[Oligonucleotides with peptide internucleotide linkage. A novel class of modified oligonucleotides].

Oligonucleotide analogues with replacement of one or more internucleotide phosphodiester linkages with glycine, L- and D-alanine residues have been synthesized (C3'-NH-C(O)-CH(X)-NH-C(O)-C4', X = H, (S)-CH3 and (R)-CH3). The stability of the duplexes formed by the modified oligonucleotides and their wild-type complements have been studied. Incorporation of glycine and L-alanine residues have been shown to substantially decrease the stability the modified duplexes in comparison with that of the wild-type ones (DeltaT(m) approximately -2 degrees C per modification), while the analogs with D-alanine-containing linkages appeared to form duplexes with increased stability (DeltaT(m), approximately +0.

[Synthesis of 5'-deoxy-5'-ethoxycarbonylmethyl nucleosides, the precursors of oligonucleotides with the amide internucleoside bond C3'-NH-C(O)-CH2-C5'].

A method for the synthesis of 5'-deoxy-5'-ethoxycarbonylmethyl nucleosides has been developed. 3-O-Benzyloxymethyl-1,2-O-isopropylidene-alpha-D-allofuranose was oxidized by sodium periodate to form a 5-aldo derivative, which was converted by the reaction with triethylphosphonoacetate in the presence of sodium hydride into a 5-deoxy-5-ethoxycarbonylmethylene derivative. The hydration of the unsaturated compound gave 5-deoxy-5-ethoxycarbonylmethyl-l,2-O-isopropylidene-alpha-D-ribofuranose.

[Oligonucleotide analogues containing internucleotide C3'-CH2-C(O)-NH-C5' bonds].

A dinucleoside bearing an amide internucleotide C3'-CH2-C(O)-NH-C5' bond was synthesized by the interaction of 3'-deoxy-3'-carboxylmethylribothymidine-2',3'-lactone obtained by hydrolysis of 2'-O-acetyl-5'-O-benzoyl-3'-deoxy-3'-ethoxycarboxylmethylribothymidine with 5'-deoxy-5'-amino-3'-O-(tert-butyldimethylsilyl)thymidine. After standard manipulations with protective groups, the dinucleoside was converted into 3'-O-(2-cyanoethyl-N,N'-diisopropylphosphoroamidite), which was used for the synthesis of modified oligonucleotides on an automatic synthesizer. Duplex melting curves formed by modified and complementary natural oligonucleotides were measured and the melting temperatures and thermodynamic parameters of duplex formation were calculated.

[Synthesis of 3'-deoxy-3'-carboxymethylnucleosides, precursors of oligonucleotides with an amide internucleoside bond].

An improved method for the synthesis of 3-deoxy-3-carboxymethylnucleosides was suggested. Oxidation of 5-O-benzoyl-l,2-O-isopropylidene-alpha-D-xylofuranose resulted in the 3-keto derivative, which was treated with triethylphosphonoacetate in the presence of sodium hydride to obtain the 3-deoxy-3-ethoxycarbonylmethylene derivative. Hydrogenation of the unsaturated compound proceeded strictly stereospecifically and gave the product with the ribo configuration.

[Oligonucleotide analogues containing the internucleotide linker C3'-NH-CO-CH2-N(CH3)-C5'].

Oligonucleotide analogues were synthesized whose internucleoside linker contains an amide bond and a methylamino group (C3'-NH-CO-CH2-N(CH3)-C5'). Melting curves for duplexes formed by modified oligonucleotides and natural oligonucleotides complementary to them were measured, and the melting temperatures and thermodynamic parameters of duplex formation were calculated. The introduction of one modified dinucleoside linker into the oligonucleotide only slightly decreases the melting temperatures of these duplexes compared with unmodified ones.

[Oligonucleotide analogues bearing an acyclonucleoside linked by an internucleotide amide bond].

Oligonucleotide analogues bearing an acyclocytidine linked to thymidine by an amide (3'-O-CH2-CO-N-5') bond were synthesized. Melting curves of duplexes formed by modified oligonucleotides and complementary natural oligomers were obtained and thermodynamic parameters of their formation were measured. Replacement of dCpT by a modified dinucleotide only moderately decreased the melting temperature of these modified duplexes in comparison with unmodified duplexes containing complementary natural bases.

[Oligodeoxynucleotides containing substituted 4-nitroindoles: synthesis and study of their DNA duplexes].

The synthesis of oligonucleotides containing 1-(2-deoxy-beta-D-ribofuranosyl)-2-methyl-4-nitroindole and 1-(2-deoxy-beta-D-ribofuranosyl)-2-phenyl-4-nitroindole is described. The synthesized modified oligonucleotides were used for studying the stability of intermolecular DNA duplexes with one unnatural strand and for evaluation of discriminating potential of 2-methyl- and 2-phenyl-4-nitroindoles toward nucleic bases. For comparison, an unmodified oligonucleotide and oligonucleotides bearing 5-nitroindole were used.

[Theoretical study of the structure of adenosine deaminase complexes with adenosine analogues: I. Aza-, deaza- and isomeric azadeazaanalogues of adenosine].

The conformational models of the active site of adenosine deaminase (ADA) and its complexes in the basic state with adenosine and 13 isosteric analogues of the aza, deaza, and azadeaza series were constructed. The optimization of the conformational energy of the active site and the nucleoside bound with it in the complex was achieved in the force field of the whole enzyme (the 1ADD structure was used) within the molecular mechanics model using the AMBER 99 potentials. The stable conformational states of each of the complexes, as well as the optimal conformation of the ADA in the absence of ligand, were determined.

[Binding of unnatural alpha,beta-oligocytidylates with DNA duplexes].

Binding of short fluorescently labeled AT-containing DNA duplexes with modified oligocytidylates is studied. The latter are modified to contain unnatural alpha-anomers along with natural beta-nucleotides; the nucleotide composition is selected according to putative pattern of unconventional triplex formation between duplex and oligomer bases. Nondenaturing gel electrophoresis is used to study complexation of fluorescent duplexes with cytidyl oligomers and oligocytidylate self-association at low temperatures.

[Theoretical study of antagonists and inhibitors of mammalian adenosine deaminase. II. Isomeric aza-deazaanalogues of adenosine].

Isomeric aza-deazaanalogues of adenosine and their N1-protonated forms (except for that of 8-aza-1-deazaadenosine) were studied by computer modeling to find a relationship between their molecular structures and the properties as substrates for the mammalian adenosine deaminase. The atomic charge distribution and maps of the electrostatic potential around their van der Waals molecular surface were calculated using the ab initio STO-3G method. The conformational studies were carried out by the MM+ method of molecular mechanics.

[Theoretical study of antagonists and inhibitors of mammalian adenosine deaminase. I. Adenosine and its aza- and deaza-analogs].

Aza- and deazaanalogues of adenosine, including their 1-protonated forms (except for that of 1-deazaadenosine), were studied by computer computation to find a relationship between their molecular structures and substrate properties for the mammalian adenosine deaminase. The atomic charge distribution and maps of the electrostatic potential around their van der Waals molecular surface were calculated for these compounds using the ab initio STO-3G method. The conformational studies were carried out by the MM+ method of molecular mechanics.

[Enhancing the stability of oligonucleotide duplexes. The effect of adding 1-(2'-deoxy-beta-d-ribofuranosyl)-5-nitroindole].

We studied the properties of DNA duplexes containing 5-nitroindole (N) in one of the chains. We synthesized 8-membered oligos with N at the 5' or at the 3' end: 5'-d(NXGACCGTC)-3' or 5'-d(GACCGTCXN)-3', where X is one of the four natural bases, making all four kinds of oligos with and without N. We also prepared 11-membered oligos complementary to the above octanucleotides: 5'-d(TGACGGTCYZT)-3' and 5'-d(TZYGACGGTCT)-3', where Y and Z are A, G, C, or T.

[DNA sequencing by hybridization with oligonucleotides immobilized in a gel. Chemical ligation as a method of expanding the prospects for the method].

Chemical ligation was used to obtain a series of modified DNA duplexes containing a substituted pyrophosphate internucleotide bound in a given site of the sugar-phosphate backbone. The efficiency of chemical ligation was shown to depend on the structure of the synthesis center for the modified internucleotide bond, thermosiability of the initial DNA complexes, as well as the nature of the non-nucleotide substituent. Maximal yields (up to 77%) were obtained with DNA complexes of regular structure using for condensation the H-butylamide oligonucleotide derivatives on the terminal phosphate group.

[The hierarchy of complexes and compact structures of trivaline with nucleic acids. III. Complexes of trivaline with trinucleotides forms a rod-like structure with length of about 1000 A in solution].

We demonstrated the ability of trivaline in the course of interaction with certain trinucleotides in solution to form extended fibre-like structures with lengths of up to several thousand angstroms. Such structures were observed for complexes of trivaline with both deoxyribo- and ribonucleotides with homopurine, homopyrimidine, or random sequences, with or without terminal 5'-phosphate. A model of organization of such structures is proposed.

[Reconstruction of a sequenced sequence using results of stacked hybridization with an oligonucleotide matrix].

The efficiency of additional rounds of continuous stacking hybridization in DNA sequence reconstruction by hybridization with oligonucleotide matrix (SHOM) is considered. At first, DNA is hybridized with a matrix of oligonucleotides of the length L. The overlapping of the tuples which have formed perfect duplexes with the DNA, on the one hand, has enabled us to reconstruct unambiguously a part of the sequence, and on the other hand, suggested a modified scheme for reconstructing the remaining part.

[Compounds, similar to acyclovir. VIII. Synthesis and antiviral activity of (R/S)-5-hydroxy-4-hydroxymethyl-3-oxapent-2-yl derivatives of nucleic bases].

The (R/S)-5-hydroxy-4-hydroxymethyl-3-oxapent-2-yl derivatives of the uracil, thymidine, cytosine, adenine, guanine and 1,2,4-triazol-3-carboxamide were synthesized using 1,3-diacetoxy-2-(1-acetoxy)propane and 1,3-dichloro-2-(1-chlorethoxy)propane as alkylating agents. The guanine derivatives exhibited activity against HSV-1 (chemotherapeutic index 32).

[Parallel DNA helices. Conformational analysis of regular poly(dG).poly(dC) helices with different variants of base binding].

We have performed a conformational analysis of DNA double helices with parallel directed backbone strands. The calculations were made for homopolymers poly(dG).poly(dC).

[A triple-stranded "clip" from the oligonucleotide 3'-(dA)10-pO(Ch2Ch2O)3p-(dT)10-pO(CH2CH2O)3-p-(dT)10(-5)].

The temperature dependence of the UV- and CD-spectra of the oligonucleotides 3'-d(A)10-L-(T)10-5' [anti(AT)], 3'-d(A)10-L-d(T)10-3' [par(AT)] and 3'-d(A)10-L-(dT)10-L-(dT)10-5' [tripl(ATT)] (L = -PO(CH2CH2O) 3p-) in the phosphate buffer at pH 7 under different concentrations of NaCL and in the presence or absence of 0.01 M MgCl2 was studied. All registered structural changes are the result of intramolecular processes if the concentrations of the oligonucleotides is low (about 2.

[DNA sequencing by hybridization with an oligonucleotide matrix (SHOM). The theory of DNA elution after hybridization].

The theoretical treatment of the process of washing out of a single stranded DNA fragment after hybridization with short oligonucleotides immobilized within the polyacrylamide gel layer is presented. The theory describes satisfactorily the main body of experimental findings, obtained earlier in connection with the elaboration of a new DNA sequencing method based on hybridization with the matrix of immobilized oligonucleotides [K.R.