Glucosylation of methyl β-D-arabinofuranoside with 6′-chloro-6′-deoxysucrose and immobilized Protaminobacter rubrum

Summary Transglucosylation byProtaminobacter rubrum using 6-chloro-6-deoxysucrose (1) and methyl -D-arabinofuranoside (2) as donor and acceptor, respectively, were examined. inhibition caused by 6-chloro-6-deoxy-D-fructose (4) was observed and could be greatly lightened in a borate buffer, where the yield of the disaccharide (3) increased by 1.35-fold.     

Distribution of 2-chloro-2′-deoxyadenosine, 2-chloro-2′- arabino -fluoro-2′-deoxyadenosine, Fludarabine and Cytarabine in mice: a whole-body autoradiography study

The distribution characteristics of tritiated nucleoside analogs, 2-chloro-2′-deoxyadeonosine (CdA), 2-chloro-2′-arabino-fluoro-2′-deoxyadenosine (CAFdA), 2-fluoroarabinosyladenine (F-ara-A) and cytosine arabinoside (ara-C) were compared in mice using whole-body autoradiography. CdA, CAFdA and F-ara-A have quite similar molecular structures, but they differ substantially in clinical activity as well as the side effects. Eight mice were injected intravenously in couples. One mouse from each pair was killed 20 min postinjection and the other mouse from each pair 4 h after the injection. The distribution, of the label was then analyzed by whole-body autoradiography. The distribution of the nucleoside analogs was rapid and uniform. High concentrations were found in highly perfused organs. After 4 h the overall concentration had decreased but relatively high activities were found in the skin for CdA and CAFdA, in the thymus for ara-C and the bone marrow for CdA. Both CdA and CAFdA were found in the brain, but the concentration, was surprisingly lower after 4 h for CAFdA, a lipophilic and more stable analog as compared to CdA. There was an uptake of CdA, F-ara-A and CAFdA in the skin. There were signs of retention of ara-C in parts of the thymus. The present investigations indicate that the nucleoside analog transport to the brain in mice is not primarily dependent upon passive diffusion over a lipophilic barrier, but suggestive of a specific transport mechanism.     

Synthesis of 2-chloro-2′-deoxyadenosine by washed cells ofE. coli

Summary Washed cells ofE. coli ATCC 5275, a thymine auxotroph, catalysed formation of 2-chloro-2-deoxyadenosine when incubated with 2-chloroadenosine and a variety of deoxynucleosides. This transdeoxyribosylation reaction was complete after 4 h of shaking at 37°C. The equilibrium reaction mixture favoured product formation when purine rather than pyrimidine deoxyribonucleosides were used as cosubstrates, and when the ratio of deoxysugar donor to 2-chloroadenosine was high. Using deoxyadenosine as cosubstrate, chlorodeoxyadenosine was purified from larger scale reaction mixtures by treatment with Dowex-1 (OH-form) or by high performance liquid chromatography.     

Synthesis of some ester derivatives of 4′-demethoxyepipodophyllotoxin/2′-chloro-4′-demethoxyepipodophyllotoxin as insecticidal agents against oriental armyworm,Mythimna separata Walker

Podophyllotoxin is a naturally occurring non-alkaloid toxin isolated from the roots and rhizomes of Podophyllum peltatum and P. hexandrum. In continuation of our program aimed at the discovery and development of natural product-based insecticides, two series of ester derivatives of 4′-demethoxyepipodophyllotoxin/2′-chloro-4′-demethoxyepipodophyllotoxin were prepared. The structures of the target compounds were well characterized by 1H NMR, IR, optical rotation and mp. The precise three-dimensional structural information of 8j was further determined by single-crystal X-ray diffraction. Their insecticidal activity was tested against Mythimna separata Walker. These compounds showed delayed insecticidal activity. Among all derivatives, some compounds showed more potent insecticidal activity than toosendanin against M. separata; especially compounds 8k and 9k exhibited the most potent activity with the final mortality rates of 71.4%. Their structure–activity relationships were discussed.     

The metabolism of 2-chloro-1-(2′,4′-dichlorophenyl)vinyl diethyl phosphate (Chlorfenvinphos) in the dog and rat

1. A single oral dose of [(14)C]Chlorfenvinphos to rats is quantitatively eliminated in 4 days. Rats do not show a sex difference in the elimination pattern and show only a small degree of biological variation in the total excretion data. Of the label 87.2% is excreted in the urine (67.5% in the first day after dosage), 11.2% in the faeces and 1.4% in the expired gases; less than 0.9% of (14)C is present in the gut and contents after 4 days. 2. After oral administration of [(14)C]Chlorfenvinphos to dogs, 94.0% (91.8-97.6%) of the (14)C is excreted in the urine and faeces during 4 days. Dogs do not show a sex difference in the pattern of elimination, and excretion of radioactivity in the urine is very rapid: 86.0% of (14)C during 0-24hr. 3. Chlorfenvinphos is completely metabolized in rats and dogs: unchanged Chlorfenvinphos is absent from the urine and from the carcass, when elimination is complete. In rats, 2-chloro-1-(2',4'-dichlorophenyl)vinyl ethyl hydrogen phosphate accounts for 32.3% of a dose of Chlorfenvinphos, [1-(2',4'-dichlorophenyl)ethyl beta-d-glucopyranosid]uronic acid for 41.0%, 2,4-dichloromandelic acid for 7.0%, 2,4-dichlorophenylethanediol glucuronide for 2.6% and 2,4-dichlorohippuric acid for 4.3%; in dogs, 2-chloro-1-(2',4'-dichlorophenyl)vinyl ethyl hydrogen phosphate accounts for 69.6%, [1-(2',4'-dichlorophenyl)ethyl beta-d-glucopyranosid] uronic acid for 3.6%, 2,4-dichloromandelic acid for 13.4% and 2,4-dichlorophenylethanediol glucuronide for 2.7%. 4. Dogs and rats show a species difference in the rate of excretion of (14)C in the urine, and in the proportions of the metabolites, with the exception of 2,4-dichlorophenylethanediol glucuronide, that are excreted in the urine. Alternative explanations for the latter species difference are suggested. 5. 2-Chloro-1-(2',4'-dichlorophenyl)vinyl ethyl hydrogen phosphate and 2,4-dichlorophenacyl chloride probably lie on the main metabolic pathway of Chlorfenvinphos, since, in common with that insecticide, they give rise to [1-(2',4'-dichlorophenyl)ethyl beta-d-glucopyranosid]uronic acid and 2,4-dichloromandelic acid as major metabolites in the urine. 6. The proposed scheme for the metabolism of Chlorfenvinphos represents a detoxication mechanism.     

Deuteration and Tritiation of 2′-Deoxyribonucleosides in the 5′ and 4′ Positions

Abstract

The deuterations of 2′-deoxyguanosine in the 4′ and 5′ positions have been described elsewhere (1). The starting material is the 5′-aldehyde formed by mild oxidation with N,N-dicyclohexyl carbodiimide in dimethyl sulphoxide of the fully protected nucleoside with free 5′-alcoholic function. The 5′4euteration was achieved by reduction with deuterated sodium borohydride. Incorporation of deuterium in the 4′-position was achieved v i a an enhanced keto-enol tautomerim by heating the aldehyde in 50/50 D20/pyridine, with subsequent reduction of the aldehyde with NaBH4. The 6-furanoid form was isolated from the I-lyxo by-product by reverse phase HPLC. Applied to pyrimidine 2′-deoxyribonucleosides, this method was shown to give deuterated 2′-deoxycytidine and thymidine in good yield.     

Differential methylation at the 5′ and the 3′ CCGG sites flanking the X chromosomal hypervariable DXS255 locus

Summary The degree of methylation at the 5 and 3 CCGG sequences flanking the variable number of tandem repeat (VNTR) region of the DXS255 locus at Xp11.22 was analysed separately in several haematopoietic cell lineages. The 5 CCGG site on active chromosomes was found to be completely methylated in B and T lymphocytes and granulocytes. Methylation of the 5 site on inactive X chromosomes differed between females (0%–60%), but was consistent in different cell lineages obtained from individual females. In contrast, methylation at the 3 CCGG site on active chromosomes was found to vary in B lymphocytes (40%–100%), whereas complete methylation was found in T lymphocytes and granulocytes. The extent of methylation on inactive X chromosomes was found to differ significantly between B lymphocytes (17%), T lymphocytes (54%) and granulocytes (82%). Thus, methylation at the 5 CCGG site seems to be primarily related to the status of X chromosome inactivation, whereas methylation at the 3 CCGG site is mainly subject to cell-lineage-specific influences.     

The Crystal and Molecular Structure of the Complex of 2′3′-Didehydro-2′3′-Dideoxyguanosine with Pyridine

Abstract

The structure of 2′,3′-didehydro-2′,3′-dideoxyguanosine was determined by X-ray crystallographic analysis of the complex with pyridine. The two independent nucleoside molecules have similar, commonly observed glycosyl link (x = -102.3° and -94.2°) and 5′-hydroxyl (y = 54.0° and 47.6°) conformations. The five-membered rings are very planar with r.m.s. deviations from planarity of less than 0.015 A. 2′,3′-Didehydro-2′,3′-dideoxyadenosine has a similar glycosyl link conformation but a different 5′-hydroxyl group orientation and a slightly less planar 5-membered ring.     

A long-range RNA–RNA interaction between the 5′ and 3′ ends of the HCV genome

The RNA genome of the hepatitis C virus (HCV) contains multiple conserved structural cis domains that direct protein synthesis, replication, and infectivity. The untranslatable regions (UTRs) play essential roles in the HCV cycle. Uncapped viral RNAs are translated via an internal ribosome entry site (IRES) located at the 5′ UTR, which acts as a scaffold for recruiting multiple protein factors. Replication of the viral genome is initiated at the 3′ UTR. Bioinformatics methods have identified other structural RNA elements thought to be involved in the HCV cycle. The 5BSL3.2 motif, which is embedded in a cruciform structure at the 3′ end of the NS5B coding sequence, contributes to the three-dimensional folding of the entire 3′ end of the genome. It is essential in the initiation of replication. This paper reports the identification of a novel, strand-specific, long-range RNA–RNA interaction between the 5′ and 3′ ends of the genome, which involves 5BSL3.2 and IRES motifs. Mutants harboring substitutions in the apical loop of domain IIId or in the internal loop of 5BSL3.2 disrupt the complex, indicating these regions are essential in initiating the kissing interaction. No complex was formed when the UTRs of the related foot and mouth disease virus were used in binding assays, suggesting this interaction is specific for HCV sequences. The present data firmly suggest the existence of a higher-order structure that may mediate a protein-independent circularization of the HCV genome. The 5′–3′ end bridge may have a role in viral translation modulation and in the switch from protein synthesis to RNA replication.     

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.     

The occurrence of the syn-C3′ endo conformation and the distorted backbone conformations for C4′-C5′ and P-O5′ in oligo and polynucleotides

Abstract

The nucleoside constituents of nucleic acids prefer the anti conformation (1). When the sugar pucker is taken into account the nucleosides prefer the C2′endo-anti conformation. Of the nearly 300 nucleosides known, about 250 are in the anti conformation and 50 are in the syn-conformation, i.e., anti to syn conformation is 5:1. The nucleotide building blocks of nucleic acids show the same trend as nucleosides. Both the deoxy-guanosine and ribo- guanosine residues in nucleosides and nucleotides prefer the syn-C2′endo conformation with an intra-molecular hydrogen bond (for nucleosides) between the O5′- H and the N3 of the base and, a few syn-C3′endo conformations are also observed. Evidence is presented for the occurrence of the C3′endo-syn conformation for guanines in mis-paired double helical right-handed structures with the distorted sugar phosphate C4′-C5′ and P-O5′ bonds respectively, from g+ (gg) and g- to trans. Evidence is also provided for guanosine nucleotides in left-handed double-helical (Z-DNA) oligo and polynucleotides which has the same syn-C3′endo conformation and the distorted backbone sugar-phosphate bonds (C4′-C5′ and P- O5′) as in the earlier right-handed case.     

5′-Nucleotidase activity in the pineal organ of the pike

Summary To date, it is still unknown whether the metabolism of purine nucleotides and nucleosides plays an important role in the pineal organ of lower vertebrates. We have therefore investigated the sites of 5-nucleotidase activity in the pineal organ of the pike (Esox lucius L.). Various ultracytochemical procedures were used. An intense ecto-5-nucleotidase activity was characteristic of the entire plasma membrane of the phototransducers (cone-like and modified photoreceptor elements) and the interstitial cells, with exception of the portions facing the basal lamina of the pericapillary spaces. Additionally, intracellular sites of activity were also visualized in the inner segment and the pedicle of the phototransducers. Most of the intracellular deposits were apparently cytosolic and only few seemed to be associated with the membrane of the clear synaptic vesicles of the pedicle. Phagocytotic cells in the pineal lumen also showed a strong enzymatic activity on the outer surface of their plasmalemma (in ectoposition). This was apparently not the case for the cell types of the tissues surrounding the pineal vesicle. The present study emphasizes the importance of the occurrence and metabolism of purine nucleotides and nucleosides in a photoreceptive pineal organ.     

Growth and Endogenous Cytokinins in Tobacco Callus as Affected by N-(2-chloro-4-pyridyl)-N′-phenylurea

The effect of N-(2-chloro-4-pyridyl)-N-phenylurea (4PU-30) on the growth and content of endogenous cytokinins of adenine type in tobacco (Nicotiana tabacum L.) callus was investigated. Biomass accumulation in calli grown on Murashige and Skoog (MS) medium with 4PU-30 was higher than that on MS medium with kinetin. The obvious presence of isopentenyladenine type cytokinins and traces of zeatin type cytokinins supposes modification in the endogenous cytokinin metabolism of the tobacco callus grown on 4PU-30.     

Conformational studies on the 2′-deoxy nucleosides

Variable-temperature 220-MHz n.m.r. studies conducted on the 2′-deoxy derivatives of cytidine, thymidine, uridine, adenosine, guanosine, inosine and, to a limited extent, their 5′-phosphate disodium salts, allowed accurate proton-shift and coupling data to be obtained for the 2-deoxy-β-D-erythro-pentofuranosyl portion of the molecule. Conformational analysis, aided by the DAERM method, indicated that the sugar moiety of these molecules has a favored conformation ²V ? ²T₃ ? V₃ and an alternative favored conformation of ⁰V?⁰T₄?V₄.     

On the absolute configuration of 19′-hexanoyloxyfucoxanthin

The esterifying C₆-acid in 19′-hexanoyloxyfucoxanthin has been identified as n-hexanoic acid by GLC of the methyl ester. Ozonolysis of 19′-n-hexanoyloxyfucoxanthin 3-benzoate provided the n-hexanoyloxy derivative of the allenic ketone produced from fucoxanthin 3-benzoate. NMR and CD correlation of the ozonolysis products and NMR of the native carotenoids provided the basis for assignment of the same absolute configuration of the 19′-n-hexanoyloxy derivative (3S, 5R, 6S, 3′S, 5′R, 6′S) as for fucoxanthin. Biosynthetic implications are considered. CD data for 19′-n-hexanoyloxyfucoxanthin, fucoxanthin and some derivatives thereof are reported. Previously unreported minor carotenoids in Coccolithus huxleyi were diadinoxanthin and 3′-desacetyl 19′-n-hexanoyloxy-fucoxanthin.     

Sequence organization of the chloroplast ribosomal spacer ofSpinacia oleracea including the 3′ end of the 16S rRNA and the 5′ end of the 23S rRNA

The 2201-bp spacer between the chloroplast ribosomal 16S and 23S genes ofSpinacia oleracea was sequenced. It contains the genes of the tRNA^Ile (GAU) and tRNA^Ala (UGC) which are both interrupted by introns of respectively 728 and 816 bp. These introns belong to the class II according to the classfication of Michel and Dujon [17]. Comparison of the rDNA spacer sequence of maize, tobacco and spinach indicates that no conserved polypeptide is encoded within the introns of the two tRNA genes and that the two main insertions/deletions between the three plants are located within two loops of the class II introns secondary structure, which is therefore conserved. Based on the sequence complementarity observed between the upstream and downstream parts, of the 16S and 23S rRNA genes, RNase III-like secondary structures involved in the processing of the rRNA precursor are proposed.     

Novel cross-strand three-purine stack of the highly conserved 5′-GA/AAG-5′ internal loop at the 3′-end termini of Parvovirus Genomes

We have used two-dimensional nuclear magnetic resonance (2D-NMR), distance geometry (DG) and molecular dynamics / energy minimization (MD/EM) methods to study a 2×3 asymmetric internal loop structure of the highly conserved `5-(GA)/(AAG)-5 bubble' present at the 3-end hairpin of the single-stranded DNA genome of parvoviruses. This motif contains an unpaired adenosine stacked between two bracketed sheared GA pairs. However, the phenomenal cross-strand G-G and A-A stacking in the tandem sheared GA pairs has undergone considerable change. A novel three-purine stacking pattern is observed instead; the inserted A18 base is completely un-stacked from its neighboring G17 and A19 bases, but well stacked with the cross-strand A4 and G3 bases to form a novel A4/A18/G3 stack that is different from the double G/G, A/A or quadruple G/G/G/G stack present in the 5-(GA)/(AG)-5 or 5-(GGA)/(AGG)-5 motifs. Unlike the bulged purine residue that usually causes about 20 degree kink in the helical axis of the parent helix when bracketed by canonical GC or AT base pairs, no significant kink is observed in the present helix containing a bulged-adenine that is bracketed by sheared G A pairs. The phosphodiesters connecting G3-A4 and G17-A18 residues adopt unusual torsional angles close to the trans domain, yet that connecting A18-A19 residues resumes the normal (g <sup>–</sup>) value. The well structured `5-(GAA)/(AG)-5' internal loop in the parvovirus genomes explains its resistance to single-strand specific endonuclease susceptibility.