RESUMEN

A T-T dimer characterized by an amide linkage to replace the phosphodiester backbone has been synthesized using a modified radical strategy. The new synthetic approach makes use of a thymidin-3'-yl phosphorodithioate derivative as a precursor of 3'-allyl-3'-deoxythymidine. Standard chemical transformations of this derivative led to the desired T-T dimer incorporating an amide bond. The latter was irradiated with 254 nm wavelength light to yield mainly cyclobutane and [6-4] photoadducts.

Asunto(s)

RESUMEN

Thieno analogues of the potent and selective furo-pyrimidine anti-VZV nucleoside family are herein reported. The compounds retain full antiviral potency in comparison to the furo parent.

Asunto(s)

RESUMEN

Thermal denaturation experiments have established that an oligonucleotide incorporating the artificial nucleobase S, does form a stable triplex with a double stranded DNA which exhibits a pyrimidine interruption within the oligopurine sequence.

Asunto(s)

RESUMEN

A short route to pyrimidine locked nucleosides has been developed for their incorporation in triplex forming oligonucleotides (TFO). Compared to oligonucleotides built with standard nucleosides, the modified TFOs containing 3'-endo blocked residues formed, with their corresponding DNA duplexes, more stable triple helix systems, an effect which might be ascribed to the 3'-endo pucker of the modified nucleoside residues.

Asunto(s)

RESUMEN

Sera of some patients afflicted with the inflammatory disease myositis contain antibodies of the anti-PL-12 type. A fraction of these polyclonal autoantibodies specifically precipitates the fully matured human tRNA(Ala) bearing the anticodon IGC (PL-12 antigen). Earlier work (Bunn & Mathews, 1987, Science 238:116-119) had shown that the epitopes are located entirely within the anticodon stem-loop of the tRNA(Ala). Here we demonstrate that human anti-tRNA(Ala) autoantibodies immunoprecipitate a synthetic polyribonucleotide containing inosine (I) and N1-methylinosine (m1I) separated by 2 nt as in the anticodon stem-loop of human tRNA(Ala). The shortest polyribonucleotide that can be immunoprecipitated corresponds to the pentanucleotide IpGpCpm1IpUp, which corresponds to part of the anticodon loop of human tRNA(Ala) and lacks the stem-loop structure. The efficiency of immunoprecipitation was about four times greater with longer polyribonucleotides capable of forming a stem-loop structure, and was abolished by altering the relative positions of I and m1I within the synthetic polynucleotide. Synthetic oligodeoxyribonucleotide analogs of the tRNA(Ala) stem-loop, containing the sequence dIpdGdCdm1Ip, are not antigenic. Our results show that human anti-tRNA(Ala) autoantibodies selectively recognize chemical details of modified nucleotides (the 6-keto group of inosine-34 and the 6-keto group and the N1-methyl groups of N1-methylinosine-37) within an anticodon loop structure of a tRNA molecule. We also describe the chemical synthesis of the phosphoramidite derivatives corresponding to N1-methylinosine and N1-methyl-2'-deoxyinosine for use in the automatic chemical synthesis of oligonucleotides containing N1-methylinosine and N1-methyl-2'-deoxyinosine.

Asunto(s)

RESUMEN

The conformation in solution of a small bipartite I-III hammerhead ribozyme has been deduced from the photo-crosslinks formed between cleavable ribo-deoxysubstrates appropriately substituted with the probe deoxy-4-thiouridine and ribozyme residues. The ribozyme-substrate complex is able to adopt a Y-like structure with stems I and II in close proximity in the presence of 400 mM Na+ only. Indeed, a cross-link joining stem I (1.6) to loop II (AL2.4) forms in significant amount under these conditions. This cross-linked complex furthermore elicits, upon Mg2+ addition, a catalytic activity similar to that exhibited by the complexes cross-linked at the distal ends of either stem I or stem III or of the non-substituted bipartite complex. This shows that the reaction mechanism is fully compatible with a strong structural constraint between stems I and II and that sodium ions at high concentration (400 mM) are able to promote a proper folding of hammerhead ribozymes. None of the multiple cross-links formed within the ribozyme core (probe in position 16.1 or 1.1) was found catalytically active. The cross-link patterns nevertheless indicate a higher flexibility of the core in Na+ than in Mg2+. While most of the cross-links can be accommodated by the Y solution structure, some of them (16.1 to U4 and 2.1) definitely can not, suggesting that additional alternative inactive conformations exist in solution.

Asunto(s)

RESUMEN

The binding of Escherichia coli and Lactococcus lactis Fapy-DNA glyosylase (Fpg) proteins to DNA containing either cyclic or non-cyclic abasic (AP) site analogs was investigated by electrophoretic mobility shift assay (EMSA) and by footprinting experiments. We showed that the reduced AP site is the best substrate analog for the E.coli and L.lactis enzymes ( K Dapp = 0.26 and 0.5 nM, respectively) as compared with the other analogs tested in this study ( K Dapp >2.8 nM). The 1,3-propanediol (Pr) residue-containing DNA seems to be the minimal AP site structure allowing a Fpg specific DNA binding, since the ethyleneglycol residue is not specifically bound by these enzymes. The newly described cyclopentanol residue is better recognized than tetrahydrofuran (for the E.coli Fpg, K Dapp = 2.9 and 25 nM, respectively). These results suggest that the hemiacetal form of the AP site is negatively discriminated by the Fpg protein suggesting a hydrogen bond between the C4'-hydroxyl group of the sugar and a Fpg residue. High-resolution hydroxyl radical footprinting using a duplex containing Pr shows that Fpg binds to six nucleotides on the strand containing the AP site and only the base opposite the lesion on the undamaged complementary strand. This comparative study provides new information about the molecular mechanism involved in the Fpg AP lyase activity.

Asunto(s)

RESUMEN

In the past few years thionucleobases have been extensively used as intrinsic photolabels to probe the structure in solution of folded RNA molecules and to identify contacts within nucleic acids and/or between nucleic acids and proteins, in complex nucleoprotein assemblies. These thio residues such as 4-thiouracil found in E. coli tRNA and its non-natural congeners 4-thiothymine, 6-thioguanine and 6-mercaptopurine absorb light at wavelengths longer than 320 nm and, thus, can be selectively photoactivated. Synthetic or enzymatic procedures have been established, allowing the random or site-specific incorporation of thionucleotide(s) within a RNA (DNA) chain which, in most cases, retains unaltered structural and biological properties. Owing to the high photoreactivity of their triplet state (intersystem yield close to unity), 4-thiouracil and 4-thiothymine derivatives exhibit a high photocrosslinking ability towards pyrimidines (particularly thymine) but also purines. From the nature of the photoproducts obtained in base or nucleotide mixtures and in dinucleotides, the main photochemical pathway was identified as a (2 + 2) photoaddition of the excited C-S bond onto the 5, 6 double bond of pyrimidines yielding thietane intermediates whose structure could be characterized. Depending on the mutual orientation of these bonds in the thietanes, their subsequent dark rearrangement yielded, respectively, either the 5-4 or 6-4 bipyrimidine photoadduct. A similar mechanism appears to be involved in the formation of the unique photoadduct formed between 4-thiothymidine and adenosine. The higher reactivity of thymine derived acceptors can be explained by an additional pathway which involves hydrogen abstraction from the thymine methyl group, followed by radical recombination, leading to methylene linked bipyrimidines. The high photocrosslinking potential of thionucleosides inserted in nucleic acid chains has been used to probe RNA-RNA contacts within the ribosome permitting, in particular, the elucidation of the path of mRNA throughout the small ribosomal subunit. Functional interactions between the mRNA spliced sites and U RNAs could be detected within the spliceosome. Analysis of the photocrosslinks obtained within small endonucleolytic ribozymes in solution led to a tertiary folded pseudo-knot structure for the HDV ribozyme and allowed the construction of a Y form of a hammerhead ribozyme, which revealed to be in close agreement with the structure observed in crystals. Thionucleosides incorporated in nucleic acids crosslink efficiently amino-acid residues of proteins in contact with them. Despite the fact that little is known about the nature of the photoadducts formed, this approach has been extensively used to identify protein components interacting at a defined nucleic acid site and applied to various systems (replisome, spliceosome, transcription complexes and ribosomes).

Asunto(s)

Asunto(s)

RESUMEN

A trans-acting system has been designed in order to explore the three-dimensional structure of the anti-genomic HDV ribozyme. In this system, the substrate (SANT) is associated by base-pairing to the catalytic RNA (RzANT) forming helix H1. RzANT is able to cleave specifically the RNA substrate as well as a deoxysubstrate analogue containing a single ribocytidine at the cleavage site (position -1). This demonstrates that such deoxysubstrate analogues are valuable tools for structural studies of this ribozyme domain. They form however weak complexes with RzANT which is due in part to their ability to fold as stable hairpins unlike the RNA substrate. Using a set of full deoxy or of mixed deoxy-ribo substrate analogues site-specific substituted with the photoaffinity probe deoxy-4-thiouridine, ds4U, at a defined position, we were able to determine a number of long range contacts between the substrate and the ribozyme core. In particular, crosslinks between substrate position -1 and position -2 with residues C15, G19 and C67, thought to be involved in the ribozyme catalytic site, were detected. A three dimensional model of the antigenomic ribozyme system, derived from the structure proposed by Tanner et al. [Current Biol (1994) 4, 488-498] for the genomic system was constructed. Apart from residue deletion or insertion, only minor accommodations were needed to account for all photocrosslinks but one which is attributed to an alternative hybridization of the substrate with the ribozyme. This study therefore further supports the structure proposed by Tanner et al. for the pseudoknot model.

Asunto(s)

RESUMEN

Inosine (6-deaminated adenosine) is a characteristic modified nucleoside that is found at the first anticodon position (position 34) of several tRNAs of eukaryotic and eubacterial origins, while N1-methylinosine is found exclusively at position 37 (3' adjacent to the anticodon) of eukaryotic tRNA(Ala) and at position 57 (in the middle of the psi loop) of several tRNAs from halophilic and thermophilic archaebacteria. Inosine has also been recently found in double-stranded RNA, mRNA and viral RNAs. As for all other modified nucleosides in RNAs, formation of inosine and inosine derivative in these RNA is catalysed by specific enzymes acting after transcription of the RNA genes. Using recombinant tRNAs and T7-runoff transcripts of several tRNA genes as substrates, we have studied the mechanism and specificity of tRNA-inosine-forming enzymes. The results show that inosine-34 and inosine-37 in tRNAs are both synthesised by a hydrolytic deamination-type reaction, catalysed by distinct tRNA:adenosine deaminases. Recognition of tRNA substrates by the deaminases does not strictly depend on a particular "identity' nucleotide. However, the efficiency of adenosine to inosine conversion depends on the nucleotides composition of the anticodon loop and the proximal stem as well as on 3D-architecture of the tRNA. In eukaryotic tRNA(Ala), N1-methylinosine-37 is formed from inosine-37 by a specific SAM-dependent methylase, while in the case of N1-methylinosine-57 in archaeal tRNAs, methylation of adenosine-57 into N1-methyladenosine-57 occurs before the deamination process. The T psi-branch of fragmented tRNA is the minimalist substrate for the N1-methylinosine-57 forming enzymes. Inosine-34 and N1-methylinosine-37 in human tRNA(Ala) are targets for specific autoantibodies which are present in the serum of patients with inflammatory muscle disease of the PL-12 polymyositis type. Here we discuss the mechanism, specificity and general properties of the recently discovered RNA:adenosine deaminases/editases acting on double-stranded RNA, intron-containing mRNA and viral RNA in relation to those of the deaminases acting on tRNAs.

Asunto(s)

RESUMEN

The thymidine analogue 4-thiothymidine (s4T) strongly absorbs light at wavelengths in the UVA range (lambda max 335 nm) and we have examined the photoinactivation of vaccinia and herpes simplex viruses grown in the presence of this nucleoside. The cells used in this study (Vero, mouse 1D-TK+) were able to grow at the same rate when cultured in the presence of 2 mM s4T or 2 mM thymidine, albeit at a slower rate than control cells. Consistent with this finding, viruses grown in the presence of 1-4 mM s4T were obtained in reduced yield but retained full infectivity. Both viruses were specifically inactivated by irradiation with 365 nm light and their photosensitivity, as measured by the initial slope of the inactivation curve, increased in parallel with the concentration of s4T added to the culture medium. More than 90% of vaccinia virus grown in the presence of 4 mM s4T was inactivated. Organomercurial agarose chromatography of sheared DNA isolated from vaccinia virus grown in the presence of 2 mM s4T showed that approximately 2.5% of DNA fragments were specifically retained, as compared to 0.2% for control DNA. This value corresponds to at least one s4T residue incorporated per 30,000 nucleotides of vaccinia virus DNA. In fact, it is likely that this ratio is actually approximately 10 times higher because of the incomplete retention of control thiolated oligodeoxynucleotides.(ABSTRACT TRUNCATED AT 250 WORDS)

Asunto(s)

RESUMEN

The hammerhead ribozyme is a small catalytic RNA motif made up of 3 base-paired stems connected by conserved sequences which are essential for catalysis. We have modelled its 3 dimensional structure, taking advantage of proximity data between several substrate and ribozyme residues determined by photo-crosslinking experiments. It is characterized by an Y shape of the 3 stems stabilized in the central core by a network of hydrogen bonds involving in particular 2 non Watson-Crick G:A base-pairs. The 5' conserved sequence CUGA makes a sharp turn, the G residue exchanging hydrogen bonds with a conserved base-pair of stem III. The substrate is stretched at the cleavage site. Overall this structure is consistent with that deduced from X-ray crystallography but differences are observed at the level of the CUGA turn.

Asunto(s)

RESUMEN

The conformation of a hammerhead ribozyme domain, formed between a 35-mer ribozyme and its 14-mer substrate, was studied under cleavage conditions with non-cleavable substrate analogues. Each analogue substrate contained a single 2'-deoxy-4-thiouridine that formed specific intermolecular crosslinks within the ribozyme-substrate complex upon irradiation with 365 nm light. The residues at positions 7 and 8 to 9 (the cleavage site) were found in contact with several bases of the ribozyme 5' conserved region regardless of whether the substrate was all-RNA, with a single deoxynucleotide at the cleavage site, or all-DNA. These contacts were observed in the presence of either 20 mM Mg2+ or 200 mM Na+. The multiple crosslinks generated between the ribozyme central core and each of the three substrates suggest the existence of several folded conformers of the ribozyme. A ribozyme mutation (A28U), which abolishes the catalytic activity, was shown to strongly affect the pattern of crosslinks; this argues for the presence of multiple folded conformers of the ribozyme some of which may be catalytically inactive.

Asunto(s)

RESUMEN

The conformation of the bulge formed between the hairpin ribozyme R derived from (-)sTRSV and noncleavable all-deoxy-substrate analogues dS was studied by photoaffinity labelling. The photolabel deoxy-6-thioinosine was inserted in place of residue G+1 or A-1, located immediately 3' and 5' to the cleavage site, respectively. Upon 335 nm irradiation both substrate analogues were linked to ribozyme at multiple sites. Formation of the R-dS complex is absolutely required for the generation of the crosslinks, since they were detected neither in the absence of Mg2+ nor upon using a ds6I containing 14-mer, unable to interact with the ribozyme. The fraction of ribozyme crosslinked at completion of the reaction increased with increasing analogue concentrations, yielding apparent KD values for the R-dS complex in the range of 5 +/- 2 microM. Multiple crosslinks between ribozyme and each one of the substrate analogues provide clear evidence for a large flexibility of the bulge region.

Asunto(s)

RESUMEN

Hairpin ribozymes derived from (-)sTRSV RNA exhibit substantial cleavage activity when wobble GU base pairs are introduced in place of the AU pairs normally involved in helices I and II between substrate and ribozyme. This finding prompted us to synthesize by in vitro transcription a new hairpin ribozyme, active against a 14-mer substrate derived from a conserved HIV sequence. Interactions of the canonical and anti-HIV hairpin ribozymes with non cleavable DNA substrate analogues containing the photoaffinity probe deoxy-4-thiouridine (ds4U) at a single site were investigated. Upon near-UV light irradiation (365 nm), all these substrate analogues were covalently attached to ribozyme via single or multiple crosslinks. In contrast, no crosslinks were detected using either a DNA substrate analogue lacking ds4U or a ds4U containing oligomer unrelated to the substrate sequence. As expected, if the dissociation constant is in the range of 5-15 microM, the yield of crosslinked ribozyme increased markedly with increasing the substrate analogue concentration. The ribozyme residues involved in the crosslinks were determined by RNA sequencing. The pattern of crosslinks obtained with the two ribozyme systems provides additional evidence in support of the consensus secondary structure proposed for the hairpin domain. Minor alternative conformations were detected in the case of the (-)sTRSV system.

Asunto(s)

RESUMEN

A series of nucleosides (2-4) that derive from adenosine by chain extension at the 5'-end have been synthesized starting from the known phosphonate 7. The latter was first combined with 4-pentenal to give 8, which underwent chemical manipulations to provide triacetate 11, which was found suitable for the adenylation step. Further transformations, among them the Hofmann degradation of the amide group of compound 13, and final deprotection gave nucleosides 2-4. They were considered as analogues of sinefungin (1) and tested for their antileishmanial activity together with compounds 5 and 6, which were obtained independently. All the modifications with respect to sinefungin resulted in nearly complete loss of growth inhibitory activity. These results indicate that the 9' terminal amino and carboxyl groups are necessary for the activity and that the presence of the amino group at C-6' is not sufficient to maintain the antileishmanial effect. Some of the analogues however could antagonize or reverse the inhibitory activity of sinefungin (1).

Asunto(s)

Asunto(s)

Asunto(s)

Asunto(s)