Template-directed synthesis and selective adsorption of oligoadenylates on hydroxyapatite

Summary Polyuridylic acid is adsorbed completely from aqueous solution by hydroxyapatite under conditions that permit template-directed synthesis of oligoadenylates in free solution. The yield of oligoadenylates is enhanced to almost the same extent by poly(U) in the presence or the absence of hydroxyapatite. Under very similar conditions small quantities of hydroxyapatite adsorb higher molecular-weight oligoadenylates selectively from a mixture of oligomers.On the basis of these results we propose a mechanism for prebiotic oligonucleotide formation in which selective adsorption on hydroxyapatite or some other immobilized anion-exchanging material plays a major role. Monomers are released from the surface for reactivation, while oligomers are retained in a protected environment by adsorption to the apatite surface.Abbreviations poly(U) polyuridylate - HA hydroxyapatite - ImpA adenosine 5-phosphorimidazolide - pA adenosine 5-phosphate - ADP adenosine 5-diphosphate - MeIm 1-methylimidazole - EDTA ethylenediaminetetraacetic acid - (pA)_n (n = 2, 3, 4) oligoadenylates with 5-terminal phosphates The nature of the internucleotide linkages is not specifiedThe nature of the internucleotide linkages is not specified     

Oligoadenylates formation on an oligouridylate template in the presence of a lead catalyst

Summary Oligouridylates with more than eight chain units can serve as a template for the template-directed condensation of ImpA catalyzed by Pb²⁺ ion. The templates and the Pb²⁺ ion catalyst facilitate the formation of longer oligoadenylates with five or more units. The ratio of 3–5 linked oligomers to the 2–5 isomers increases with increasing chain length of the oligouridylate template. Short oligouridylates up to a hexamer tend to decrease the yield of oligoadenylates, and do not affect the selectivity of internucleotide linkage.Abbreviations EDTA ethylenediaminetetracetic acid - Tris tris(hydroxymethyl)aminomethane - A adenosine - ImpA adenosine 5-phosphorimidazolide - pA adenosine 5-phosphate - Ap adenosine 2(3)-phosphate - poly A polyadenylic acid - AppA P₁,P₂-diadenosine 5-diphosphate - pAp adenosine 2(3),5-diphosphate - ApA adenylyl adenosine - (pA)_n (n = 2,3,) oligomers of pA - ImpApA 5-phosphorimidazolide of ApA - U uridine - pU uridine 5-phosphate - Up uridine 2(3)-phosphate - poly U polyuridylic acid - pUp uridine 2(3),5-diphosphate - (pU)_n (n = 2,3,) oligomers of pU - (pU)_n – (pA)_m cooligomers composed of (pU)_n and (pA)_m units - AppUpUpUpUp pyrophosphate derived from pA and (pU)₄ - AppUp P₁-(adenosine 5)-P₂-(uridine 2(3)-phosphate 5) -pyrophosphate - BAP bacterial alkaline phosphatase - VPD venom phosphodiesterase - N.P₁ nuclease P₁ - RNase A pancreatic ribonuclease - A^* radioactive adenosine     

Template-directed synthesis of oligoadenylates catalyzed by Pb2+ ions

The Pb2+ ion is an effective catalyst for the template-directed condensation of ImpA on poly(U). This reaction generates up to 35% of oligomers 5 or more units long. Furthermore, the product is predominantly 3'-5'-linked (75%) unlike that from the uncatalyzed reaction which is more than 90% 2'-5'-linked. The significance of metal-ion catalysis for prebiotic polynucleotide formation is discussed.     

Formation of nucleoside 5′-phosphoramidates under potentially prebiological conditions

Summary Adenosine 5-phosphoramidates form when solutions containing adenosine 5-polyphosphates p_nA (n 3) or P₁, P₂-diadenosine 5-diphosphate and amines are allowed to dry out. Mg ions catalyze these reactions. We have studied systems containing ammonia, imidazole, glycine, ethylenediamine and histamine. The yields of adenosine 5-phosphoramidates range from 10–50 % based on the nucleotide. The prebiotic significance of the reactions is discussed.Abbreviations Im imidazole - hist histamine - gly glycine - en ethylenediamine - CDI 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide hydrochloride - EDTA ethylenediaminetetraacetic acid - A adenosine - P_n (n = 1, 2 ) linear polyphosphate containing n phosphate residues - p_nA adenosine 5-polyphosphate containing n phosphate residues - ADP adenosine 5-diphosphate - ATP adenosine 5-triphosphate - AppA P₁, P₂-diadenosine 5-diphosphate - gly-pA adenylyl-(5N)-glycine - ImpA adenosine 5-phosphorimidazolide - NH₂-pA adenosine 5-phosphoramidate - en-pA adenylyl-(5N)-ethylenediamine - hist (NH) - pA adenosine 5-phospho-[2-(4-imidazolyl)-ethylamide] - hist(Im)-pA adenosine 5-phospho-[4-(2-aminoethyl)-imidazolide] - enP_1,2 phosphoramidates of ethylenediamine derived from H₃PO₄ and H₄P₂O₇     

N,N′-carbonyldiimidazole-induced diketopiperazine formation in aqueous solution in the presence of adenosine-5′-monophosphate

Summary 3(2)-O-glycyl-adenosine-5-monophosphate is an intermediate in the conversion of N-[imidazolyl-(1)-carbonyl]-glycine to diketopiperazine in the presence of adenosine-5-monophosphate. The significance of these observations to prebiotic chemistry is discussed.Abbreviations AMP adenosine-5-monophosphate - A adenosine     

Genetic control of chalcone-flavanone isomerase activity in Callistephus chinensis

A mutant blocked in anthocyanin synthesis leads to an accumulation of 4,2,4,6-tetrahydroxy-chalcone-2-glucoside (isosalipurposide) in blossoms of Callistephus chinesis (L.) Nees, whereas in geno-types with the wild-type allele, higher oxidized flavonoids and anthocyanins are synthesized. Measurements of chalcone-flavanone isomerase activity of 18 lines of Callistephus chinensis showed a clear correlation between accumulation of chalcone in the recessive genotypes (ch ch) and deficiency of this enzyme activity. Both the chemogenetic and the enzymologic evidence lead to the following conclusions: 1. The first product of the synthesis of the flavonoid skeleton should be tetrahydroxychalcone.-2. The chalcone-flavanone isomerase catalyzes the formation of flavanone from chalcone in a stereospecific way and there-with furnishes the substrate for the further reactions in the flavonoid biosynthesis.Abbreviations EGME ethylene glycol monomethyl ether - HOAc acetic acid - MeOH methanol - PVP polyvinylpyrrolidone - TBA tert. butanol-acetic acid-water, 3:1:1 - TLC thin-layer chromatography     

New Phosphonoformic Acid Derivatives of 3′-Azido-3′-Deoxythymidine

New 5-alkyl ethoxy- and aminocarbonylphosphonates of 3-azido-3-deoxythymidine (AZT) were synthesized, and their antiviral properties in HIV-1-infected cell cultures and stability to chemical hydrolysis were studied. The AZT 5-aminocarbonylphosphonates were shown to be significantly more stable in phosphate buffer (pH 7.2) than the corresponding ethoxycarbonylphosphonates. The therapeutic (selectivity) index of some of the compounds exceeded that of the parent AZT due to their higher antiviral activity.     

Isolation of trace amounts of 3′,4′-dehydro-4′-deoxydothistromin from peanut plants naturally infected with Cercospora personata

Trace amounts of the anthraquinonoid toxic metabolite, 3,4-dehydro-4-deoxydothistromin have been identified for the first time, from peanut tissues naturally infected by Cercospora personata. Characteristic uv spectral and Chromatographic properties of the metabolite and its tetraacetate as well as the mass spectrum of the latter have established its identity.     

Normal coordinate analysis of 2′-deoxythymidine and 2′-deoxyadenosine

The proposed valence force field allows us to reproduce the vibration modes of 2-deoxythymidine and 2-deoxyadenosine. The present calculations are based on the Wilson GF-method and a non-redundant set of symmetrical coordinates. The calculated wavenumbers have been compared to the available Raman and infrared peak positions observed in solid, amorphous or aqueous samples. Moreover, the results obtained with the present force field allow us to assign some of the characteristic vibration modes for the thymidine and adenosine residues involved in DNA double-helical chains.     

Unusual sequence conservation in the 5′ and 3′ untranslated regions of the sea urchin spec mRNAs

Summary The Spec1 and Spec2 mRNAs (Strongylocentrotus purpuratus ectoderm mRNAs) represent a small gene family that encodes 10–12 members of the troponin C superfamily of calcium-binding proteins. These mRNAs and proteins accumulate in the aboral (dorsal) ectoderm of sea urchin embryos and larvae. Using genomic and cDNA clones, we have compared the sequences of four Spec mRNAs: Spec1, Spec2a, Spec2c, and Spec2d. The mRNAs all have at least 120 bases of 5 untranslated leader, approximately 450 bases of open reading frame, and 900 bases (Spec1) or 1250 bases (Spec2a, 2c, 2d) of 3 untranslated trailer. Unexpectedly, when long stretches of 5 untranslated regions or 3 untranslated regions are compared to one another, they are found to be less divergent than the protein-coding regions. Comparing Spec2d, the most divergent member of the family, with the other Spec mRNAs shows that while the protein-coding regions are 60–62% matched, the untranslated regions are greater than 80% matched. Comparisons among Spec1, Spec2a, and Spec2c demonstrate similar but less dramatic conservation of untranslated regions. Our data imply that the Spec gene family has evolved differently from most gene families, with mutations accumulating most rapidly in intron regions, less rapidly in protein-conding regions, and least rapidly in 5 and 3 untranslated regions.     

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.     

Translation and the cytoskeleton: a mechanism for targeted protein synthesis

This review describes the critical evidence that in eukaryotic cells polyribosomes, mRNAs and components of the protein synthetic machinery are associated with the cytoskeleton. The role of microtubules, intermediate filaments and microfilaments are discussed; at present most evidence suggests that polyribosomes interact with the actin filaments. The use of non-ionic detergent/deoxycholate treatment in the isolation of cytoskeletal-bound polysomes is described and the conclusion reached that at low salt concentrations this leads to mixed preparations of polysomes derived from both the cytoskeleton and the endoplasmic reticulum. At present the best approach for isolation of cytoskeletal-bound polysomes appears to involve extraction with salt concentrations greater than 130 mM after an initial non-ionic detergent treatment. Such polysomes appear to be enriched in certain mRNAs and thus it is suggested that they are involved in translation of a unique set of proteins. The evidence for mRNA localisation is presented and the role of the cytoskeleton in transport and localisation of RNA discussed. Recent data on the role of the 3 untranslated region in the targeting of mRNAs both to particular regions of the cell and for translation on cytoskeletal-bound polysomes is described. The hypothesis is developed that the association of polysomes with the cytoskeleton is the basis of a mechanism for the targeting of mRNAs and the compartmentalization of protein synthesis.Abbreviations CBP cytoskeletal-bound polysomes - FP free polysomes - MBP membrane-bound polysomes - ER endoplasmic reticulum     

Formation of nucleoside 5′-polyphosphates from nucleotides and trimetaphosphate

Summary When solutions of nucleoside 5-phosphates and trimetaphosphate are dried out at room temperature, nucleoside 5-polyphosphates are formed. The Mg⁺⁺ ion shows a superior catalytic function in this reaction when compared with other divalent metal ions. Starting with nucleoside 5-phosphates, Mg⁺⁺ and trimetaphosphate, the predominant products in the nucleoside 5-polyphosphate series p_nN are p₄N, p₇N and P₁₀N. Nucleoside 5-diphosphates yield p₅N and p₈N, nucleoside 5-triphosphates give p₆N and p₉N. The prebiological relevance of these reactions is discussed.Abbreviations P_n (n = 1,2,3,) linear polyphosphate containing n phosphate residues - P₃! trimetaphosphate - A adenosine - U uridine - dA 2-dexyadenosine - T thymidine - P_nN nucleoside 5-polyphosphate containing n phosphate residues, e.g. with N = A and n = 4 - p₄A adenosine 5-tetraphosphate     

Effects of AZT on cellular iron homeostasis

3'-azido-3'-deoxythymidine (AZT), the first chemotherapeutic drug approved by FDA for treatment of HIV-infected patients and still used in combination therapy, has been shown to induce, upon prolonged exposure, severe bone marrow toxicity manifested as anemia, neutropenia and siderosis. These toxic effects are caused by inhibition of heme synthesis and, as a consequence, transferrin receptor (TfR) number appears increased and so iron taken up by cells. Since iron overload can promote the frequency and severity of many infections, siderosis is viewed as a further burden for AIDS patients. We have previously demonstrated that AZT-treated K562 cells showed an increase of the number of TfRs located on the surface of the plasma membrane without affecting their biosynthesis, but slowing down their endocytotic pathway. In spite of the higher number of receptors on the plasma-membrane of AZT-treated cells, intracellular accumulation of iron showed a similar level in control and in drug-exposed cells. The chelating ability of AZT and of its phosphorylated derivatives, both in an acellular system and in K562 cells, was also checked. The results demonstrated that AZT and AZTMP were uneffective as iron chelators, while AZTTP displayed a significant capacity to remove iron from transferrin (Tf). Our results suggest that AZT may be not directly involved in the iron overloading observed upon its prolonged use in AIDS therapy. The iron accumulation found in these patients is instead caused by other unknown mechanisms that need further studies to be clarified.     

Continuous production of 5′-ribonucleotides from yeast RNA by hydrolysis with immobilized 5′-phosphodiesterase and 5′-adenylate deaminase

The production of 5-IMP and 5-GMP by enzymatic conversion from RNA using a continuous two packed-bed reactor was investigated. 5-Phosphodiesterase (5PD) and 5-adenylate deaminase (5AD) were immobilized in an acrylic resin to produce derivatives with about 15 U/g of support. The kinetic properties of the enzymes were described by Michaelis-Menten models: no significant differences were found in the K _m value of the free and immobilized 5AD (60 and 20 m, respectively), whereas for 5PD the K _m value was one order of magnitude higher for the immobilized enzyme (4.85 mg RNA/ml), probably due to diffusional limitations. Both enzymes remained stable after 8 h of use in a continuous packed-bed reactor whereas the half lives of the free enzymes were 193 min and 240 min at 40°C and 70°C for 5AD and 5PD, respectively. A procedure is proposed for the design of a continuous two packed-bed column process.F. Olmedo and F. Iturbe are with the Depto. de Alimentos y Biotecnologia, Facultad de Química, UNAM, México 04510, D.F., Mexico. J. Gomez-Hernández is with the Depto. de Biotecnología, UAM-1, Apdo. Postal 55-535, México 09340, D.F., Mexico. A. López-Munguía is with the Instituto de Biotecnología, Apartado Postal 510-3, Cuernavaca, Mor. 62271, Mexico     

Relative levels of guanosine 5′-diphosphate 3′-diphosphate (ppGpp) in some N2 fixing bacteria during derepression and repression of nitrogenase

Addition of ammonium to N₂ fixing cultures of Azotobacter vinelandii, Klebsiella pneumoniae and Clostridium pasteurianum rapidly reduced the intracellular levels of guanosine 5-diphosphate 3-diphosphate (ppGpp) by 70–90%. This change might reflect a regulatory role of ppGpp in nitrogen metabolism.Abbreviations ppGpp guanosine 5-diphosphate 3-diphosphate     

Isolation and characterization of the ecto-5′-nucleotidase from a rat glioblastoma cell line

Summary 5-Nucleotidase has been purified from rat glioblastoma cells (Rugli cells). The enzyme has been solubilized from plasma membranes by using Triton X-100 and CHAPS. Two affinity chromatographies on concanavalin A and 5-AMP-Sepharose render the purified enzyme with a high specific activity (76.36 mol AMP-min^–1-mg^–1). The purified enzyme gives a single polypeptide band on SDS-PAGE with an apparent molecular mass of 74 kDa. Active forms with an apparent molecular mass of 135 kDa and 268 kDa are observed when the purified enzyme is analyzed by gel filtration in the presence of either 0.6% sodium deoxycholate or 0.1% Triton X-100, respectively. The purified 5-nucleotidase presents optimum activity at pH 7.8–8.1 either in the presence or in the absence of Me²⁺. A linear Arrhenius plot is observed in the 25–46° C temperature range and an activation energy of 33.7 KJ/mol is calculated. The enzyme is inhibited by EDTA; the activity is partially restored by different divalent cations as Zn²⁺, Mn²⁺, and Co²⁺. The hydrolysis of nucleosides 5-monophosphate shows Michaelis kinetic. The enzyme is inhibited by nucleosides di- and triphosphate. 5-Nucleotidase is a glycoprotein, being its activity inhibited at different extent by various lectins.     

Alterations in inotropy,nitric oxide and cyclic GMP synthesis,protein phosphorylation and ADP-ribosylation in the endotoxin-treated rat myocardium and cardiomyocytes

To evaluate the effects of the in vivo endotoxin treatment of the rat on (1) the contractile responses in the subsequently isolated papillary muscle to adrenergic and cholinergic agonists and (2) the biochemical parameters (cyclic GMP, nitric oxide synthesis, protein phosphorylation and ADP-ribosyslation) in the subsequently isolated cardiomyocytes. Following the in vivo endotoxin treatment (4 mg/kg i.p., 18 h), contractile responses to increasing amounts of isoprenaline or to increasing amounts of oxotremorine in the presence of a fixed amount of isoprenaline were determined in isolated papillary strips. Activities of nitric oxide synthase, guanylyl cyclase, as well as phosphorylation of phospholamban and troponin-inhibitory subunit, and pertussis toxin-catalyzed and endogenous ADP-ribosylations were determined in the intact cardiomyocytes and subcellular fractions. The increase in the force of contraction by isoprenaline was reduced, while its inhibition by oxotremorine was greater in the endotoxin-treated papillary strips. The activities of both nitric oxide synthase, primarily of the inducible form of the enzyme, and cytosolic guanylyl cyclase were higher while the phosphorylations of both phospholamban and troponin-inhibitory subunit were of lesser magnitude in the cardiomyocytes following the in vivo endotoxin treatment. Pertussis toxin-catalyzed ADP-ribosylation of the 41 kDa polypeptide, which is the alpha subunit of Gi, was also decreased. The results of the present study support the postulate that alterations in both the cyclic AMP and cyclic GMP signalling cascade contribute to the myocardial dysfunction caused by endotoxin and cytokines.