibility is 4-deoxy-pyridoxine 5-phosphate, a close structural analog of the cofactor pyridoxal 5-phosphate. The effects of deoxypyridoxine-P on the cyclic series of reactions that interconverts apo- and holoGAD was investigated and found to be consistent with simple competitive inhibition of the activation of apoGAD by pyridoxal-P. As expected from the cycle GAD was inactivated when incubated with glutamate and deoxypyridoxine-P even though cofactor was present, but no inactivation was observed with deoxypyridoxine-P in the absence of glutamate. Deoxypyridoxine-P also stabilized apoGAD against heat denaturation. These effects were quantitatively accounted for by a kinetic model of the apo-holoGAD cycle. Deoxypyridoxine-P inhibited the labeling by [³²P]pyridoxal-P of GAD isolated from rat brain. Hippocampal extracts were labeled with [³²P]pyridoxal-P and analyzed by SDS-polyacrylamide gel electrophoresis. Remarkably few bands were strongly labeled. The major labeled band (at 63 kDa) corresponded to one of the forms of GAD. Other strongly-labeled bands were observed at 65 kDa (corresponding to the higher molecular weight form of GAD) and at 69–72 kDa. Labeling of the 63- and 65-kDa bands was inhibited by deoxypyridoxine-P, but the 69–72 kDa bands were unaffected, suggesting that the latter were non-specifically labeled. The results suggest that the 63-kDa form of GAD makes up the majority of apoGAD in hippocampus.Special issue dedicated to Dr. Eugene Roberts.     

Control of nitrogenase inAzospirillum sp.

Many N₂-fixing organisms can turn off nitrogenase activity in the presence of NH₄ ⁺ and turn it on again when the NH₄ ⁺ is exhausted. One of the most interesting systems for accomplishing this is by covalent modification of one subunit of dinitrogenase reductase by dinitrogenase reductase ADP-ribosyltransferase (DRAT). The system can be reactivated when NH₄ ⁺ is exhausted, by dinitrogenase reductase activating glycohydrolase (DRAG) which removes the inactivating group. It is fascinating that some species of the genusAzospirillum possess the DRAT and DRAG systems (A. lipoferum andA. brasilense), whereasA. amazonense in the same genus lacks DRAT and DRAG.A. amazonense responds to NH₄ ⁺ but does not exhibit modification of dinitrogenase reductase characteristic of the action of DRAT. However, it has been possible to clone DRAT and DRAG and to introduce them intoA. amazonense, whereupon they become functional in this organism. The DRAT and DRAG system does not appear to function inAcetobacter diazotrophicus, an organism isolated from sugar cane, that fixes N₂ at a pH as low as 3.0.A. diazotrophicus does show a rather sluggish response to NH₄ ⁺. A level of about 10 M NH₄ ⁺ is required to switch off the system. The response to NH₄ ⁺ is influenced by the dissolved oxygen concentration (DOC) as has been reported forAzospirillum sp. A DOC in equilibrium with 0.1 to 0.2 kPa O₂ seems optimal for the response inA. diazotrophicus.     

Sequencing and analysis of the cos region of the lactococcal bacteriophage c2

The cohesive termini of the DNA genome of the lactococcal bacteriophage c2 were directly sequenced and appeared to be complementary, non-symmetrical, 9-nucleotide single-stranded, 3 extended DNAs, with the following sequence: 5-GTTAGGCTT-3 3-CAATCCGAA-5. DNA located on either side of the cohesive ends was sequenced and several repeats and a region with the potential for a DNA bend were found. Previously sequenced cos regions of 13 other bacteriophages were also examined for similar sequence features. All of the bacteriophages from gram-positive hosts had 3 extended DNA termini, in contrast to the bacteriophages from gram-negative hosts, which had 5 extended DNA termini. All bacteriophages had a region of dyad symmetry close to the cohesive termini. A 7.3 kb DNA fragment of the c2 genome containing the cos sequences was cloned; transduction experiments demonstrated that these cloned sequences could act as a substrate for packaging enzymes of phage c2.     

Studies on metabolic role of 5′-methylthioadenosine in Ochromonas malhamensis and other microorganisms

Several compounds containing a thiomethyl group were found to replace vitamin B₁₂ in a protozoan, Ochromonas malhamensis. The order of the effectiveness was as follows: 5-methylthioadenosine > S-adenosylmethionine > 5-methylthioribose > L-methionine. A similar order was obtained with respect to the permeability of these compounds into the protozoan cells, except for S-adenosylmethionine. 5-Methylthioadenosine and 5-methylthioribose as well as l-methionine markedly increased the intracellular content of l-methionine. The level of S-adenosylmethionine was also increased by them, but to a lesser degree. The thiomethyl group of the compounds was established to be incorporated into S-adenosylmethionine. The metabolic fate of the thiomethyl group of 5-methylthioadenosine cannot be distinguished from that of l-methionine. A high activity of 5-methylthioadenosine nucleosidase was detected in the cell-free extracts of the protozoan. These results strongly suggest that 5-methylthioadenosine would be metabolized to l-methionine via 5-methylthioribose and then the l-methionine would be converted to S-adenosylmethionine. Like l-methionine and vitamin B₁₂, 5-methylthioadenosine and 5-methylthioribose may play an important role in maintenance of the C-1 pool in Ochromonas malhamensis.Neither 5-methylthioadenosine nor 5-methylthioribose replaced vitamin B₁₂ in some vitamin B₁₂-requiring bacteria. This result is consistent with the fact that neither compounds was significantly taken up by these bacteria.Abbreviations MTA 5-methylthioadenosine - AdoMet S-adenosylmethionine - MTR 5-methylthioribose - TCA trichloroacetic acid Paper II in the series. The first paper of the series has been published (Sugimoto and Fukui, 1974)     

Effects of d-propranolol and estradiol on the cervicovaginal epithelium

Summary The cervicovaginal epithelium of neonatal mice produces a material with specific antigenic properties (CVA) and this material is produced in increased amounts after estradiol treatment. Using a cytochemical method, estradiol treatment was shown to result in an increase of adenylate cyclase activity in the same epithelium.When d-propranolol is injected together with estradiol, the increase in CVA is inhibited, while the hormone-induced proliferation of epithelial cells is not influenced. When adenylate cyclase activity is studied under identical conditions, the estradiol-promoted increase in enzyme activity is largely counteracted by d-propranolol. These findings would suggest that Adenosine 35-cyclic monophosphate (cAMP) has a role in some, but not all, estradiol-mediated effects in the neonatal cervicovaginal epithelium.This work was supported by grants from the Norwegian Research Council for Science and the Humanities and from the Norwegian Cancer Society (Landsforeningen mot Kreft)     

A role for cAMP in angiotensin II mediated inhibition of cell growth in AT1A receptor-transfected CHO-K1 cells

G-protein coupled Angiotensin II receptors (AT_1A), mediate cellular responses through multiple signal transduction pathways. In AT_1A receptor-transfected CHO-K1 cells (T3CHO/AT_1A), angiotensin II (AII) stimulated a dose-dependent (EC₅₀=3.3 nM) increase in cAMP accumulation, which was inhibited by the selective AT₁, nonpeptide receptor antagonist EXP3174. Activation of protein kinase C, or increasing intracellular Ca²⁺ with ATP, the calcium ionophore A23187 or ionomycin failed to stimulate cAMP accumulation. Thus, AII-induced cAMP accumulation was not secondary to activation of a protein kinase C- or Ca²⁺/calmodulin-dependent pathway. Since cAMP has an established role in cellular growth responses, we investigated the effect of the AII-mediated increase in cAMP on cell number and [³H]thymidine incorporation in T3CHOA/AT_1A cells. AII (1 M) significantly inhibited cell number (51% at 96 h) and [³H]thymidine incorporation (68% at 24 h) compared to vehicle controls. These effects were blocked by EXP3174, confirming that these responses were mediated through the AT₁ receptor. Forskolin (10 M) and the cAMP analog dibutyryl-cAMP (1 mM) also inhibited [³H]thymidine incorporation by 55 and 25% respectively. We extended our investigation on the effect of AII-stimulated increases in cAMP, to determine the role for established growth related signaling events, i.e., mitogen-activated protein kinase activity and tyrosine phosphorylation of cellular proteins. AII-stimulated mitogen-activated protein kinase activity and phosphorylation of the 42 and 44 kD forms. These events were unaffected by forskolin stimulated increases in cAMP, thus the AII-stimulated mitogen-activated protein kinase activity was independent of cAMP in these cells. AII also stimulated tyrosine phosphorylation of a number of cellular proteins in T3CHO/AT_1A cells, in particular a 127 kD protein. The phosphorylation of the 127 kD protein was transient, reaching a maximum at 1 min, and returning to basal levels within 10 min. The dephosphorylation of this protein was blocked by a selective inhibitor of cAMP dependent protein kinase A, H89-dihydrochloride and preexposure to forskolin prevented the AII-induced transient tyrosine phosphorylation of the 127 kD protein. These data suggest that cAMP, and therefore protein kinase A can contribute to AII-mediated growth inhibition by stimulating the dephosphorylation of substrates that are tyrosine phosphorylated in response to AII.     

Correlation of physical maps and some genetic functions in the genomes of the kappa-theta phage family of Bacillus licheniformis

Summary Natural recombinant genomes between several, phenotypically distinct forms of phages and were isolated and characterized by DNA restriction fragment mapping and electron microscopic heteroduplex analysis. The phenotypes of the recombinants were correlated with the physical maps of the genomes, and several genetic functions were therfore defined and mapped. All genes necessary for the assembly of infectious virus particles map in a contiguous tract of DNA comprising about 20 kb, or nearly one third of the genome length. No DNA homology occurs within these domains of the two genomes, so that homologous recombination does not take place here and phenotypic mixing of the phages is eo ipso excluded. Other regions of heterology contain regulatory genes responsible for the lytic or temperate character of the phages, and for exclusion of phage by .     

Cloning and expression of a putative cytochrome P450 gene that influences the colour of Phalaenopsis flowers

Anthocyanins are responsible for reds through blues in flowers. Blue and violet flowers generally contain derivatives of delphinidin, whereas red and pink flowers contain derivatives of cyanidin or pelargonidin. Differences in hydroxylation patterns of these three major classes of anthocyanidins are controlled by the cytochrome P450 enzymes. Flavonoid-3',5'-hydroxylase, a member of the cytochrome P450 family, is the key enzyme in the synthesis of 3',5'-hydroxylated anthocyanins, generally required for blue or purple flowers. Here we report on the isolation of a cDNA clone of a putative flavonoid-3',5'-hydroxylase gene from Phalaenopsis that was then cloned into a plant expression vector. Transient transformation was achieved by particle bombardment of Phalaenopsis petals. The transgenic petals changed from pink to magenta, indicating that the product of the putative flavonoid-3',5'-hydroxylase gene influences anthocyanin pigment synthesis.     

Host-mediated antiviral activity ofLactobacillus casei against cytomegalovirus infection in mice

The protective effect of heat-killedLactobacillus casei (LC) against murine cytomegalovirus (MCMV) infection was examined. ICR mice treated once with LC 1 day or 2 days before challenge survived lethal infection, but untreated orLactobacillus fermentum (LF)-treated mice did not. The protective effect was evidenced by an increase in plaque-forming units (PFU) per 50% lethal dose (LD₅₀) and a decrease in titers of infectious viruses replicated in the target organs. This was further confirmed by severity of histopathological damage to the target organs, especially the liver. LC neither inactivated MCMV nor inhibited its replication in mouse embryonic fibroblasts (MEF). The spleen cells from LC-treated mice inhibited its replication in MEF on co-cultivation. Augmentation by LC of splenic natural killer (NK) cell activity correlated with survival of mice from otherwise lethal MCMV infection. Cytotoxic activity of peritoneal cells and level of serum interferon (IFN) were elevated after MCMV infection, but they were not associated with survival of mice nor with treatment of LC. The protective effect of LC was not clear in NK-deficient beige mutant (bg^J/bg^J) mice, when compared with that in their littermate (bg^J/+) mice. Poor protection of bg^J/bg^J mice by LC treatment correlated with failure to induce NK cell activity by LC treatment in the mutant mice. Thus, it is likely that LC protects mice from MCMV infection by augmentation of NK cell activity.     

Effect of Melatonin on the Intensity of Adenosine Production in the Rat Forebrain under Conditions of Acute Hypoxia and Varied Photoperiodicity

We studied the effect of injections of melatonin and modifications of the duration of illumination on the activity of 5-nucleotidase, an enzyme providing synthesis of adenosine, in the forebrain of juvenile male albino rats. The measurements were performed under conditions of acute hypobaric hypoxia. We found that, under conditions of natural illumination, neither isolated injections of melatonin nor acute hypoxia noticeably changed the activity of 5-nucleotidase. At the same time, acute hypoxia combined with melatonin injections increased the activity of this enzyme. A similar noticeable rise in the activity of 5-nucleotidase was observed after melatonin injections in normoxic animals kept in constant darkness, and in rats subjected to hypoxia without the above injections but under conditions of constant illumination. These data allow us to suppose that melatonin (whose level in the extracellular medium is a factor providing synchronization of endogenous temporal rhythms) stimulates 5-nucleotidase-mediated production of adenosine in brain neurons. Acute hypoxia promotes such an effect of melatonin.     

Cyclic adenosine 3′,5′-monophosphate and germination of sporangiospores from the fungus Mucor

Cyclic adenosine 3,5-monophosphate (cAMP) metabolism was examined in germinating sporangiospores of Mucor genevensis and Mucor mucedo. Exogenous cAMP prevented normal hyphal development from sporangiospores. Internal pools of cAMP fluctuated profoundly during development. Spherical growth of the spores was characterized by large pools of cAMP whereas germ tube emergence and hyphal elongation were characterized by small pools of cAMP. These observations suggest a possible role for cAMP in sporangiospore germination. Adenylate cyclase activities fluctuated significantly during germination with maximum values attained during spherical growth. In contrast, cAMP phosphodiesterase activities remained constant throughout germination. Internal cAMP levels may therefore be regulated by adjustment of adenylate cyclase activities. The binding of cAMP by soluble cell proteins was measured. cAMP-binding activity changed greatly during germination. Dormant and spherically growing spores possessed the highest activities. Developing hyphae contained the lowest activities. Use of the photoaffinity label, 8-azido-[^32P]cAMP, in conjunction with sodium dodecyl sulfate-polyacrylamide-gel electrophoresis allowed the identification of a small population of morphogenetic-stage-specific proteins which bind cAMP and may be of regulatory significance to development.     

Degradation products of myelin proteins in a light CNS subcellular fraction

The fraction floating on 0.32 M sucrose when normal mammalian spinal cord homogenate is submitted to discontinuous density gradient centrifugation is highly enriched in Marchi-positive material. In situ this material is located along paranodal myelin sheath segments. We here show by immunoblotting that degradation products of the myelin-associated glycoprotein (MAG) and of the enzyme 2,3-cyclic nucleotide 3-phosphodiesterase (CNP) is present in the Marchi-positive floating fraction but is not found in the myelin fraction. Since previous biochemical analyses of the floating fraction show a gross composition closely resembling myelin and since metabolic studies show the specific activity of incorporated amino acids to proceed with time from beavier to lighter myelin subfractions the results strongly suggest that normally occurring Marchi-positive bodies represents an intermediate stage in myelin catabolism.     

Myosatellite cells of Cyprinus carpio (Teleostei) in vitro: isolation,recognition and differentiation

Summary We have developed a method for the dissociation and purification of myosatellite cells from white epaxial muscle of carp. The dissociated myosatellite cells were identified by their morphology, their ultrastructure, the formation of multinucleated myotubes containing myofibrils and the immunocytochemical demonstration of desmin. Desmin and 5-bromo-2-deoxyuridine (BrdU) were used to identify terminally differentiated and proliferating myosatellite cells, respectively. The in vitro behavior of myosatellite cells dissociated from carp of 5 cm standard length differed from that described for myosatellite cells of mammals and birds. No substantial proliferation of the myosatellite cells could be observed. Most cells were differentiated (desmin-positive, BrdU-negative) 17 h after plating, regardless of the medium used. This indicates that the investigated white epaxial muscle of carp of 5 cm standard length contains subpopulations of myosatellite cells, arrested at various stages of differentiation.     

Effects of auxin and gibberellin on conidial germination and elongation of young hyphae in a cyclic 3′:5′ adenosine monophosphate-dependent protein kinase mutant of Neurospora crassa

The possibility that plant growth regulators may relate to a cyclic 3:5 adenosine monophosphate (cAMP)-dependent protein kinase through the control of cAMP level in the conidial germination process of Neurospora crassa was examined using a cAPM-dependent protein kinase mutant (cpk mutant) which is thought to be cAMP-independent because of defect in the regulatory subunit of cAMP-dependent protein kinase. IAA, 2,4-D and GA₃ promoted conidial germination and elongation of young hyphae in the mutant as well as in the wild-type. The result suggests that the effects of auxin and gibberellin on germination and hyphal elongation are not mediated by cAMP.     

DeoxyNAD and deoxyADP-ribosylation of proteins

Recently, two deoxyribose analogs of NAD⁺ (2-deoxy and 3-deoxyNAD⁺) have been synthesized and purified in this laboratory. Whereas 2-deoxyNAD⁺ was an efficient substrate for arg-specific mon(ADP-ribosyl) transferases, it was not a substrate for poly(ADP-ribose) polymerase (PARP). Instead, it was a non-competitive inhibitor of NAD⁺ in the ADP-ribose polymerization reaction catalyzed by PARP. Thus, 2-deoxyNAD⁺ has been utilized to distinguish between mono(ADP-ribose) and poly(ADP-ribose) acceptor proteins. 2-deoxyNAD⁺ has also been used to characterize the arg-specific mono(2-deoxyADP-ribosyl)ation reaction of PARP with cholera toxin or avian mono(ADP-ribosyl)transferase. By contrast, 3-deoxyNAD⁺ can effectively be utilized as a substrate by PARP. However, while the estimated Km and Kcat of polymerization with 3-deoxyNAD⁺ can were 20 M and 0.11 moles/sec, the Km and Kcat with NAD⁺ as a substrate were 59 M and 1.29 moles/sec, respectively. Determination of the average size of 3-deoxyADP-ribose polymers indicated that chains no larger than four residues are synthesized with this substrate. Thus, the utilization of 3-deoxyNAD⁺ has facilitated the electrophoretic identification of poly(ADP-ribose) acceptor proteins in mammalian chromatin.