{"id":252,"date":"2021-10-18T12:52:40","date_gmt":"2021-10-18T09:52:40","guid":{"rendered":"https:\/\/conf.icgbio.ru\/bgrs\/?page_id=252"},"modified":"2021-10-19T10:05:04","modified_gmt":"2021-10-19T07:05:04","slug":"authors-index","status":"publish","type":"page","link":"https:\/\/conf.icgbio.ru\/bgrs\/abstracts\/authors-index\/","title":{"rendered":"Authors index"},"content":{"rendered":"<h1>A<\/h1>\n<ul>\n<li><strong>AFONNIKOV D.<\/strong>\n<ul>\n<li>FUNCTIONAL RELATIONSHIP BETWEEN AMINO ACID RESIDUES AT N- AND C-TERMINI OF DNA-BINDING REGIONS OF TRANSCRIPTION FACTORS CREB AND AP-1 REVEALED BY ANALYZING THE PAIR CORRELATIONS OF AMINO ACID SUBSTITUTIONS.<br \/>\n<i>AFONNIKOV D.,\u00a0TITOV I.I.<\/i><\/li>\n<li>STATISTICAL RELATION BETWEEN THE POSITIONS OF THE ALPHA-HELIX IN THE ZINC-FINGER DNA-BINDING DOMAIN: RESULTS FROM THE PHAGE DISPLAY DATA ANALYSIS.<br \/>\n<i>AFONNIKOV D.,\u00a0WINGENDER E.<\/i><\/li>\n<li>THE PRACTICAL STUDY OF THE BEHAVIOR OF THE COMPLEX DYNAMIC SYSTEMS ON THE BASIS OF THE LIFE GAME FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>AFONNIKOV D.,\u00a0KOLESOV G.B.,\u00a0MININA A.V.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>AKBEROVA N.<\/strong>\n<ul>\n<li>CONTEXT-FREE METHOD OF PATTERN RECOGNITION IN THE GENETIC TEXTS.<br \/>\n<i>AKBEROVA N.,\u00a0KOLPAKOV A.,\u00a0LEONTIEV A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ALEXANDROV N.<\/strong>\n<ul>\n<li>ON THE NUMBER OF STRUCTURAL FAMILIES IN THE PROTEIN UNIVERSE.<br \/>\n<i>ALEXANDROV N.,\u00a0GO N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ALIEV J.A.<\/strong>\n<ul>\n<li>SOME POSSIBLE ELEMENTS OF TRANSCRIPTION REGULATION OF RICE CHLOROPLAST ENCODED GENES.<br \/>\n<i>SHAHMURADOV I.A.,\u00a0MUSTAFAYEV N.Sh.,\u00a0ALIEV J.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ALVAREZ-BUYLLA ELENA<\/strong>\n<ul>\n<li>FLOWER MORPHOGENESIS IN ARABIDOPSIS THALIANA: A LOGICAL ANALYSIS.<br \/>\n<i>MENDOZA LUIS,\u00a0ALVAREZ-BUYLLA ELENA,\u00a0THIEFFRY DENIS<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>AMIKISHIEV V.G.<\/strong>\n<ul>\n<li>ANALYSIS OF FUNCTIONAL SITE MOTIFS OF MOBILE GENETIC ELEMENTS RELATIVE TO THEIR POSSIBLE MOLECULAR FUNCTIONS.<br \/>\n<i>AMIKISHIEV V.G.,\u00a0RATNER V.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ANANKO E.A.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>PROGRAMS FOR DATA INPUT TO THE TRANSCRIPTION REGULATORY REGIONS DATABASE.<br \/>\n<i>ANANKO E.A.,\u00a0NAUMOCHKIN A.N.,\u00a0FOKIN O.N.,\u00a0FROLOV A.S.<\/i><\/li>\n<li>INTERFERON-INDUCIBLE GENES &#8212; TRANSCRIPTION REGULATORY REGIONS DATABASE (IIG-TRRD).<br \/>\n<i>ANANKO E.A.,\u00a0BAZHAN S.I.,\u00a0BELOVA O.E.<\/i><\/li>\n<li>PLANT-TRRD DATABASE.<br \/>\n<i>GORYACHKOVSKY T.N.,\u00a0ANANKO E.A.,\u00a0PELTEK S.E.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>GENE NETWORKS: A DATABASE AND ITS AUTOMATED VISUALIZATION THROUGH THE INTERNET IN THE GENENET COMPUTING SYSTEM.<br \/>\n<i>ANANKO E.A.,\u00a0KOLPAKOV F.A.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ARKHIPOVA IRINA R.<\/strong>\n<ul>\n<li>SPECIFIC FEATURES OF X-LINKED PROMOTER SEQUENCES IN DROSOPHILA.<br \/>\n<i>ARKHIPOVA IRINA R.<\/i><\/li>\n<li>A PROGRAM FOR CALCULATING GAPPED DINUCLEOTIDE CORRELATIONS IN NUCLEIC ACID SEQUENCES AND ITS APPLICATION TO REVEAL SPECIFIC SEQUENCE FEATURES OF X-LINKED PROMOTERS IN DROSOPHILA.<br \/>\n<i>ARKHIPOVA IRINA R.,\u00a0POKROVSKI SERGEI V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ARRIGO P.<\/strong>\n<ul>\n<li>SELF-ORGANIZING NEURAL NETWORKS HIGHLIGHT POSSIBLE FUNCTIONALLY RELEVANT REGIONS IN THE C-DNA CODING SEQUENCES OF G-PROTEIN COUPLED RECEPTORS.<br \/>\n<i>CASADIO R.,\u00a0ARRIGO P.,\u00a0FARISELLI P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ARSHINOVA T.V.<\/strong>\n<ul>\n<li>STRUCTURE-FUNCTIONAL HOMOLOGY OF THE PROKARYOTIC AND EUKARYOTIC RNA POLYMERASES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0SEDOVA V.M.,\u00a0RAU V.A.,\u00a0TULOKHONOV I.I,\u00a0KOBZEV V.F.,\u00a0ARSHINOVA T.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ARZIEV A.Sh.<\/strong>\n<ul>\n<li>THE LEUCINE MOTIF IN SUBUNITS 6 AND 9 OF PLANT MITOCHONDRIAL ATP SYNTHASE PROVIDING PRESUMABLY THE ASSEMBLY OF THE MEMBRANE PART OF THE ENZYME.<br \/>\n<i>KONSTANTINOV Yu.M.,\u00a0ARZIEV A.Sh.,\u00a0PODSOSONNY V.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ASTAKHOVA T.V.<\/strong>\n<ul>\n<li>SOME PROBLEMS OF GENE RECOGNITION IN PROTIST DNA.<br \/>\n<i>ASTAKHOVA T.V.,\u00a0GELFAND M.S.,\u00a0ROYTBERG M.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>AULCHENKO Yu.S.<\/strong>\n<ul>\n<li>THE EFFICIENCY OF AN APPROXIMATION OF THE LIKELIHOOD BY CUTTING: DEPENDANCE ON A SIZE OF LOOPS IN A PEDIGREE.<br \/>\n<i>AULCHENKO Yu.S.,\u00a0AXENOVICH T.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>AXENOVICH T.I.<\/strong>\n<ul>\n<li>THE EFFICIENCY OF AN APPROXIMATION OF THE LIKELIHOOD BY CUTTING: DEPENDANCE ON A SIZE OF LOOPS IN A PEDIGREE.<br \/>\n<i>AULCHENKO Yu.S.,\u00a0AXENOVICH T.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>B<\/strong><\/h1>\n<ul>\n<li><strong>BABENKO V.N.<\/strong>\n<ul>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>PROMOTERS: AT\/GC CONTENT AND PROPERTIES OF TATA BOX.<br \/>\n<i>KOSAREV P.,\u00a0BABENKO V.N.<\/i><\/li>\n<li>COMBINATORIAL IDENTIFICATION OF PROMOTERS INDUCED UPON IMMUNE CELL ACTIVATION.<br \/>\n<i>KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0BABENKO V.N.,\u00a0WINGENDER E.<\/i><\/li>\n<li>SEARCH FOR DEGENERATE OLIGONUCLEOTIDE MOTIFS IN TRANSCRIPTION FACTOR BINDING SITES AND EUKARYOTIC PROMOTERS (THE SYSTEM ARGO).<br \/>\n<i>VISHNEVSKY O.V.,\u00a0PODKOLODNAYA O.A.,\u00a0BABENKO V.N.<\/i><\/li>\n<li>STRUCTURAL AND COMPOSITIONAL FEATURES OF 5\u2019 UNTRANSLATED REGIONS OF HIGHER PLANT MRNAS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PILUGIN M.V.,\u00a0KOLPAKOV F.A.,\u00a0BABENKO V.N.,\u00a0KVASHNINA E.V.,\u00a0SHUMNY V.K.<\/i><\/li>\n<li>MGL: AN OBJECT-ORIENTED COMPUTER SYSTEM FOR MOLECULAR GENETIC DATA MANAGEMENT, ANALYSIS, AND VISUALIZATION.<br \/>\n<i>KOLPAKOV F.A.,\u00a0BABENKO V.N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BAJIC I.V.<\/strong>\n<ul>\n<li>A NEW METHOD OF SPECTRAL ANALYSIS OF DNA\/RNA AND PROTEIN SEQUENCES.<br \/>\n<i>BAJIC V.B.,\u00a0BAJIC I.V.,\u00a0HIDE W.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BAJIC V.B.<\/strong>\n<ul>\n<li>A NEW METHOD OF SPECTRAL ANALYSIS OF DNA\/RNA AND PROTEIN SEQUENCES.<br \/>\n<i>BAJIC V.B.,\u00a0BAJIC I.V.,\u00a0HIDE W.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BALDI PIERRE<\/strong>\n<ul>\n<li>DNA STRUCTURE IN HUMAN RNA POLYMERASE II PROMOTERS.<br \/>\n<i>PEDERSEN ANDERS GORM,\u00a0BALDI PIERRE,\u00a0CHAUVIN YVES,\u00a0BRUNAK SOREN<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BANSAL A.K.<\/strong>\n<ul>\n<li>CONSERVED RNA STRUCTURES REGULATE INITIATION OF TRANLSATION OF ESCERICHIA COLI AND HAEMOPHILUS INFLUENZAE RIBOSOMAL PROTEIN OPERONS.<br \/>\n<i>VITRESCHAK A.,\u00a0BANSAL A.K.,\u00a0GELFAND M.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BATURIN V.<\/strong>\n<ul>\n<li>PROTEIN 3D ALIGNMENT SOFTWARE FOR INTEL COMPUTERS.<br \/>\n<i>VTYURIN N.,\u00a0BATURIN V.,\u00a0GULIN V.,\u00a0GORYACHEV N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BAZHAN S.I.<\/strong>\n<ul>\n<li>INTERFERON-INDUCIBLE GENES &#8212; TRANSCRIPTION REGULATORY REGIONS DATABASE (IIG-TRRD).<br \/>\n<i>ANANKO E.A.,\u00a0BAZHAN S.I.,\u00a0BELOVA O.E.<\/i><\/li>\n<li>INTEGRATING OF KNOWLEDGE ON REGULATION OF MX1 PROTEIN INDUCTION AND ANTIVIRAL ACTION BY A MATHEMATICAL MODELING APPROACH.<br \/>\n<i>BAZHAN S.I.,\u00a0BELOVA O.E.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BELOVA O.E.<\/strong>\n<ul>\n<li>INTERFERON-INDUCIBLE GENES &#8212; TRANSCRIPTION REGULATORY REGIONS DATABASE (IIG-TRRD).<br \/>\n<i>ANANKO E.A.,\u00a0BAZHAN S.I.,\u00a0BELOVA O.E.<\/i><\/li>\n<li>INTEGRATING OF KNOWLEDGE ON REGULATION OF MX1 PROTEIN INDUCTION AND ANTIVIRAL ACTION BY A MATHEMATICAL MODELING APPROACH.<br \/>\n<i>BAZHAN S.I.,\u00a0BELOVA O.E.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BENTOLILA SIMONE<\/strong>\n<ul>\n<li>MODELING SIGNAL PATHWAYS.<br \/>\n<i>BENTOLILA SIMONE<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BEREZIKOV E.<\/strong>\n<ul>\n<li>TOWARDS UNDERSTANDING OF REGULATION OF NON-LTR RETROTRANSPOSONS: RTE-1 ELEMENT OF THE NEMATODE CAENORHABDITIS ELEGANS.<br \/>\n<i>BEREZIKOV E.,\u00a0BLINOV A.,\u00a0BERGTROM G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BERGTROM G.<\/strong>\n<ul>\n<li>TOWARDS UNDERSTANDING OF REGULATION OF NON-LTR RETROTRANSPOSONS: RTE-1 ELEMENT OF THE NEMATODE CAENORHABDITIS ELEGANS.<br \/>\n<i>BEREZIKOV E.,\u00a0BLINOV A.,\u00a0BERGTROM G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BERIKOV V.B.<\/strong>\n<ul>\n<li>REGRESSION ANALYSIS OF MUTATIONAL SPECTRA.<br \/>\n<i>ROGOZIN I.B.,\u00a0BERIKOV V.B.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BISHOP M.J.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<li>THEATRE: A NOVEL TOOL FOR THE COMPARATIVE INVESTIGATION AND DISPLAY OF EVOLUTIONARY DIVERSITY OF FUNCTIONAL AND STRUCTURAL FEATURES IN DNA SEQUENCES.<br \/>\n<i>EDWARDS Y.J.K.,\u00a0FRITH M.,\u00a0ELGAR G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BLINOV A.<\/strong>\n<ul>\n<li>TOWARDS UNDERSTANDING OF REGULATION OF NON-LTR RETROTRANSPOSONS: RTE-1 ELEMENT OF THE NEMATODE CAENORHABDITIS ELEGANS.<br \/>\n<i>BEREZIKOV E.,\u00a0BLINOV A.,\u00a0BERGTROM G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BLINOV V.M.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<li>INVARIANT SECONDARY STRUCTURE OF ALU REPEATS PREDETERMINES CLUSTERIZATION OF REGULATORY ELEMENTS IN HUMAN GENOME.<br \/>\n<i>BLINOV V.M.,\u00a0UVAROV D.L.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0KISSELEV L.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BOGACHEV S.<\/strong>\n<ul>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BORK PEER<\/strong>\n<ul>\n<li>STRUCTURAL AND FUNCTIONAL ANNOTATION OF GENOMIC SEQUENCES:ASSIGNMENT OF FOLD FAMILY AND SORTING OF PROTEINS WITH RESPECT TO SUBCELLULAR LOCALIZATION.<br \/>\n<i>EISENHABER FRANK,\u00a0BORK PEER,\u00a0HUYNEN MARTIJN,\u00a0ORENGO CHRISTINE,\u00a0SCHULTZ JORG,\u00a0SUNYAEV SHAMIL R.,\u00a0YUAN YANPING<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BOURNE P.<\/strong>\n<ul>\n<li>LIKENESS: A SYSTEM SEARCHING FOR AND ALIGNING SIMILAR PROTEIN CONFORMATIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0SHINDYALOV I.,\u00a0BOURNE P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BRUNAK SOREN<\/strong>\n<ul>\n<li>DNA STRUCTURE IN HUMAN RNA POLYMERASE II PROMOTERS.<br \/>\n<i>PEDERSEN ANDERS GORM,\u00a0BALDI PIERRE,\u00a0CHAUVIN YVES,\u00a0BRUNAK SOREN<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BRUNK B.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BUCHER PHILIPP<\/strong>\n<ul>\n<li>A MODULAR METAPROFILE-BASED SYSTEM FOR PREDICTION AND ANALYSIS OF EUKARYOTIC PROMOTERS.<br \/>\n<i>JUNIER THOMAS,\u00a0KROGH ANDERS,\u00a0BUCHER PHILIPP<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BUGAENKO N.N.<\/strong>\n<ul>\n<li>MINIMUM ENTROPY PRINCIPLE AND CLASSIFICATION OF SYMBOLS FOR REVEALING STATISTICAL REGULARITIES IN A TEXT.<br \/>\n<i>BUGAENKO N.N.,\u00a0GORBAN A.N.,\u00a0SAPOZHNIKOV A.N.<\/i><\/li>\n<li>MAXIMUM ENTROPY PRINCIPLE AND MEASUREMENT OF INFORMATION CONTENT OF GENETIC TEXT.<br \/>\n<i>BUGAENKO N.N.,\u00a0GORBAN A.N.,\u00a0SADOVSKY M.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BUGREEV D.V.<\/strong>\n<ul>\n<li>THE BASIC PRINCIPLES OF DNA RECOGNITION BY SEQUENCE DEPENDENT AND INDEPENDENT ENZYMES.<br \/>\n<i>NEVINSKY G.A.,\u00a0VINOGRADOVA N.L.,\u00a0BUGREEV D.V.,\u00a0ISHENKO A.A.,\u00a0VASYUTINA E.L.,\u00a0ULYANOVA N.P.,\u00a0ZAKHAROVA O.D.,\u00a0KOLOCHEVA T.A.<\/i><\/li>\n<li>INTERPRETATION OF X-RAY ANALYSIS DATA OF THE HUMAN DNA TOPOISOMERASE I ON THE BASIS OF THE HUMAN DNA TOPOISOMERASE I ON THE BASIS OF THE ENZYME.<br \/>\n<i>BUGREEV D.V.,\u00a0VASYUTINA E.L.,\u00a0BUNEVA V.N.,\u00a0NEVINSKY G.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>BUNEVA V.N.<\/strong>\n<ul>\n<li>INTERPRETATION OF X-RAY ANALYSIS DATA OF THE HUMAN DNA TOPOISOMERASE I ON THE BASIS OF THE HUMAN DNA TOPOISOMERASE I ON THE BASIS OF THE ENZYME.<br \/>\n<i>BUGREEV D.V.,\u00a0VASYUTINA E.L.,\u00a0BUNEVA V.N.,\u00a0NEVINSKY G.A.<\/i><\/li>\n<li>LACTOFERRIN IS A NEW TRANSCRIPTIONAL FACTOR HAVING MANY DIFFERENT UNIQUE BIOLOGICAL FUNCTIONS.<br \/>\n<i>KANYSHKOVA T.G.,\u00a0SEMENOV D.V.,\u00a0BUNEVA V.N.,\u00a0NEVINSKY G.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>C<\/strong><\/h1>\n<ul>\n<li><strong>CASADIO R.<\/strong>\n<ul>\n<li>SELF-ORGANIZING NEURAL NETWORKS HIGHLIGHT POSSIBLE FUNCTIONALLY RELEVANT REGIONS IN THE C-DNA CODING SEQUENCES OF G-PROTEIN COUPLED RECEPTORS.<br \/>\n<i>CASADIO R.,\u00a0ARRIGO P.,\u00a0FARISELLI P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CHALEY M.B.<\/strong>\n<ul>\n<li>A PROBABLE MUTUAL RELATIONSHIP BETWEEN LATENT PERIODIC GENE STRUCTURE AND PERIODIC CONFORMATION OF THE PROTEIN.<br \/>\n<i>CHALEY M.B.,\u00a0KOROTKOV E.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CHAUME DENYS<\/strong>\n<ul>\n<li>IMGT ALGORITHM AND RULES FOR IMMUNOGLOBULIN AND T-CELL RECEPTOR MOTIF RECOGNITION.<br \/>\n<i>GIUDICELLI VERONIQUE,\u00a0CHAUME DENYS,\u00a0MENNESSIER GERARD,\u00a0LEFRANC MARIE-PAULE<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CHAUVIN YVES<\/strong>\n<ul>\n<li>DNA STRUCTURE IN HUMAN RNA POLYMERASE II PROMOTERS.<br \/>\n<i>PEDERSEN ANDERS GORM,\u00a0BALDI PIERRE,\u00a0CHAUVIN YVES,\u00a0BRUNAK SOREN<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CHEKMENEV D.S.<\/strong>\n<ul>\n<li>PRE-MRNA SPLICING IN EUKARYOTES &#8212; INTRON STRUCTURE, INTRON DETECTION, ALGORITHMS AND DATA STRUCTURES.<br \/>\n<i>CHEKMENEV D.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CHEREPANOVA E.Yu.<\/strong>\n<ul>\n<li>GENETIC LEVEL OF BIOPROCESSES REGULATION AND BIOSYSTEMS IN EXTREME CONDITIONS.<br \/>\n<i>NEFEDOV V.P.,\u00a0CHEREPANOVA E.Yu.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CHIKISHEVA T.A.<\/strong>\n<ul>\n<li>RECONSTRUCTION OF THE GENOFOND PECULIARITIES OF THE ANCIENT PAZYRYK POPULATION (I-II MILLENIUM BC) FROM GORNY ALTAI ACCORDING TO THE MTDNA STRUCTURE.<br \/>\n<i>VOEVODA M.I.,\u00a0SITNIKOVA V.V.,\u00a0ROMASHCHENKO A.G.,\u00a0CHIKISHEVA T.A.,\u00a0POLOS&#8217;MAK N.V.,\u00a0MOLODIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CHIRIKOVA G.B.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<li>INVARIANT SECONDARY STRUCTURE OF ALU REPEATS PREDETERMINES CLUSTERIZATION OF REGULATORY ELEMENTS IN HUMAN GENOME.<br \/>\n<i>BLINOV V.M.,\u00a0UVAROV D.L.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0KISSELEV L.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CLARK M.S.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>CLYDE A. HUTCHISON<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>COLLADO-VIDES J.<\/strong>\n<ul>\n<li>ANALYSIS OF TRANSCRIPTIONAL FACTORS IN E. COLI.<br \/>\n<i>PEREZ-RUEDA E.,\u00a0VAN HELDEN J.,\u00a0WODAK S.,\u00a0COLLADO-VIDES J.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>D<\/strong><\/h1>\n<ul>\n<li><strong>DAPHNA STRAUSS<\/strong>\n<ul>\n<li>EXTRACTING KOZAK CONSENSUS SEQUENCE USING KLEISLI.<br \/>\n<i>JING CHEN,\u00a0NAM-HAI CHUA,\u00a0DAPHNA STRAUSS,\u00a0LIMSOON WONG<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>DZHELYADIN T.R.<\/strong>\n<ul>\n<li>MOLECULAR MECHANISMS OF PROMOTER-POLYMERASE RECOGNITION. ELECTROSTATIC INTERACTIONS IN PROMOTERS RECOGNIZED BY E.COLI Esigma70.<br \/>\n<i>KAMZOLOVA S.G.,\u00a0DZHELYADIN T.R.,\u00a0SOROKIN A.A.,\u00a0IVANOVA N.N.,\u00a0KUTUZOVA G.I.,\u00a0ESIPOVA N.G.,\u00a0POLOZOV R.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>D\u2019ANGELO D.<\/strong>\n<ul>\n<li>WEBGENE: INTERACTIVE TOOLS FOR PREDICTION AND ANALYSIS OF PROTEIN-CODING GENES STRUCTURE IN INTERNET.<br \/>\n<i>MILANESI L.,\u00a0ROGOZIN I.B.,\u00a0D\u2019ANGELO D.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>E<\/strong><\/h1>\n<ul>\n<li><strong>EDWARDS Y.J.K.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<li>THEATRE: A NOVEL TOOL FOR THE COMPARATIVE INVESTIGATION AND DISPLAY OF EVOLUTIONARY DIVERSITY OF FUNCTIONAL AND STRUCTURAL FEATURES IN DNA SEQUENCES.<br \/>\n<i>EDWARDS Y.J.K.,\u00a0FRITH M.,\u00a0ELGAR G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>EISENHABER BIRGIT<\/strong>\n<ul>\n<li>THE SEQUENCE PATTERN FOR THE GLYCOSYLPHOSPHATIDYL-ANCHOR POSTTRANSLATIONAL MODIFICATION AND ITS RECOGNITION IN PROPROTEIN SEQUENCES.<br \/>\n<i>EISENHABER BIRGIT<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>EISENHABER FRANK<\/strong>\n<ul>\n<li>STRUCTURAL AND FUNCTIONAL ANNOTATION OF GENOMIC SEQUENCES:ASSIGNMENT OF FOLD FAMILY AND SORTING OF PROTEINS WITH RESPECT TO SUBCELLULAR LOCALIZATION.<br \/>\n<i>EISENHABER FRANK,\u00a0BORK PEER,\u00a0HUYNEN MARTIJN,\u00a0ORENGO CHRISTINE,\u00a0SCHULTZ JORG,\u00a0SUNYAEV SHAMIL R.,\u00a0YUAN YANPING<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ELGAR G.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<li>THEATRE: A NOVEL TOOL FOR THE COMPARATIVE INVESTIGATION AND DISPLAY OF EVOLUTIONARY DIVERSITY OF FUNCTIONAL AND STRUCTURAL FEATURES IN DNA SEQUENCES.<br \/>\n<i>EDWARDS Y.J.K.,\u00a0FRITH M.,\u00a0ELGAR G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ELISAPHENKO E.A.<\/strong>\n<ul>\n<li>THREE SUBFAMILIES OF SHORT INTERSPERSED ELEMENTS OF THE DOG GENOME: POSSIBLE ORIGIN AND FUNCTIONS.<br \/>\n<i>KOLESNIKOV N.N.,\u00a0ROGOZIN I.B.,\u00a0LAVRENTIEVA M.V.,\u00a0ELISAPHENKO E.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ESIPOVA N.G.<\/strong>\n<ul>\n<li>MOLECULAR MECHANISMS OF PROMOTER-POLYMERASE RECOGNITION. ELECTROSTATIC INTERACTIONS IN PROMOTERS RECOGNIZED BY E.COLI Esigma70.<br \/>\n<i>KAMZOLOVA S.G.,\u00a0DZHELYADIN T.R.,\u00a0SOROKIN A.A.,\u00a0IVANOVA N.N.,\u00a0KUTUZOVA G.I.,\u00a0ESIPOVA N.G.,\u00a0POLOZOV R.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>F<\/strong><\/h1>\n<ul>\n<li><strong>FALSHINA I.V.<\/strong>\n<ul>\n<li>THE SEQUENCING AND MOLECULAR ANALYSIS OF COXI GENE FRAGMENTS OF WILD PERENNIAL CROP ELYMUS SIBIRICUS L..<br \/>\n<i>FALSHINA I.V.,\u00a0VERBITSKII D.S.,\u00a0ROGOZIN I.B.,\u00a0KONSTANTINOV Yu.M.,\u00a0TAUSON E.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FARISELLI P.<\/strong>\n<ul>\n<li>SELF-ORGANIZING NEURAL NETWORKS HIGHLIGHT POSSIBLE FUNCTIONALLY RELEVANT REGIONS IN THE C-DNA CODING SEQUENCES OF G-PROTEIN COUPLED RECEPTORS.<br \/>\n<i>CASADIO R.,\u00a0ARRIGO P.,\u00a0FARISELLI P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FISHER P.<\/strong>\n<ul>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FOKIN O.N.<\/strong>\n<ul>\n<li>PROGRAMS FOR DATA INPUT TO THE TRANSCRIPTION REGULATORY REGIONS DATABASE.<br \/>\n<i>ANANKO E.A.,\u00a0NAUMOCHKIN A.N.,\u00a0FOKIN O.N.,\u00a0FROLOV A.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FREIER A.<\/strong>\n<ul>\n<li>MOLECULAR DATABASE INTEGRATION: ANALYSIS OF METABOLIC NETWORK CONTROL.<br \/>\n<i>FREIER A.,\u00a0HODING M.,\u00a0HOFESTADT R.,\u00a0LANGE M,\u00a0SCHOLZ U.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FRISCH M.<\/strong>\n<ul>\n<li>COMPEL: A DATABASE ON COMPOSITE REGULATORY ELEMENTS.<br \/>\n<i>KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0FRISCH M.,\u00a0ROMASHCHENKO A.G.,\u00a0KOLCHANOV N.A.,\u00a0WINGENDER E.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FRITH M.<\/strong>\n<ul>\n<li>THEATRE: A NOVEL TOOL FOR THE COMPARATIVE INVESTIGATION AND DISPLAY OF EVOLUTIONARY DIVERSITY OF FUNCTIONAL AND STRUCTURAL FEATURES IN DNA SEQUENCES.<br \/>\n<i>EDWARDS Y.J.K.,\u00a0FRITH M.,\u00a0ELGAR G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FROLOV A.S.<\/strong>\n<ul>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>PROGRAMS FOR DATA INPUT TO THE TRANSCRIPTION REGULATORY REGIONS DATABASE.<br \/>\n<i>ANANKO E.A.,\u00a0NAUMOCHKIN A.N.,\u00a0FOKIN O.N.,\u00a0FROLOV A.S.<\/i><\/li>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<li>B-DNA-VIDEO: AN ACTIVE DATABASE FOR THE SIGNIFICANT B-DNA FEATURES OF TRANSCRIPTION FACTOR BINDING SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0LEVITSKY V.G.,\u00a0PODKOLODNAYA O.A.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>REGULATION MECHANISMS IN BIOLOGICAL SYSTEMS.<br \/>\n<i>KOLCHANOV N.A.,\u00a0MATUSHKIN Yu.G.,\u00a0FROLOV A.S.<\/i><\/li>\n<li>A SYSTEM FOR ACTIVATION OF THE TRRD DATABASE: FURTHER DEVELOPMENT OF GENEEXPRESS.<br \/>\n<i>FROLOV A.S.,\u00a0LAVRYUSHEV S.V.,\u00a0VOROBIEV D.G.,\u00a0GRIGOROVICH D.A.<\/i><\/li>\n<li>RECOGNITION ACCURACY OF DNA FUNCTIONAL SITES CAN BE INCREASED BY AVERAGING PARTIAL RECOGNITIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0KOLCHANOV N.A.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>REVEALING THE CONFORMATIONAL AND PHYSICO-CHEMICAL DNA PROPERTIES APPLICABLE FOR PREDICTING THE ACTIVITY OF DNA FUNCTIONAL SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0PONOMARENKO J.V.,\u00a0FROLOV A.S.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>EUKARYOTIC MRNAS ENCODING ABUNDANT AND SCARCE PROTEINS ARE DISSIMILAR IN MANY STRUCTURAL FEATURES OF 5\u2019-UNTRANSLATED LEADERS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0FROLOV A.S.,\u00a0KISSELEV L.L.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>MGL-PROT: THE ANTHOLOGY-BASED QUERY LANGUAGE FOR THE USER SEARCH FOR THE 3D STRUCTURES AND FUNCTIONS OF PROTEINS IN THE WWW-AVAILABLE DATABASES.<br \/>\n<i>KOLPAKOV F.A.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO M.P.,\u00a0PODKOLODNY N.L.<\/i><\/li>\n<li>ANTIGENIC MIMICRY OF HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 AS A RESULT OF STRUCTURAL SIMILARITY OF PROTEIN GP120 AND HUMAN APOLIPOPROTEIN A-1.<br \/>\n<i>LUKASHEV V.A.,\u00a0FROLOV A.S.,\u00a0PANIN L.E.,\u00a0GIMAUTDINOVA O.I.<\/i><\/li>\n<li>BIOINFORMATICS FOR HUMANITARIANS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.,\u00a0MIKHAILOV Yu.I.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME EQUILIBRIUM FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0MININA A.V.,\u00a0KONEVA E.I.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME HUMAN GENOME FOR EDUCATION IN BUSINESS, LAW AND COMMERCE.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.,\u00a0MIKHAILOV Yu.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FUMIHIKO MIYOSHI<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>FURMAN D.P.<\/strong>\n<ul>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>G<\/strong><\/h1>\n<ul>\n<li><strong>GELFAND M.S.<\/strong>\n<ul>\n<li>COMPUTER ANALYSIS OF TRANSCRIPTION REGULATORY PATTERNS IN COMPLETELY SEQUENCED BACTERIAL GENOMES.<br \/>\n<i>GELFAND M.S.,\u00a0MIRONOV A.A.<\/i><\/li>\n<li>CONSERVED RNA STRUCTURES REGULATE INITIATION OF TRANLSATION OF ESCERICHIA COLI AND HAEMOPHILUS INFLUENZAE RIBOSOMAL PROTEIN OPERONS.<br \/>\n<i>VITRESCHAK A.,\u00a0BANSAL A.K.,\u00a0GELFAND M.S.<\/i><\/li>\n<li>SOME PROBLEMS OF GENE RECOGNITION IN PROTIST DNA.<br \/>\n<i>ASTAKHOVA T.V.,\u00a0GELFAND M.S.,\u00a0ROYTBERG M.A.<\/i><\/li>\n<li>GENE RECOGNITION USING EST DATA: UNEXPECTEDLY FREQUENT ALTERNATIVE SPLICING OF HUMAN GENES.<br \/>\n<i>MIRONOV A.A.,\u00a0GELFAND M.S.<\/i><\/li>\n<li>SEGMENTATION OF YEAST DNA USING HIDDEN MARKOV MODELS.<br \/>\n<i>PESHKIN L.,\u00a0GELFAND M.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GEORGE L. GABOR MIKLOS<\/strong>\n<ul>\n<li>FROM GENOMICS TO EPIGENOMICS: DATA TRANSFERABILITY ACROSS THE EVOLUTIONARY SPECTRUM.<br \/>\n<i>GEORGE L. GABOR MIKLOS<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GIMAUTDINOVA O.I.<\/strong>\n<ul>\n<li>DISTURBANCES OF GENOM REGULATION AS THE CONSEQUENCE OF THE STRUCTURAL LIKENESS OF HIV-1 ENV PROTEINS AND HUMAN APOLIPOPROTEIN A-I.<br \/>\n<i>PANIN L.E.,\u00a0LUKASHEV V.A.,\u00a0GIMAUTDINOVA O.I.<\/i><\/li>\n<li>ANTIGENIC MIMICRY OF HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 AS A RESULT OF STRUCTURAL SIMILARITY OF PROTEIN GP120 AND HUMAN APOLIPOPROTEIN A-1.<br \/>\n<i>LUKASHEV V.A.,\u00a0FROLOV A.S.,\u00a0PANIN L.E.,\u00a0GIMAUTDINOVA O.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GIUDICELLI VERONIQUE<\/strong>\n<ul>\n<li>IMGT ALGORITHM AND RULES FOR IMMUNOGLOBULIN AND T-CELL RECEPTOR MOTIF RECOGNITION.<br \/>\n<i>GIUDICELLI VERONIQUE,\u00a0CHAUME DENYS,\u00a0MENNESSIER GERARD,\u00a0LEFRANC MARIE-PAULE<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GLAZKO G.V.<\/strong>\n<ul>\n<li>IN SILICO IDENTIFICATION OF MARS\/SARS IN DNA SEQUENCES.<br \/>\n<i>GLAZKO G.V.,\u00a0ROGOZIN I.B.,\u00a0GLAZKOV M.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GLAZKOV M.V.<\/strong>\n<ul>\n<li>IN SILICO IDENTIFICATION OF MARS\/SARS IN DNA SEQUENCES.<br \/>\n<i>GLAZKO G.V.,\u00a0ROGOZIN I.B.,\u00a0GLAZKOV M.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GO N.<\/strong>\n<ul>\n<li>ON THE NUMBER OF STRUCTURAL FAMILIES IN THE PROTEIN UNIVERSE.<br \/>\n<i>ALEXANDROV N.,\u00a0GO N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GORBAN A.N.<\/strong>\n<ul>\n<li>MINIMUM ENTROPY PRINCIPLE AND CLASSIFICATION OF SYMBOLS FOR REVEALING STATISTICAL REGULARITIES IN A TEXT.<br \/>\n<i>BUGAENKO N.N.,\u00a0GORBAN A.N.,\u00a0SAPOZHNIKOV A.N.<\/i><\/li>\n<li>MAXIMUM ENTROPY PRINCIPLE AND MEASUREMENT OF INFORMATION CONTENT OF GENETIC TEXT.<br \/>\n<i>BUGAENKO N.N.,\u00a0GORBAN A.N.,\u00a0SADOVSKY M.G.<\/i><\/li>\n<li>AUTHOMATIC CLASSIFICATION OF NUCLEOTIDE SEQUENCES AND ITS RELATION TO NATURAL TAXONOMY AND PROTEIN FUNCTION.<br \/>\n<i>GORBAN A.N.,\u00a0POPOVA T.G.,\u00a0SADOVSKY M.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GORE M.M.<\/strong>\n<ul>\n<li>USE OF BIOINFORMATICS IN DEVELOPMENT OF PEPTIDE VACCINE.<br \/>\n<i>KOLASKAR A.S.,\u00a0URMILA KULKARNI-KALE,\u00a0GORE M.M.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GORYACHEV N.<\/strong>\n<ul>\n<li>PROTEIN 3D ALIGNMENT SOFTWARE FOR INTEL COMPUTERS.<br \/>\n<i>VTYURIN N.,\u00a0BATURIN V.,\u00a0GULIN V.,\u00a0GORYACHEV N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GORYACHKOVSKY T.N.<\/strong>\n<ul>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>PLANT-TRRD DATABASE.<br \/>\n<i>GORYACHKOVSKY T.N.,\u00a0ANANKO E.A.,\u00a0PELTEK S.E.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GRIGOROVICH D.A.<\/strong>\n<ul>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>A SYSTEM FOR ACTIVATION OF THE TRRD DATABASE: FURTHER DEVELOPMENT OF GENEEXPRESS.<br \/>\n<i>FROLOV A.S.,\u00a0LAVRYUSHEV S.V.,\u00a0VOROBIEV D.G.,\u00a0GRIGOROVICH D.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GRUZDEV A.D.<\/strong>\n<ul>\n<li>SIGNIFICANT B-DNA CONFORMATIONAL AND PHYSICO-CHEMICAL PROPERTIES OF THE DNA TOPOISOMERASE I SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0KUZIN F.E.,\u00a0GRUZDEV A.D.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>GULIN V.<\/strong>\n<ul>\n<li>PROTEIN 3D ALIGNMENT SOFTWARE FOR INTEL COMPUTERS.<br \/>\n<i>VTYURIN N.,\u00a0BATURIN V.,\u00a0GULIN V.,\u00a0GORYACHEV N.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>H<\/strong><\/h1>\n<ul>\n<li><strong>HAAS J.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>HAINEMEIER T.<\/strong>\n<ul>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>HERTZ GERALD Z.<\/strong>\n<ul>\n<li>IDENTIFYING DNA AND PROTEIN PATTERNS WITH STATISTICALLY SIGNIFICANT ALIGNMENT MATRICES.<br \/>\n<i>HERTZ GERALD Z.,\u00a0STORMO GARY D.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>HIDE W.<\/strong>\n<ul>\n<li>A NEW METHOD OF SPECTRAL ANALYSIS OF DNA\/RNA AND PROTEIN SEQUENCES.<br \/>\n<i>BAJIC V.B.,\u00a0BAJIC I.V.,\u00a0HIDE W.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>HODING M.<\/strong>\n<ul>\n<li>MOLECULAR DATABASE INTEGRATION: ANALYSIS OF METABOLIC NETWORK CONTROL.<br \/>\n<i>FREIER A.,\u00a0HODING M.,\u00a0HOFESTADT R.,\u00a0LANGE M,\u00a0SCHOLZ U.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>HOFESTADT R.<\/strong>\n<ul>\n<li>MOLECULAR DATABASE INTEGRATION: ANALYSIS OF METABOLIC NETWORK CONTROL.<br \/>\n<i>FREIER A.,\u00a0HODING M.,\u00a0HOFESTADT R.,\u00a0LANGE M,\u00a0SCHOLZ U.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>HUYNEN MARTIJN<\/strong>\n<ul>\n<li>STRUCTURAL AND FUNCTIONAL ANNOTATION OF GENOMIC SEQUENCES:ASSIGNMENT OF FOLD FAMILY AND SORTING OF PROTEINS WITH RESPECT TO SUBCELLULAR LOCALIZATION.<br \/>\n<i>EISENHABER FRANK,\u00a0BORK PEER,\u00a0HUYNEN MARTIJN,\u00a0ORENGO CHRISTINE,\u00a0SCHULTZ JORG,\u00a0SUNYAEV SHAMIL R.,\u00a0YUAN YANPING<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>I<\/strong><\/h1>\n<ul>\n<li><strong>IGARASHI TAKAKO<\/strong>\n<ul>\n<li>A THREE-LAYER MODEL FOR DESCRIBING DEVELOPMENT OF C.ELEGANS.<br \/>\n<i>TSUGUCHIKA KAMINUMA,\u00a0IGARASHI TAKAKO,\u00a0NAKANO TATSUYA,\u00a0SASAKI SHINYA,\u00a0MIWA JOHJI<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>IGNATIEVA E.V.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>THE LIPID METABOLISM TRANSCRIPTION REGULATORY REGIONS DATABASE (LM-TRRD): TRANSCRIPTION REGULATION OF LIPID METABOLISM GENES.<br \/>\n<i>IGNATIEVA E.V.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ILYICHEV A.A.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ISHCHENKO I.V.<\/strong>\n<ul>\n<li>BIOINFORMATICS FOR HUMANITARIANS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.,\u00a0MIKHAILOV Yu.I.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME EQUILIBRIUM FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0MININA A.V.,\u00a0KONEVA E.I.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ISHENKO A.A.<\/strong>\n<ul>\n<li>THE BASIC PRINCIPLES OF DNA RECOGNITION BY SEQUENCE DEPENDENT AND INDEPENDENT ENZYMES.<br \/>\n<i>NEVINSKY G.A.,\u00a0VINOGRADOVA N.L.,\u00a0BUGREEV D.V.,\u00a0ISHENKO A.A.,\u00a0VASYUTINA E.L.,\u00a0ULYANOVA N.P.,\u00a0ZAKHAROVA O.D.,\u00a0KOLOCHEVA T.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>IVANISENKO V.A.<\/strong>\n<ul>\n<li>PREDICTING RNA FOLDING BY GENETIC ALGORITHM WITH LOCAL EXHAUSTION.<br \/>\n<i>TITOV I.I.,\u00a0IVANISENKO V.A.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>IVANOVA N.N.<\/strong>\n<ul>\n<li>MOLECULAR MECHANISMS OF PROMOTER-POLYMERASE RECOGNITION. ELECTROSTATIC INTERACTIONS IN PROMOTERS RECOGNIZED BY E.COLI Esigma70.<br \/>\n<i>KAMZOLOVA S.G.,\u00a0DZHELYADIN T.R.,\u00a0SOROKIN A.A.,\u00a0IVANOVA N.N.,\u00a0KUTUZOVA G.I.,\u00a0ESIPOVA N.G.,\u00a0POLOZOV R.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>IVASHIN S.A.<\/strong>\n<ul>\n<li>BIOINFORMATICS FOR HUMANITARIANS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.,\u00a0MIKHAILOV Yu.I.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME EQUILIBRIUM FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0MININA A.V.,\u00a0KONEVA E.I.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>THE PRACTICAL STUDY OF THE BEHAVIOR OF THE COMPLEX DYNAMIC SYSTEMS ON THE BASIS OF THE LIFE GAME FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>AFONNIKOV D.,\u00a0KOLESOV G.B.,\u00a0MININA A.V.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME HUMAN GENOME FOR EDUCATION IN BUSINESS, LAW AND COMMERCE.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.,\u00a0MIKHAILOV Yu.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>J<\/strong><\/h1>\n<ul>\n<li><strong>J. CRAIG VENTER<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>JAKT L.M.<\/strong>\n<ul>\n<li>LARGE SCALE SCREENING FOR TRANSCRIPTION REGULATORY SEQUENCES RECOGNISED BY HOX HOMEODOMAIN PROTEINS.<br \/>\n<i>JAKT L.M.,\u00a0SHAM M.H.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>JIAN ZHU<\/strong>\n<ul>\n<li>A PROMOTER DATABASE OF YEAST SACCHAROMYCES CEREVISIAE (SCPD).<br \/>\n<i>JIAN ZHU,\u00a0ZHANG MICHAEL Q.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>JING CHEN<\/strong>\n<ul>\n<li>EXTRACTING KOZAK CONSENSUS SEQUENCE USING KLEISLI.<br \/>\n<i>JING CHEN,\u00a0NAM-HAI CHUA,\u00a0DAPHNA STRAUSS,\u00a0LIMSOON WONG<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>JUNIER THOMAS<\/strong>\n<ul>\n<li>A MODULAR METAPROFILE-BASED SYSTEM FOR PREDICTION AND ANALYSIS OF EUKARYOTIC PROMOTERS.<br \/>\n<i>JUNIER THOMAS,\u00a0KROGH ANDERS,\u00a0BUCHER PHILIPP<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>K<\/strong><\/h1>\n<ul>\n<li><strong>KALEDIN V.I.<\/strong>\n<ul>\n<li>THE GLUCOCORTICOID-CONTROLLED GENE REGULATORY REGIONS DATABASE (GR-TRRD): THE USING FOR THE ELUCIDATION OF THE MECHANISMS OF CHEMICAL HEPATOCARCINOGENS ACTION.<br \/>\n<i>MERKULOVA T.I.,\u00a0MERKLOV V.M.,\u00a0KROPATCHEV K.Y.,\u00a0KALEDIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KAMZOLOVA S.G.<\/strong>\n<ul>\n<li>MOLECULAR MECHANISMS OF PROMOTER-POLYMERASE RECOGNITION. ELECTROSTATIC INTERACTIONS IN PROMOTERS RECOGNIZED BY E.COLI Esigma70.<br \/>\n<i>KAMZOLOVA S.G.,\u00a0DZHELYADIN T.R.,\u00a0SOROKIN A.A.,\u00a0IVANOVA N.N.,\u00a0KUTUZOVA G.I.,\u00a0ESIPOVA N.G.,\u00a0POLOZOV R.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KANAKO SAITO<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KANYSHKOVA T.G.<\/strong>\n<ul>\n<li>LACTOFERRIN IS A NEW TRANSCRIPTIONAL FACTOR HAVING MANY DIFFERENT UNIQUE BIOLOGICAL FUNCTIONS.<br \/>\n<i>KANYSHKOVA T.G.,\u00a0SEMENOV D.V.,\u00a0BUNEVA V.N.,\u00a0NEVINSKY G.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KARAKIN E.I.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KATOKHINA L.V.<\/strong>\n<ul>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KATSUYUKI YUGI<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KEL A.E.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>COMPEL: A DATABASE ON COMPOSITE REGULATORY ELEMENTS.<br \/>\n<i>KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0FRISCH M.,\u00a0ROMASHCHENKO A.G.,\u00a0KOLCHANOV N.A.,\u00a0WINGENDER E.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>COMBINATORIAL IDENTIFICATION OF PROMOTERS INDUCED UPON IMMUNE CELL ACTIVATION.<br \/>\n<i>KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0BABENKO V.N.,\u00a0WINGENDER E.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KEL-MARGOULIS O.V.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>COMPEL: A DATABASE ON COMPOSITE REGULATORY ELEMENTS.<br \/>\n<i>KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0FRISCH M.,\u00a0ROMASHCHENKO A.G.,\u00a0KOLCHANOV N.A.,\u00a0WINGENDER E.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>COMBINATORIAL IDENTIFICATION OF PROMOTERS INDUCED UPON IMMUNE CELL ACTIVATION.<br \/>\n<i>KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0BABENKO V.N.,\u00a0WINGENDER E.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KENTA HASHIMOTO<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KISSELEV L.L.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<li>EUKARYOTIC MRNAS ENCODING ABUNDANT AND SCARCE PROTEINS ARE DISSIMILAR IN MANY STRUCTURAL FEATURES OF 5\u2019-UNTRANSLATED LEADERS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0FROLOV A.S.,\u00a0KISSELEV L.L.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>INVARIANT SECONDARY STRUCTURE OF ALU REPEATS PREDETERMINES CLUSTERIZATION OF REGULATORY ELEMENTS IN HUMAN GENOME.<br \/>\n<i>BLINOV V.M.,\u00a0UVAROV D.L.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0KISSELEV L.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOBZEV V.F.<\/strong>\n<ul>\n<li>QUANTITATIVE COMPUTER-ASSISTED ANALYSIS OF THE TATA-BINDING PROTEIN AFFINITY FOR COMPLEMENTARY DUPLEXES OF SYNTHETIC OLIGODEOXYRIBONUCLEOTIDES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0RAU V.A.,\u00a0KOBZEV V.F.,\u00a0PONOMARENKO M.P.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>STRUCTURE-FUNCTIONAL HOMOLOGY OF THE PROKARYOTIC AND EUKARYOTIC RNA POLYMERASES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0SEDOVA V.M.,\u00a0RAU V.A.,\u00a0TULOKHONOV I.I,\u00a0KOBZEV V.F.,\u00a0ARSHINOVA T.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOCHETOV A.V.<\/strong>\n<ul>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>STRUCTURAL AND COMPOSITIONAL FEATURES OF 5\u2019 UNTRANSLATED REGIONS OF HIGHER PLANT MRNAS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PILUGIN M.V.,\u00a0KOLPAKOV F.A.,\u00a0BABENKO V.N.,\u00a0KVASHNINA E.V.,\u00a0SHUMNY V.K.<\/i><\/li>\n<li>EUKARYOTIC MRNAS ENCODING ABUNDANT AND SCARCE PROTEINS ARE DISSIMILAR IN MANY STRUCTURAL FEATURES OF 5\u2019-UNTRANSLATED LEADERS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0FROLOV A.S.,\u00a0KISSELEV L.L.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOKOZA E.<\/strong>\n<ul>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOLASKAR A.S.<\/strong>\n<ul>\n<li>USE OF BIOINFORMATICS IN DEVELOPMENT OF PEPTIDE VACCINE.<br \/>\n<i>KOLASKAR A.S.,\u00a0URMILA KULKARNI-KALE,\u00a0GORE M.M.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOLCHANOV N.A.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>COMPEL: A DATABASE ON COMPOSITE REGULATORY ELEMENTS.<br \/>\n<i>KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0FRISCH M.,\u00a0ROMASHCHENKO A.G.,\u00a0KOLCHANOV N.A.,\u00a0WINGENDER E.<\/i><\/li>\n<li>B-DNA-VIDEO: AN ACTIVE DATABASE FOR THE SIGNIFICANT B-DNA FEATURES OF TRANSCRIPTION FACTOR BINDING SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0LEVITSKY V.G.,\u00a0PODKOLODNAYA O.A.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>GENE NETWORKS: A DATABASE AND ITS AUTOMATED VISUALIZATION THROUGH THE INTERNET IN THE GENENET COMPUTING SYSTEM.<br \/>\n<i>ANANKO E.A.,\u00a0KOLPAKOV F.A.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>REGULATION MECHANISMS IN BIOLOGICAL SYSTEMS.<br \/>\n<i>KOLCHANOV N.A.,\u00a0MATUSHKIN Yu.G.,\u00a0FROLOV A.S.<\/i><\/li>\n<li>RECOGNITION ACCURACY OF DNA FUNCTIONAL SITES CAN BE INCREASED BY AVERAGING PARTIAL RECOGNITIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0KOLCHANOV N.A.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>QUANTITATIVE COMPUTER-ASSISTED ANALYSIS OF THE TATA-BINDING PROTEIN AFFINITY FOR COMPLEMENTARY DUPLEXES OF SYNTHETIC OLIGODEOXYRIBONUCLEOTIDES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0RAU V.A.,\u00a0KOBZEV V.F.,\u00a0PONOMARENKO M.P.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>REVEALING THE CONFORMATIONAL AND PHYSICO-CHEMICAL DNA PROPERTIES APPLICABLE FOR PREDICTING THE ACTIVITY OF DNA FUNCTIONAL SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0PONOMARENKO J.V.,\u00a0FROLOV A.S.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>EUKARYOTIC MRNAS ENCODING ABUNDANT AND SCARCE PROTEINS ARE DISSIMILAR IN MANY STRUCTURAL FEATURES OF 5\u2019-UNTRANSLATED LEADERS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0FROLOV A.S.,\u00a0KISSELEV L.L.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>PREDICTING RNA FOLDING BY GENETIC ALGORITHM WITH LOCAL EXHAUSTION.<br \/>\n<i>TITOV I.I.,\u00a0IVANISENKO V.A.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>LIKENESS: A SYSTEM SEARCHING FOR AND ALIGNING SIMILAR PROTEIN CONFORMATIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0SHINDYALOV I.,\u00a0BOURNE P.<\/i><\/li>\n<li>BIOINFORMATICS FOR HUMANITARIANS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.,\u00a0MIKHAILOV Yu.I.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>NEW METHOD FOR THE STUDY OF THE MODULAR STRUCTURE OF TRANSCRIPTION REGULATORY REGIONS.<br \/>\n<i>KOLESOV G.B.,\u00a0KOLPAKOV F.A.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>SIGNIFICANT B-DNA CONFORMATIONAL AND PHYSICO-CHEMICAL PROPERTIES OF THE DNA TOPOISOMERASE I SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0KUZIN F.E.,\u00a0GRUZDEV A.D.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOLESNIKOV N.N.<\/strong>\n<ul>\n<li>THREE SUBFAMILIES OF SHORT INTERSPERSED ELEMENTS OF THE DOG GENOME: POSSIBLE ORIGIN AND FUNCTIONS.<br \/>\n<i>KOLESNIKOV N.N.,\u00a0ROGOZIN I.B.,\u00a0LAVRENTIEVA M.V.,\u00a0ELISAPHENKO E.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOLESOV G.B.<\/strong>\n<ul>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>GENE NETWORKS: A DATABASE AND ITS AUTOMATED VISUALIZATION THROUGH THE INTERNET IN THE GENENET COMPUTING SYSTEM.<br \/>\n<i>ANANKO E.A.,\u00a0KOLPAKOV F.A.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>THE PRACTICAL STUDY OF THE BEHAVIOR OF THE COMPLEX DYNAMIC SYSTEMS ON THE BASIS OF THE LIFE GAME FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>AFONNIKOV D.,\u00a0KOLESOV G.B.,\u00a0MININA A.V.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>NEW METHOD FOR THE STUDY OF THE MODULAR STRUCTURE OF TRANSCRIPTION REGULATORY REGIONS.<br \/>\n<i>KOLESOV G.B.,\u00a0KOLPAKOV F.A.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOLOCHEVA T.A.<\/strong>\n<ul>\n<li>THE BASIC PRINCIPLES OF DNA RECOGNITION BY SEQUENCE DEPENDENT AND INDEPENDENT ENZYMES.<br \/>\n<i>NEVINSKY G.A.,\u00a0VINOGRADOVA N.L.,\u00a0BUGREEV D.V.,\u00a0ISHENKO A.A.,\u00a0VASYUTINA E.L.,\u00a0ULYANOVA N.P.,\u00a0ZAKHAROVA O.D.,\u00a0KOLOCHEVA T.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOLPAKOV A.<\/strong>\n<ul>\n<li>CONTEXT-FREE METHOD OF PATTERN RECOGNITION IN THE GENETIC TEXTS.<br \/>\n<i>AKBEROVA N.,\u00a0KOLPAKOV A.,\u00a0LEONTIEV A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOLPAKOV F.A.<\/strong>\n<ul>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>GENE NETWORKS: A DATABASE AND ITS AUTOMATED VISUALIZATION THROUGH THE INTERNET IN THE GENENET COMPUTING SYSTEM.<br \/>\n<i>ANANKO E.A.,\u00a0KOLPAKOV F.A.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>STRUCTURAL AND COMPOSITIONAL FEATURES OF 5\u2019 UNTRANSLATED REGIONS OF HIGHER PLANT MRNAS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PILUGIN M.V.,\u00a0KOLPAKOV F.A.,\u00a0BABENKO V.N.,\u00a0KVASHNINA E.V.,\u00a0SHUMNY V.K.<\/i><\/li>\n<li>MGL-PROT: THE ANTHOLOGY-BASED QUERY LANGUAGE FOR THE USER SEARCH FOR THE 3D STRUCTURES AND FUNCTIONS OF PROTEINS IN THE WWW-AVAILABLE DATABASES.<br \/>\n<i>KOLPAKOV F.A.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO M.P.,\u00a0PODKOLODNY N.L.<\/i><\/li>\n<li>RAPID ESTIMATES OF STATISTICAL SIGNIFICANCE OF THE PAIRWISE NUCLEOTIDE SEQUENCE ALIGNMENT.<br \/>\n<i>SELEDTSOV I.A.,\u00a0KOLPAKOV F.A.<\/i><\/li>\n<li>NEW METHOD FOR THE STUDY OF THE MODULAR STRUCTURE OF TRANSCRIPTION REGULATORY REGIONS.<br \/>\n<i>KOLESOV G.B.,\u00a0KOLPAKOV F.A.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>MGL: AN OBJECT-ORIENTED COMPUTER SYSTEM FOR MOLECULAR GENETIC DATA MANAGEMENT, ANALYSIS, AND VISUALIZATION.<br \/>\n<i>KOLPAKOV F.A.,\u00a0BABENKO V.N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KONDRAKHIN Y.V.<\/strong>\n<ul>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>RECOGNITION OF THE SUBSET OF EUKARYOTIC PROMOTERS.<br \/>\n<i>KONDRAKHIN Y.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KONEVA E.I.<\/strong>\n<ul>\n<li>BUSINESS GAME EQUILIBRIUM FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0MININA A.V.,\u00a0KONEVA E.I.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KONSTANTINOV Yu.M.<\/strong>\n<ul>\n<li>THE LEUCINE MOTIF IN SUBUNITS 6 AND 9 OF PLANT MITOCHONDRIAL ATP SYNTHASE PROVIDING PRESUMABLY THE ASSEMBLY OF THE MEMBRANE PART OF THE ENZYME.<br \/>\n<i>KONSTANTINOV Yu.M.,\u00a0ARZIEV A.Sh.,\u00a0PODSOSONNY V.A.<\/i><\/li>\n<li>THE SEQUENCING AND MOLECULAR ANALYSIS OF COXI GENE FRAGMENTS OF WILD PERENNIAL CROP ELYMUS SIBIRICUS L..<br \/>\n<i>FALSHINA I.V.,\u00a0VERBITSKII D.S.,\u00a0ROGOZIN I.B.,\u00a0KONSTANTINOV Yu.M.,\u00a0TAUSON E.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOONIN E.V.<\/strong>\n<ul>\n<li>A NATURAL TAXONOMY OF GENE FAMILIES FROM COMPLETE GENOMES.<br \/>\n<i>TATUSOV R.L.,\u00a0KOONIN E.V.,\u00a0LIPMAN D.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOROTKOV E.V.<\/strong>\n<ul>\n<li>TRIPLET PERIODICITY OF THE DNA CODING AND NONCODING REGIONS.<br \/>\n<i>RUDENKO V.M.,\u00a0KOROTKOV E.V.<\/i><\/li>\n<li>A PROBABLE MUTUAL RELATIONSHIP BETWEEN LATENT PERIODIC GENE STRUCTURE AND PERIODIC CONFORMATION OF THE PROTEIN.<br \/>\n<i>CHALEY M.B.,\u00a0KOROTKOV E.V.<\/i><\/li>\n<li>LATENT PERIODICITY OF PROTEIN SEQUENCES.<br \/>\n<i>KOROTKOV E.V.,\u00a0KOROTKOVA M.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOROTKOVA M.A.<\/strong>\n<ul>\n<li>LATENT PERIODICITY OF PROTEIN SEQUENCES.<br \/>\n<i>KOROTKOV E.V.,\u00a0KOROTKOVA M.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOSAREV P.<\/strong>\n<ul>\n<li>PROMOTERS: AT\/GC CONTENT AND PROPERTIES OF TATA BOX.<br \/>\n<i>KOSAREV P.,\u00a0BABENKO V.N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOTOKO NAKATA<\/strong>\n<ul>\n<li>DEVELOPMENT OF A RECEPTOR DATABASE.<br \/>\n<i>KOTOKO NAKATA,\u00a0TAKAKO TAKAI,\u00a0TSUGUCHIKA KAMINUMA<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KOUICHI TAKAHASHI<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KROGH ANDERS<\/strong>\n<ul>\n<li>A MODULAR METAPROFILE-BASED SYSTEM FOR PREDICTION AND ANALYSIS OF EUKARYOTIC PROMOTERS.<br \/>\n<i>JUNIER THOMAS,\u00a0KROGH ANDERS,\u00a0BUCHER PHILIPP<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KROPATCHEV K.Y.<\/strong>\n<ul>\n<li>THE GLUCOCORTICOID-CONTROLLED GENE REGULATORY REGIONS DATABASE (GR-TRRD): THE USING FOR THE ELUCIDATION OF THE MECHANISMS OF CHEMICAL HEPATOCARCINOGENS ACTION.<br \/>\n<i>MERKULOVA T.I.,\u00a0MERKLOV V.M.,\u00a0KROPATCHEV K.Y.,\u00a0KALEDIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KUROPATOV D.A.<\/strong>\n<ul>\n<li>AUTOMATIC GENERATION OF RECOGNITION PROGRAMS FOR AMINO ACID SEQUENCES.<br \/>\n<i>VALUEV V.P.,\u00a0KUROPATOV D.A.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KUTUZOVA G.I.<\/strong>\n<ul>\n<li>MOLECULAR MECHANISMS OF PROMOTER-POLYMERASE RECOGNITION. ELECTROSTATIC INTERACTIONS IN PROMOTERS RECOGNIZED BY E.COLI Esigma70.<br \/>\n<i>KAMZOLOVA S.G.,\u00a0DZHELYADIN T.R.,\u00a0SOROKIN A.A.,\u00a0IVANOVA N.N.,\u00a0KUTUZOVA G.I.,\u00a0ESIPOVA N.G.,\u00a0POLOZOV R.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KUVSHINOV V.N.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KUZIN F.E.<\/strong>\n<ul>\n<li>SIGNIFICANT B-DNA CONFORMATIONAL AND PHYSICO-CHEMICAL PROPERTIES OF THE DNA TOPOISOMERASE I SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0KUZIN F.E.,\u00a0GRUZDEV A.D.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>KVASHNINA E.V.<\/strong>\n<ul>\n<li>STRUCTURAL AND COMPOSITIONAL FEATURES OF 5\u2019 UNTRANSLATED REGIONS OF HIGHER PLANT MRNAS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PILUGIN M.V.,\u00a0KOLPAKOV F.A.,\u00a0BABENKO V.N.,\u00a0KVASHNINA E.V.,\u00a0SHUMNY V.K.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>L<\/strong><\/h1>\n<ul>\n<li><strong>LANGE M<\/strong>\n<ul>\n<li>MOLECULAR DATABASE INTEGRATION: ANALYSIS OF METABOLIC NETWORK CONTROL.<br \/>\n<i>FREIER A.,\u00a0HODING M.,\u00a0HOFESTADT R.,\u00a0LANGE M,\u00a0SCHOLZ U.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LAVRENTIEVA M.V.<\/strong>\n<ul>\n<li>THREE SUBFAMILIES OF SHORT INTERSPERSED ELEMENTS OF THE DOG GENOME: POSSIBLE ORIGIN AND FUNCTIONS.<br \/>\n<i>KOLESNIKOV N.N.,\u00a0ROGOZIN I.B.,\u00a0LAVRENTIEVA M.V.,\u00a0ELISAPHENKO E.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LAVRYUSHEV S.V.<\/strong>\n<ul>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>A SYSTEM FOR ACTIVATION OF THE TRRD DATABASE: FURTHER DEVELOPMENT OF GENEEXPRESS.<br \/>\n<i>FROLOV A.S.,\u00a0LAVRYUSHEV S.V.,\u00a0VOROBIEV D.G.,\u00a0GRIGOROVICH D.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LEFRANC MARIE-PAULE<\/strong>\n<ul>\n<li>IMGT ALGORITHM AND RULES FOR IMMUNOGLOBULIN AND T-CELL RECEPTOR MOTIF RECOGNITION.<br \/>\n<i>GIUDICELLI VERONIQUE,\u00a0CHAUME DENYS,\u00a0MENNESSIER GERARD,\u00a0LEFRANC MARIE-PAULE<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LEONTIEV A.<\/strong>\n<ul>\n<li>CONTEXT-FREE METHOD OF PATTERN RECOGNITION IN THE GENETIC TEXTS.<br \/>\n<i>AKBEROVA N.,\u00a0KOLPAKOV A.,\u00a0LEONTIEV A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LEVITSKY V.G.<\/strong>\n<ul>\n<li>B-DNA-VIDEO: AN ACTIVE DATABASE FOR THE SIGNIFICANT B-DNA FEATURES OF TRANSCRIPTION FACTOR BINDING SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0LEVITSKY V.G.,\u00a0PODKOLODNAYA O.A.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>FINE STRUCTURE OF THE PROFILE OF BENDING STIFFNESS ENERGY OF NUCLEOSOMAL DNA.<br \/>\n<i>LEVITSKY V.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LIKHACHEVA E.<\/strong>\n<ul>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LIKHOSHVAI V.A.<\/strong>\n<ul>\n<li>THEORETICAL ANALYSIS OF POSSIBLE EVOLUTIONARY TRENDS IN CODON DISTRIBUTION ALONG THE mRNA.<br \/>\n<i>LIKHOSHVAI V.A.,\u00a0MATUSHKIN Yu.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LIMSOON WONG<\/strong>\n<ul>\n<li>EXTRACTING KOZAK CONSENSUS SEQUENCE USING KLEISLI.<br \/>\n<i>JING CHEN,\u00a0NAM-HAI CHUA,\u00a0DAPHNA STRAUSS,\u00a0LIMSOON WONG<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LIPMAN D.J.<\/strong>\n<ul>\n<li>A NATURAL TAXONOMY OF GENE FAMILIES FROM COMPLETE GENOMES.<br \/>\n<i>TATUSOV R.L.,\u00a0KOONIN E.V.,\u00a0LIPMAN D.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LOBRY J.R.<\/strong>\n<ul>\n<li>ASYMMETRICAL CODING SEQUENCE REPARTITION AND CODON ADAPTATION INDEX VALUES BETWEEN LEADING AND LAGGING STRANDS IN SEVEN BACTERIAL SPECIES.<br \/>\n<i>PERRIERE G.,\u00a0LOBRY J.R.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>LUKASHEV V.A.<\/strong>\n<ul>\n<li>DISTURBANCES OF GENOM REGULATION AS THE CONSEQUENCE OF THE STRUCTURAL LIKENESS OF HIV-1 ENV PROTEINS AND HUMAN APOLIPOPROTEIN A-I.<br \/>\n<i>PANIN L.E.,\u00a0LUKASHEV V.A.,\u00a0GIMAUTDINOVA O.I.<\/i><\/li>\n<li>ANTIGENIC MIMICRY OF HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 AS A RESULT OF STRUCTURAL SIMILARITY OF PROTEIN GP120 AND HUMAN APOLIPOPROTEIN A-1.<br \/>\n<i>LUKASHEV V.A.,\u00a0FROLOV A.S.,\u00a0PANIN L.E.,\u00a0GIMAUTDINOVA O.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>M<\/strong><\/h1>\n<ul>\n<li><strong>MARTYNOV Yu.A.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MARTYNYUK R.A.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MATUSHKIN Yu.G.<\/strong>\n<ul>\n<li>REGULATION MECHANISMS IN BIOLOGICAL SYSTEMS.<br \/>\n<i>KOLCHANOV N.A.,\u00a0MATUSHKIN Yu.G.,\u00a0FROLOV A.S.<\/i><\/li>\n<li>THEORETICAL ANALYSIS OF POSSIBLE EVOLUTIONARY TRENDS IN CODON DISTRIBUTION ALONG THE mRNA.<br \/>\n<i>LIKHOSHVAI V.A.,\u00a0MATUSHKIN Yu.G.<\/i><\/li>\n<li>THEORETICAL ANALYSIS OF MUTATION PATTERN OF THE CYTOCHROME P450 SUPERFAMILY.<br \/>\n<i>MATUSHKIN Yu.G.,\u00a0MOROZOVA I.N.,\u00a0MOROZOV P.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MEEK S.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MENDOZA LUIS<\/strong>\n<ul>\n<li>FLOWER MORPHOGENESIS IN ARABIDOPSIS THALIANA: A LOGICAL ANALYSIS.<br \/>\n<i>MENDOZA LUIS,\u00a0ALVAREZ-BUYLLA ELENA,\u00a0THIEFFRY DENIS<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MENNESSIER GERARD<\/strong>\n<ul>\n<li>IMGT ALGORITHM AND RULES FOR IMMUNOGLOBULIN AND T-CELL RECEPTOR MOTIF RECOGNITION.<br \/>\n<i>GIUDICELLI VERONIQUE,\u00a0CHAUME DENYS,\u00a0MENNESSIER GERARD,\u00a0LEFRANC MARIE-PAULE<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MERKLOV V.M.<\/strong>\n<ul>\n<li>THE GLUCOCORTICOID-CONTROLLED GENE REGULATORY REGIONS DATABASE (GR-TRRD): THE USING FOR THE ELUCIDATION OF THE MECHANISMS OF CHEMICAL HEPATOCARCINOGENS ACTION.<br \/>\n<i>MERKULOVA T.I.,\u00a0MERKLOV V.M.,\u00a0KROPATCHEV K.Y.,\u00a0KALEDIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MERKULOVA T.I.<\/strong>\n<ul>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>THE GLUCOCORTICOID-CONTROLLED GENE REGULATORY REGIONS DATABASE (GR-TRRD): THE USING FOR THE ELUCIDATION OF THE MECHANISMS OF CHEMICAL HEPATOCARCINOGENS ACTION.<br \/>\n<i>MERKULOVA T.I.,\u00a0MERKLOV V.M.,\u00a0KROPATCHEV K.Y.,\u00a0KALEDIN V.I.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MIKHAILOV Yu.I.<\/strong>\n<ul>\n<li>BIOINFORMATICS FOR HUMANITARIANS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.,\u00a0MIKHAILOV Yu.I.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME EQUILIBRIUM FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0MININA A.V.,\u00a0KONEVA E.I.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>THE PRACTICAL STUDY OF THE BEHAVIOR OF THE COMPLEX DYNAMIC SYSTEMS ON THE BASIS OF THE LIFE GAME FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>AFONNIKOV D.,\u00a0KOLESOV G.B.,\u00a0MININA A.V.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME HUMAN GENOME FOR EDUCATION IN BUSINESS, LAW AND COMMERCE.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.,\u00a0MIKHAILOV Yu.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MILANESI L.<\/strong>\n<ul>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>WEBGENE: INTERACTIVE TOOLS FOR PREDICTION AND ANALYSIS OF PROTEIN-CODING GENES STRUCTURE IN INTERNET.<br \/>\n<i>MILANESI L.,\u00a0ROGOZIN I.B.,\u00a0D\u2019ANGELO D.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MININA A.V.<\/strong>\n<ul>\n<li>BIOINFORMATICS FOR HUMANITARIANS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.,\u00a0MIKHAILOV Yu.I.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME EQUILIBRIUM FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0MININA A.V.,\u00a0KONEVA E.I.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>THE PRACTICAL STUDY OF THE BEHAVIOR OF THE COMPLEX DYNAMIC SYSTEMS ON THE BASIS OF THE LIFE GAME FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>AFONNIKOV D.,\u00a0KOLESOV G.B.,\u00a0MININA A.V.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME HUMAN GENOME FOR EDUCATION IN BUSINESS, LAW AND COMMERCE.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.,\u00a0MIKHAILOV Yu.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MIRONOV A.A.<\/strong>\n<ul>\n<li>COMPUTER ANALYSIS OF TRANSCRIPTION REGULATORY PATTERNS IN COMPLETELY SEQUENCED BACTERIAL GENOMES.<br \/>\n<i>GELFAND M.S.,\u00a0MIRONOV A.A.<\/i><\/li>\n<li>GENE RECOGNITION USING EST DATA: UNEXPECTEDLY FREQUENT ALTERNATIVE SPLICING OF HUMAN GENES.<br \/>\n<i>MIRONOV A.A.,\u00a0GELFAND M.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MISHCHENKO T.M.<\/strong>\n<ul>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MIWA JOHJI<\/strong>\n<ul>\n<li>A THREE-LAYER MODEL FOR DESCRIBING DEVELOPMENT OF C.ELEGANS.<br \/>\n<i>TSUGUCHIKA KAMINUMA,\u00a0IGARASHI TAKAKO,\u00a0NAKANO TATSUYA,\u00a0SASAKI SHINYA,\u00a0MIWA JOHJI<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MOLODIN V.I.<\/strong>\n<ul>\n<li>RECONSTRUCTION OF THE GENOFOND PECULIARITIES OF THE ANCIENT PAZYRYK POPULATION (I-II MILLENIUM BC) FROM GORNY ALTAI ACCORDING TO THE MTDNA STRUCTURE.<br \/>\n<i>VOEVODA M.I.,\u00a0SITNIKOVA V.V.,\u00a0ROMASHCHENKO A.G.,\u00a0CHIKISHEVA T.A.,\u00a0POLOS&#8217;MAK N.V.,\u00a0MOLODIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MOROZOV P.S.<\/strong>\n<ul>\n<li>THEORETICAL ANALYSIS OF MUTATION PATTERN OF THE CYTOCHROME P450 SUPERFAMILY.<br \/>\n<i>MATUSHKIN Yu.G.,\u00a0MOROZOVA I.N.,\u00a0MOROZOV P.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MOROZOVA I.N.<\/strong>\n<ul>\n<li>THEORETICAL ANALYSIS OF MUTATION PATTERN OF THE CYTOCHROME P450 SUPERFAMILY.<br \/>\n<i>MATUSHKIN Yu.G.,\u00a0MOROZOVA I.N.,\u00a0MOROZOV P.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>MUSTAFAYEV N.Sh.<\/strong>\n<ul>\n<li>SOME POSSIBLE ELEMENTS OF TRANSCRIPTION REGULATION OF RICE CHLOROPLAST ENCODED GENES.<br \/>\n<i>SHAHMURADOV I.A.,\u00a0MUSTAFAYEV N.Sh.,\u00a0ALIEV J.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>N<\/strong><\/h1>\n<ul>\n<li><strong>NAKANO TATSUYA<\/strong>\n<ul>\n<li>A THREE-LAYER MODEL FOR DESCRIBING DEVELOPMENT OF C.ELEGANS.<br \/>\n<i>TSUGUCHIKA KAMINUMA,\u00a0IGARASHI TAKAKO,\u00a0NAKANO TATSUYA,\u00a0SASAKI SHINYA,\u00a0MIWA JOHJI<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>NAM-HAI CHUA<\/strong>\n<ul>\n<li>EXTRACTING KOZAK CONSENSUS SEQUENCE USING KLEISLI.<br \/>\n<i>JING CHEN,\u00a0NAM-HAI CHUA,\u00a0DAPHNA STRAUSS,\u00a0LIMSOON WONG<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>NAUMOCHKIN A.N.<\/strong>\n<ul>\n<li>PROGRAMS FOR DATA INPUT TO THE TRANSCRIPTION REGULATORY REGIONS DATABASE.<br \/>\n<i>ANANKO E.A.,\u00a0NAUMOCHKIN A.N.,\u00a0FOKIN O.N.,\u00a0FROLOV A.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>NEFEDOV V.P.<\/strong>\n<ul>\n<li>GENETIC LEVEL OF BIOPROCESSES REGULATION AND BIOSYSTEMS IN EXTREME CONDITIONS.<br \/>\n<i>NEFEDOV V.P.,\u00a0CHEREPANOVA E.Yu.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>NEVINSKY G.A.<\/strong>\n<ul>\n<li>THE BASIC PRINCIPLES OF DNA RECOGNITION BY SEQUENCE DEPENDENT AND INDEPENDENT ENZYMES.<br \/>\n<i>NEVINSKY G.A.,\u00a0VINOGRADOVA N.L.,\u00a0BUGREEV D.V.,\u00a0ISHENKO A.A.,\u00a0VASYUTINA E.L.,\u00a0ULYANOVA N.P.,\u00a0ZAKHAROVA O.D.,\u00a0KOLOCHEVA T.A.<\/i><\/li>\n<li>INTERPRETATION OF X-RAY ANALYSIS DATA OF THE HUMAN DNA TOPOISOMERASE I ON THE BASIS OF THE HUMAN DNA TOPOISOMERASE I ON THE BASIS OF THE ENZYME.<br \/>\n<i>BUGREEV D.V.,\u00a0VASYUTINA E.L.,\u00a0BUNEVA V.N.,\u00a0NEVINSKY G.A.<\/i><\/li>\n<li>LACTOFERRIN IS A NEW TRANSCRIPTIONAL FACTOR HAVING MANY DIFFERENT UNIQUE BIOLOGICAL FUNCTIONS.<br \/>\n<i>KANYSHKOVA T.G.,\u00a0SEMENOV D.V.,\u00a0BUNEVA V.N.,\u00a0NEVINSKY G.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>NISHIKAWA KEN<\/strong>\n<ul>\n<li>DETECTION OF SIMILAR PROTEINS BY THE INVERSE-FOLDING PROTOCOL.<br \/>\n<i>OTA MOTONORI,\u00a0NISHIKAWA KEN<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>O<\/strong><\/h1>\n<ul>\n<li><strong>ORENGO CHRISTINE<\/strong>\n<ul>\n<li>STRUCTURAL AND FUNCTIONAL ANNOTATION OF GENOMIC SEQUENCES:ASSIGNMENT OF FOLD FAMILY AND SORTING OF PROTEINS WITH RESPECT TO SUBCELLULAR LOCALIZATION.<br \/>\n<i>EISENHABER FRANK,\u00a0BORK PEER,\u00a0HUYNEN MARTIJN,\u00a0ORENGO CHRISTINE,\u00a0SCHULTZ JORG,\u00a0SUNYAEV SHAMIL R.,\u00a0YUAN YANPING<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ORESHKOVA S.F.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ORLOV S.<\/strong>\n<ul>\n<li>FUNCTIONAL ACTIVITY OF A NOVEL GCC-ELEMENT FOUND IN HOMOLOGOUS REGULATORY REGIONS OF SOME HUMAN GENES.<br \/>\n<i>PEREVOZCHIKOV A.,\u00a0ORLOV S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>OSADA YUKO<\/strong>\n<ul>\n<li>COMPUTER ANALYSIS OF BASE PAIRING FREE-ENERGY BETWEEN SHINE-DALGARNO SEQUENCE AND 16S RRNA SEQUENCE IN VARIOUS PROCARYOTES.<br \/>\n<i>OSADA YUKO,\u00a0RINTARO SAITO,\u00a0TOMITA MASARU<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>OSTELL J.<\/strong>\n<ul>\n<li>GENOMES DATA IN ENTREZ: REPRESENTATION AND ANALYSIS.<br \/>\n<i>TATUSOVA T.A.,\u00a0OSTELL J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>OTA MOTONORI<\/strong>\n<ul>\n<li>DETECTION OF SIMILAR PROTEINS BY THE INVERSE-FOLDING PROTOCOL.<br \/>\n<i>OTA MOTONORI,\u00a0NISHIKAWA KEN<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>OVERTON G.C.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>B-DNA-VIDEO: AN ACTIVE DATABASE FOR THE SIGNIFICANT B-DNA FEATURES OF TRANSCRIPTION FACTOR BINDING SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0LEVITSKY V.G.,\u00a0PODKOLODNAYA O.A.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>RECOGNITION OF THE SUBSET OF EUKARYOTIC PROMOTERS.<br \/>\n<i>KONDRAKHIN Y.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>RECOGNITION ACCURACY OF DNA FUNCTIONAL SITES CAN BE INCREASED BY AVERAGING PARTIAL RECOGNITIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0KOLCHANOV N.A.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>REVEALING THE CONFORMATIONAL AND PHYSICO-CHEMICAL DNA PROPERTIES APPLICABLE FOR PREDICTING THE ACTIVITY OF DNA FUNCTIONAL SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0PONOMARENKO J.V.,\u00a0FROLOV A.S.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>P<\/strong><\/h1>\n<ul>\n<li><strong>PANIN L.E.<\/strong>\n<ul>\n<li>DISTURBANCES OF GENOM REGULATION AS THE CONSEQUENCE OF THE STRUCTURAL LIKENESS OF HIV-1 ENV PROTEINS AND HUMAN APOLIPOPROTEIN A-I.<br \/>\n<i>PANIN L.E.,\u00a0LUKASHEV V.A.,\u00a0GIMAUTDINOVA O.I.<\/i><\/li>\n<li>ANTIGENIC MIMICRY OF HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 AS A RESULT OF STRUCTURAL SIMILARITY OF PROTEIN GP120 AND HUMAN APOLIPOPROTEIN A-1.<br \/>\n<i>LUKASHEV V.A.,\u00a0FROLOV A.S.,\u00a0PANIN L.E.,\u00a0GIMAUTDINOVA O.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PANKRATOVA E.V.<\/strong>\n<ul>\n<li>OCT PROTEINS AND OCT GENES: DNA RECOGNITION AND TRANSCRIPTIONALREGULATION.<br \/>\n<i>POLANOVSKY O.L.,\u00a0PANKRATOVA E.V.,\u00a0STEPCHENKO A.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PEDERSEN ANDERS GORM<\/strong>\n<ul>\n<li>DNA STRUCTURE IN HUMAN RNA POLYMERASE II PROMOTERS.<br \/>\n<i>PEDERSEN ANDERS GORM,\u00a0BALDI PIERRE,\u00a0CHAUVIN YVES,\u00a0BRUNAK SOREN<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PELTEK S.E.<\/strong>\n<ul>\n<li>PLANT-TRRD DATABASE.<br \/>\n<i>GORYACHKOVSKY T.N.,\u00a0ANANKO E.A.,\u00a0PELTEK S.E.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PEREGOEDOVA E.L.<\/strong>\n<ul>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PEREVOZCHIKOV A.<\/strong>\n<ul>\n<li>FUNCTIONAL ACTIVITY OF A NOVEL GCC-ELEMENT FOUND IN HOMOLOGOUS REGULATORY REGIONS OF SOME HUMAN GENES.<br \/>\n<i>PEREVOZCHIKOV A.,\u00a0ORLOV S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PEREZ-RUEDA E.<\/strong>\n<ul>\n<li>ANALYSIS OF TRANSCRIPTIONAL FACTORS IN E. COLI.<br \/>\n<i>PEREZ-RUEDA E.,\u00a0VAN HELDEN J.,\u00a0WODAK S.,\u00a0COLLADO-VIDES J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PERRIERE G.<\/strong>\n<ul>\n<li>ASYMMETRICAL CODING SEQUENCE REPARTITION AND CODON ADAPTATION INDEX VALUES BETWEEN LEADING AND LAGGING STRANDS IN SEVEN BACTERIAL SPECIES.<br \/>\n<i>PERRIERE G.,\u00a0LOBRY J.R.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PESHKIN L.<\/strong>\n<ul>\n<li>SEGMENTATION OF YEAST DNA USING HIDDEN MARKOV MODELS.<br \/>\n<i>PESHKIN L.,\u00a0GELFAND M.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PETROV N.A.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PILUGIN M.V.<\/strong>\n<ul>\n<li>STRUCTURAL AND COMPOSITIONAL FEATURES OF 5\u2019 UNTRANSLATED REGIONS OF HIGHER PLANT MRNAS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PILUGIN M.V.,\u00a0KOLPAKOV F.A.,\u00a0BABENKO V.N.,\u00a0KVASHNINA E.V.,\u00a0SHUMNY V.K.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PINCHUK A.O.<\/strong>\n<ul>\n<li>SOME PECULIARITIES OF LONG-RANGE INTERACTION BETWEEN NUCLEOTIDES IN THE INTRACELLULAR LIQUIDS.<br \/>\n<i>PINCHUK A.O.,\u00a0VYSOTSKII V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PODKOLODNAYA O.A.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>THE ESRG-TRRD: DATABASE OF GENES WITH SPECIFIC TRANSCRIPTION REGULATION IN ERYTHROID CELLS.<br \/>\n<i>PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.<\/i><\/li>\n<li>SAMPLES AND ALIGNED: DATABASES FOR FUNCTIONAL SITE SEQUENCES.<br \/>\n<i>VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.<\/i><\/li>\n<li>B-DNA-VIDEO: AN ACTIVE DATABASE FOR THE SIGNIFICANT B-DNA FEATURES OF TRANSCRIPTION FACTOR BINDING SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0LEVITSKY V.G.,\u00a0PODKOLODNAYA O.A.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>SEARCH FOR DEGENERATE OLIGONUCLEOTIDE MOTIFS IN TRANSCRIPTION FACTOR BINDING SITES AND EUKARYOTIC PROMOTERS (THE SYSTEM ARGO).<br \/>\n<i>VISHNEVSKY O.V.,\u00a0PODKOLODNAYA O.A.,\u00a0BABENKO V.N.<\/i><\/li>\n<li>RECOGNITION ACCURACY OF DNA FUNCTIONAL SITES CAN BE INCREASED BY AVERAGING PARTIAL RECOGNITIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0KOLCHANOV N.A.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>REVEALING THE CONFORMATIONAL AND PHYSICO-CHEMICAL DNA PROPERTIES APPLICABLE FOR PREDICTING THE ACTIVITY OF DNA FUNCTIONAL SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0PONOMARENKO J.V.,\u00a0FROLOV A.S.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PODKOLODNY N.L.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>REVEALING THE CONFORMATIONAL AND PHYSICO-CHEMICAL DNA PROPERTIES APPLICABLE FOR PREDICTING THE ACTIVITY OF DNA FUNCTIONAL SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0PONOMARENKO J.V.,\u00a0FROLOV A.S.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>MGL-PROT: THE ANTHOLOGY-BASED QUERY LANGUAGE FOR THE USER SEARCH FOR THE 3D STRUCTURES AND FUNCTIONS OF PROTEINS IN THE WWW-AVAILABLE DATABASES.<br \/>\n<i>KOLPAKOV F.A.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO M.P.,\u00a0PODKOLODNY N.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PODSOSONNY V.A.<\/strong>\n<ul>\n<li>THE LEUCINE MOTIF IN SUBUNITS 6 AND 9 OF PLANT MITOCHONDRIAL ATP SYNTHASE PROVIDING PRESUMABLY THE ASSEMBLY OF THE MEMBRANE PART OF THE ENZYME.<br \/>\n<i>KONSTANTINOV Yu.M.,\u00a0ARZIEV A.Sh.,\u00a0PODSOSONNY V.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>POKROVSKI SERGEI V.<\/strong>\n<ul>\n<li>A PROGRAM FOR CALCULATING GAPPED DINUCLEOTIDE CORRELATIONS IN NUCLEIC ACID SEQUENCES AND ITS APPLICATION TO REVEAL SPECIFIC SEQUENCE FEATURES OF X-LINKED PROMOTERS IN DROSOPHILA.<br \/>\n<i>ARKHIPOVA IRINA R.,\u00a0POKROVSKI SERGEI V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>POLANOVSKY O.L.<\/strong>\n<ul>\n<li>OCT PROTEINS AND OCT GENES: DNA RECOGNITION AND TRANSCRIPTIONALREGULATION.<br \/>\n<i>POLANOVSKY O.L.,\u00a0PANKRATOVA E.V.,\u00a0STEPCHENKO A.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>POLOS&#8217;MAK N.V.<\/strong>\n<ul>\n<li>RECONSTRUCTION OF THE GENOFOND PECULIARITIES OF THE ANCIENT PAZYRYK POPULATION (I-II MILLENIUM BC) FROM GORNY ALTAI ACCORDING TO THE MTDNA STRUCTURE.<br \/>\n<i>VOEVODA M.I.,\u00a0SITNIKOVA V.V.,\u00a0ROMASHCHENKO A.G.,\u00a0CHIKISHEVA T.A.,\u00a0POLOS&#8217;MAK N.V.,\u00a0MOLODIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>POLOZOV R.V.<\/strong>\n<ul>\n<li>MOLECULAR MECHANISMS OF PROMOTER-POLYMERASE RECOGNITION. ELECTROSTATIC INTERACTIONS IN PROMOTERS RECOGNIZED BY E.COLI Esigma70.<br \/>\n<i>KAMZOLOVA S.G.,\u00a0DZHELYADIN T.R.,\u00a0SOROKIN A.A.,\u00a0IVANOVA N.N.,\u00a0KUTUZOVA G.I.,\u00a0ESIPOVA N.G.,\u00a0POLOZOV R.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PONOMARENKO J.V.<\/strong>\n<ul>\n<li>SAMPLES AND ALIGNED: DATABASES FOR FUNCTIONAL SITE SEQUENCES.<br \/>\n<i>VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.<\/i><\/li>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<li>B-DNA-VIDEO: AN ACTIVE DATABASE FOR THE SIGNIFICANT B-DNA FEATURES OF TRANSCRIPTION FACTOR BINDING SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0LEVITSKY V.G.,\u00a0PODKOLODNAYA O.A.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>RECOGNITION ACCURACY OF DNA FUNCTIONAL SITES CAN BE INCREASED BY AVERAGING PARTIAL RECOGNITIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0KOLCHANOV N.A.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>QUANTITATIVE COMPUTER-ASSISTED ANALYSIS OF THE TATA-BINDING PROTEIN AFFINITY FOR COMPLEMENTARY DUPLEXES OF SYNTHETIC OLIGODEOXYRIBONUCLEOTIDES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0RAU V.A.,\u00a0KOBZEV V.F.,\u00a0PONOMARENKO M.P.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>REVEALING THE CONFORMATIONAL AND PHYSICO-CHEMICAL DNA PROPERTIES APPLICABLE FOR PREDICTING THE ACTIVITY OF DNA FUNCTIONAL SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0PONOMARENKO J.V.,\u00a0FROLOV A.S.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>CLASSIFICATION OF EUKARYOTIC TRANSCRIPTION FACTORS BASED ON SIGNIFICANT B-DNA CONFORMATIONAL AND PHYSICO-CHEMICAL PROPERTIES OF THEIR BINDING SITES.<br \/>\n<i>PONOMARENKO J.V.<\/i><\/li>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>BIOINFORMATICS FOR HUMANITARIANS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.,\u00a0MIKHAILOV Yu.I.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME HUMAN GENOME FOR EDUCATION IN BUSINESS, LAW AND COMMERCE.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.,\u00a0MIKHAILOV Yu.I.<\/i><\/li>\n<li>SIGNIFICANT B-DNA CONFORMATIONAL AND PHYSICO-CHEMICAL PROPERTIES OF THE DNA TOPOISOMERASE I SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0KUZIN F.E.,\u00a0GRUZDEV A.D.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PONOMARENKO M.P.<\/strong>\n<ul>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<li>B-DNA-VIDEO: AN ACTIVE DATABASE FOR THE SIGNIFICANT B-DNA FEATURES OF TRANSCRIPTION FACTOR BINDING SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0LEVITSKY V.G.,\u00a0PODKOLODNAYA O.A.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>RECOGNITION ACCURACY OF DNA FUNCTIONAL SITES CAN BE INCREASED BY AVERAGING PARTIAL RECOGNITIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0KOLCHANOV N.A.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>QUANTITATIVE COMPUTER-ASSISTED ANALYSIS OF THE TATA-BINDING PROTEIN AFFINITY FOR COMPLEMENTARY DUPLEXES OF SYNTHETIC OLIGODEOXYRIBONUCLEOTIDES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0RAU V.A.,\u00a0KOBZEV V.F.,\u00a0PONOMARENKO M.P.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>REVEALING THE CONFORMATIONAL AND PHYSICO-CHEMICAL DNA PROPERTIES APPLICABLE FOR PREDICTING THE ACTIVITY OF DNA FUNCTIONAL SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0PONOMARENKO J.V.,\u00a0FROLOV A.S.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>EUKARYOTIC MRNAS ENCODING ABUNDANT AND SCARCE PROTEINS ARE DISSIMILAR IN MANY STRUCTURAL FEATURES OF 5\u2019-UNTRANSLATED LEADERS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0FROLOV A.S.,\u00a0KISSELEV L.L.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>MGL-PROT: THE ANTHOLOGY-BASED QUERY LANGUAGE FOR THE USER SEARCH FOR THE 3D STRUCTURES AND FUNCTIONS OF PROTEINS IN THE WWW-AVAILABLE DATABASES.<br \/>\n<i>KOLPAKOV F.A.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO M.P.,\u00a0PODKOLODNY N.L.<\/i><\/li>\n<li>LIKENESS: A SYSTEM SEARCHING FOR AND ALIGNING SIMILAR PROTEIN CONFORMATIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0SHINDYALOV I.,\u00a0BOURNE P.<\/i><\/li>\n<li>AUTOMATIC GENERATION OF RECOGNITION PROGRAMS FOR AMINO ACID SEQUENCES.<br \/>\n<i>VALUEV V.P.,\u00a0KUROPATOV D.A.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<li>BIOINFORMATICS FOR HUMANITARIANS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.,\u00a0MIKHAILOV Yu.I.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME EQUILIBRIUM FOR EDUCATION IN ECONOMICS, COMMERCE, AND LAW.<br \/>\n<i>PONOMARENKO M.P.,\u00a0ISHCHENKO I.V.,\u00a0FROLOV A.S.,\u00a0MININA A.V.,\u00a0KONEVA E.I.,\u00a0MIKHAILOV Yu.I.,\u00a0IVASHIN S.A.<\/i><\/li>\n<li>BUSINESS GAME HUMAN GENOME FOR EDUCATION IN BUSINESS, LAW AND COMMERCE.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0MININA A.V.,\u00a0IVASHIN S.A.,\u00a0MIKHAILOV Yu.I.<\/i><\/li>\n<li>SIGNIFICANT B-DNA CONFORMATIONAL AND PHYSICO-CHEMICAL PROPERTIES OF THE DNA TOPOISOMERASE I SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0KUZIN F.E.,\u00a0GRUZDEV A.D.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>POPOVA T.G.<\/strong>\n<ul>\n<li>AUTHOMATIC CLASSIFICATION OF NUCLEOTIDE SEQUENCES AND ITS RELATION TO NATURAL TAXONOMY AND PROTEIN FUNCTION.<br \/>\n<i>GORBAN A.N.,\u00a0POPOVA T.G.,\u00a0SADOVSKY M.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>PUZYREV A.A.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>R<\/strong><\/h1>\n<ul>\n<li><strong>RATNER V.A.<\/strong>\n<ul>\n<li>THEORY OF MOLECULAR GENETIC REGULATORY SYSTEMS (MGRS): KEY IDEAS AND RESULTS.<br \/>\n<i>RATNER V.A.<\/i><\/li>\n<li>ANALYSIS OF FUNCTIONAL SITE MOTIFS OF MOBILE GENETIC ELEMENTS RELATIVE TO THEIR POSSIBLE MOLECULAR FUNCTIONS.<br \/>\n<i>AMIKISHIEV V.G.,\u00a0RATNER V.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>RAU V.A.<\/strong>\n<ul>\n<li>QUANTITATIVE COMPUTER-ASSISTED ANALYSIS OF THE TATA-BINDING PROTEIN AFFINITY FOR COMPLEMENTARY DUPLEXES OF SYNTHETIC OLIGODEOXYRIBONUCLEOTIDES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0RAU V.A.,\u00a0KOBZEV V.F.,\u00a0PONOMARENKO M.P.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>STRUCTURE-FUNCTIONAL HOMOLOGY OF THE PROKARYOTIC AND EUKARYOTIC RNA POLYMERASES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0SEDOVA V.M.,\u00a0RAU V.A.,\u00a0TULOKHONOV I.I,\u00a0KOBZEV V.F.,\u00a0ARSHINOVA T.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>REINITZ J.<\/strong>\n<ul>\n<li>GENET, A DATABASE OF GENETIC NETWORKS.<br \/>\n<i>SAMSONOVA M.G.,\u00a0SAVOSTYANOVA E.G.,\u00a0SEROV V.N.,\u00a0SPIROV A.V.,\u00a0REINITZ J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>RESENCHUK S.M.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<li>INVARIANT SECONDARY STRUCTURE OF ALU REPEATS PREDETERMINES CLUSTERIZATION OF REGULATORY ELEMENTS IN HUMAN GENOME.<br \/>\n<i>BLINOV V.M.,\u00a0UVAROV D.L.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0KISSELEV L.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>RINTARO SAITO<\/strong>\n<ul>\n<li>ON NEGATIVE SELECTION AGAINST ATG TRIPLETS NEAR START CODONS IN EUCARYOTIC AND PROCARYOTIC GENOMES.<br \/>\n<i>RINTARO SAITO,\u00a0TOMITA MASARU<\/i><\/li>\n<li>COMPUTER ANALYSIS OF BASE PAIRING FREE-ENERGY BETWEEN SHINE-DALGARNO SEQUENCE AND 16S RRNA SEQUENCE IN VARIOUS PROCARYOTES.<br \/>\n<i>OSADA YUKO,\u00a0RINTARO SAITO,\u00a0TOMITA MASARU<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ROGOZIN I.B.<\/strong>\n<ul>\n<li>IN SILICO IDENTIFICATION OF MARS\/SARS IN DNA SEQUENCES.<br \/>\n<i>GLAZKO G.V.,\u00a0ROGOZIN I.B.,\u00a0GLAZKOV M.V.<\/i><\/li>\n<li>WEBGENE: INTERACTIVE TOOLS FOR PREDICTION AND ANALYSIS OF PROTEIN-CODING GENES STRUCTURE IN INTERNET.<br \/>\n<i>MILANESI L.,\u00a0ROGOZIN I.B.,\u00a0D\u2019ANGELO D.<\/i><\/li>\n<li>THREE SUBFAMILIES OF SHORT INTERSPERSED ELEMENTS OF THE DOG GENOME: POSSIBLE ORIGIN AND FUNCTIONS.<br \/>\n<i>KOLESNIKOV N.N.,\u00a0ROGOZIN I.B.,\u00a0LAVRENTIEVA M.V.,\u00a0ELISAPHENKO E.A.<\/i><\/li>\n<li>SEARCHING FOR THE IMMUNOGLOBULIN SUPERFAMILY GENES IN C.ELEGANS.<br \/>\n<i>TARANIN A.V.,\u00a0ROGOZIN I.B.<\/i><\/li>\n<li>REGRESSION ANALYSIS OF MUTATIONAL SPECTRA.<br \/>\n<i>ROGOZIN I.B.,\u00a0BERIKOV V.B.<\/i><\/li>\n<li>THE SEQUENCING AND MOLECULAR ANALYSIS OF COXI GENE FRAGMENTS OF WILD PERENNIAL CROP ELYMUS SIBIRICUS L..<br \/>\n<i>FALSHINA I.V.,\u00a0VERBITSKII D.S.,\u00a0ROGOZIN I.B.,\u00a0KONSTANTINOV Yu.M.,\u00a0TAUSON E.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ROMASHCHENKO A.G.<\/strong>\n<ul>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>COMPEL: A DATABASE ON COMPOSITE REGULATORY ELEMENTS.<br \/>\n<i>KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0FRISCH M.,\u00a0ROMASHCHENKO A.G.,\u00a0KOLCHANOV N.A.,\u00a0WINGENDER E.<\/i><\/li>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<li>RECONSTRUCTION OF THE GENOFOND PECULIARITIES OF THE ANCIENT PAZYRYK POPULATION (I-II MILLENIUM BC) FROM GORNY ALTAI ACCORDING TO THE MTDNA STRUCTURE.<br \/>\n<i>VOEVODA M.I.,\u00a0SITNIKOVA V.V.,\u00a0ROMASHCHENKO A.G.,\u00a0CHIKISHEVA T.A.,\u00a0POLOS&#8217;MAK N.V.,\u00a0MOLODIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ROYTBERG M.A.<\/strong>\n<ul>\n<li>SOME PROBLEMS OF GENE RECOGNITION IN PROTIST DNA.<br \/>\n<i>ASTAKHOVA T.V.,\u00a0GELFAND M.S.,\u00a0ROYTBERG M.A.<\/i><\/li>\n<li>SEQUENCE ALIGNMENT WITHOUT GAP PENALTIES.<br \/>\n<i>ROYTBERG M.A.,\u00a0SEMIONENKOV M.N.,\u00a0TABOLINA O.Yu.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>RUDENKO V.M.<\/strong>\n<ul>\n<li>TRIPLET PERIODICITY OF THE DNA CODING AND NONCODING REGIONS.<br \/>\n<i>RUDENKO V.M.,\u00a0KOROTKOV E.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>RUZANKINA Ya.S.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>S<\/strong><\/h1>\n<ul>\n<li><strong>SADOVSKY M.G.<\/strong>\n<ul>\n<li>MAXIMUM ENTROPY PRINCIPLE AND MEASUREMENT OF INFORMATION CONTENT OF GENETIC TEXT.<br \/>\n<i>BUGAENKO N.N.,\u00a0GORBAN A.N.,\u00a0SADOVSKY M.G.<\/i><\/li>\n<li>AUTHOMATIC CLASSIFICATION OF NUCLEOTIDE SEQUENCES AND ITS RELATION TO NATURAL TAXONOMY AND PROTEIN FUNCTION.<br \/>\n<i>GORBAN A.N.,\u00a0POPOVA T.G.,\u00a0SADOVSKY M.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SAKURA TANIDA<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SALAMOV A.A.<\/strong>\n<ul>\n<li>INFOGENE: A DATABASE OF KNOWN GENE STRUCTURES AND PREDICTED GENES AND PROTEINS IN SEQUENCES OF GENOME SEQUENCING PROJECTS.<br \/>\n<i>SOLOVYEV V.V.,\u00a0SALAMOV A.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SALAS F.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SAMSONOVA M.G.<\/strong>\n<ul>\n<li>GENET, A DATABASE OF GENETIC NETWORKS.<br \/>\n<i>SAMSONOVA M.G.,\u00a0SAVOSTYANOVA E.G.,\u00a0SEROV V.N.,\u00a0SPIROV A.V.,\u00a0REINITZ J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SANDAKHCHIEV L.S.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SAPOZHNIKOV A.N.<\/strong>\n<ul>\n<li>MINIMUM ENTROPY PRINCIPLE AND CLASSIFICATION OF SYMBOLS FOR REVEALING STATISTICAL REGULARITIES IN A TEXT.<br \/>\n<i>BUGAENKO N.N.,\u00a0GORBAN A.N.,\u00a0SAPOZHNIKOV A.N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SASAKI SHINYA<\/strong>\n<ul>\n<li>A THREE-LAYER MODEL FOR DESCRIBING DEVELOPMENT OF C.ELEGANS.<br \/>\n<i>TSUGUCHIKA KAMINUMA,\u00a0IGARASHI TAKAKO,\u00a0NAKANO TATSUYA,\u00a0SASAKI SHINYA,\u00a0MIWA JOHJI<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SAVINKOVA L.K.<\/strong>\n<ul>\n<li>QUANTITATIVE COMPUTER-ASSISTED ANALYSIS OF THE TATA-BINDING PROTEIN AFFINITY FOR COMPLEMENTARY DUPLEXES OF SYNTHETIC OLIGODEOXYRIBONUCLEOTIDES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0RAU V.A.,\u00a0KOBZEV V.F.,\u00a0PONOMARENKO M.P.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>STRUCTURE-FUNCTIONAL HOMOLOGY OF THE PROKARYOTIC AND EUKARYOTIC RNA POLYMERASES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0SEDOVA V.M.,\u00a0RAU V.A.,\u00a0TULOKHONOV I.I,\u00a0KOBZEV V.F.,\u00a0ARSHINOVA T.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SAVOSTYANOVA E.G.<\/strong>\n<ul>\n<li>GENET, A DATABASE OF GENETIC NETWORKS.<br \/>\n<i>SAMSONOVA M.G.,\u00a0SAVOSTYANOVA E.G.,\u00a0SEROV V.N.,\u00a0SPIROV A.V.,\u00a0REINITZ J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SCHOLZ U.<\/strong>\n<ul>\n<li>MOLECULAR DATABASE INTEGRATION: ANALYSIS OF METABOLIC NETWORK CONTROL.<br \/>\n<i>FREIER A.,\u00a0HODING M.,\u00a0HOFESTADT R.,\u00a0LANGE M,\u00a0SCHOLZ U.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SCHULTZ JORG<\/strong>\n<ul>\n<li>STRUCTURAL AND FUNCTIONAL ANNOTATION OF GENOMIC SEQUENCES:ASSIGNMENT OF FOLD FAMILY AND SORTING OF PROTEINS WITH RESPECT TO SUBCELLULAR LOCALIZATION.<br \/>\n<i>EISENHABER FRANK,\u00a0BORK PEER,\u00a0HUYNEN MARTIJN,\u00a0ORENGO CHRISTINE,\u00a0SCHULTZ JORG,\u00a0SUNYAEV SHAMIL R.,\u00a0YUAN YANPING<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SEDOVA V.M.<\/strong>\n<ul>\n<li>STRUCTURE-FUNCTIONAL HOMOLOGY OF THE PROKARYOTIC AND EUKARYOTIC RNA POLYMERASES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0SEDOVA V.M.,\u00a0RAU V.A.,\u00a0TULOKHONOV I.I,\u00a0KOBZEV V.F.,\u00a0ARSHINOVA T.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SELEDTSOV I.A.<\/strong>\n<ul>\n<li>RAPID ESTIMATES OF STATISTICAL SIGNIFICANCE OF THE PAIRWISE NUCLEOTIDE SEQUENCE ALIGNMENT.<br \/>\n<i>SELEDTSOV I.A.,\u00a0KOLPAKOV F.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SEMENOV D.V.<\/strong>\n<ul>\n<li>LACTOFERRIN IS A NEW TRANSCRIPTIONAL FACTOR HAVING MANY DIFFERENT UNIQUE BIOLOGICAL FUNCTIONS.<br \/>\n<i>KANYSHKOVA T.G.,\u00a0SEMENOV D.V.,\u00a0BUNEVA V.N.,\u00a0NEVINSKY G.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SEMIONENKOV M.N.<\/strong>\n<ul>\n<li>SEQUENCE ALIGNMENT WITHOUT GAP PENALTIES.<br \/>\n<i>ROYTBERG M.A.,\u00a0SEMIONENKOV M.N.,\u00a0TABOLINA O.Yu.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SEROV V.N.<\/strong>\n<ul>\n<li>GENET, A DATABASE OF GENETIC NETWORKS.<br \/>\n<i>SAMSONOVA M.G.,\u00a0SAVOSTYANOVA E.G.,\u00a0SEROV V.N.,\u00a0SPIROV A.V.,\u00a0REINITZ J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SHAHMURADOV I.A.<\/strong>\n<ul>\n<li>SOME POSSIBLE ELEMENTS OF TRANSCRIPTION REGULATION OF RICE CHLOROPLAST ENCODED GENES.<br \/>\n<i>SHAHMURADOV I.A.,\u00a0MUSTAFAYEV N.Sh.,\u00a0ALIEV J.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SHAM M.H.<\/strong>\n<ul>\n<li>LARGE SCALE SCREENING FOR TRANSCRIPTION REGULATORY SEQUENCES RECOGNISED BY HOX HOMEODOMAIN PROTEINS.<br \/>\n<i>JAKT L.M.,\u00a0SHAM M.H.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SHINDYALOV I.<\/strong>\n<ul>\n<li>LIKENESS: A SYSTEM SEARCHING FOR AND ALIGNING SIMILAR PROTEIN CONFORMATIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0SHINDYALOV I.,\u00a0BOURNE P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SHUMNY V.K.<\/strong>\n<ul>\n<li>STRUCTURAL AND COMPOSITIONAL FEATURES OF 5\u2019 UNTRANSLATED REGIONS OF HIGHER PLANT MRNAS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PILUGIN M.V.,\u00a0KOLPAKOV F.A.,\u00a0BABENKO V.N.,\u00a0KVASHNINA E.V.,\u00a0SHUMNY V.K.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SITNIKOVA V.V.<\/strong>\n<ul>\n<li>RECONSTRUCTION OF THE GENOFOND PECULIARITIES OF THE ANCIENT PAZYRYK POPULATION (I-II MILLENIUM BC) FROM GORNY ALTAI ACCORDING TO THE MTDNA STRUCTURE.<br \/>\n<i>VOEVODA M.I.,\u00a0SITNIKOVA V.V.,\u00a0ROMASHCHENKO A.G.,\u00a0CHIKISHEVA T.A.,\u00a0POLOS&#8217;MAK N.V.,\u00a0MOLODIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SMITH S.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SOKOLENKO A.A.<\/strong>\n<ul>\n<li>QUANTITATIVE COMPUTER-ASSISTED ANALYSIS OF THE TATA-BINDING PROTEIN AFFINITY FOR COMPLEMENTARY DUPLEXES OF SYNTHETIC OLIGODEOXYRIBONUCLEOTIDES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0RAU V.A.,\u00a0KOBZEV V.F.,\u00a0PONOMARENKO M.P.,\u00a0PONOMARENKO J.V.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>STRUCTURE-FUNCTIONAL HOMOLOGY OF THE PROKARYOTIC AND EUKARYOTIC RNA POLYMERASES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0SEDOVA V.M.,\u00a0RAU V.A.,\u00a0TULOKHONOV I.I,\u00a0KOBZEV V.F.,\u00a0ARSHINOVA T.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SOLOVYEV V.V.<\/strong>\n<ul>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>INFOGENE: A DATABASE OF KNOWN GENE STRUCTURES AND PREDICTED GENES AND PROTEINS IN SEQUENCES OF GENOME SEQUENCING PROJECTS.<br \/>\n<i>SOLOVYEV V.V.,\u00a0SALAMOV A.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SOROKIN A.A.<\/strong>\n<ul>\n<li>MOLECULAR MECHANISMS OF PROMOTER-POLYMERASE RECOGNITION. ELECTROSTATIC INTERACTIONS IN PROMOTERS RECOGNIZED BY E.COLI Esigma70.<br \/>\n<i>KAMZOLOVA S.G.,\u00a0DZHELYADIN T.R.,\u00a0SOROKIN A.A.,\u00a0IVANOVA N.N.,\u00a0KUTUZOVA G.I.,\u00a0ESIPOVA N.G.,\u00a0POLOZOV R.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SPIROV A.V.<\/strong>\n<ul>\n<li>HOX-PRO DB: THE WAYS OF EVOLUTION OF ENSEMBLES OF HOMEOBOX GENES-CONTROLLERS OF DEVELOPMENT.<br \/>\n<i>SPIROV A.V.<\/i><\/li>\n<li>GENET, A DATABASE OF GENETIC NETWORKS.<br \/>\n<i>SAMSONOVA M.G.,\u00a0SAVOSTYANOVA E.G.,\u00a0SEROV V.N.,\u00a0SPIROV A.V.,\u00a0REINITZ J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>STEPANENKO I.L.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>TRANSCRIPTION REGULATORY REGIONS DATABASE (TRRD): NEW POSSIBILITIES PROVIDED BY RELEASE 4.0.<br \/>\n<i>KOLCHANOV N.A.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0ANANKO E.A.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0GORYACHKOVSKY T.N.,\u00a0KOLPAKOV F.A.,\u00a0PODKOLODNY N.L.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0FROLOV A.S.,\u00a0ROMASHCHENKO A.G.<\/i><\/li>\n<li>THE ESRG-TRRD: DATABASE OF GENES WITH SPECIFIC TRANSCRIPTION REGULATION IN ERYTHROID CELLS.<br \/>\n<i>PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>STEPCHENKO A.G.<\/strong>\n<ul>\n<li>OCT PROTEINS AND OCT GENES: DNA RECOGNITION AND TRANSCRIPTIONALREGULATION.<br \/>\n<i>POLANOVSKY O.L.,\u00a0PANKRATOVA E.V.,\u00a0STEPCHENKO A.G.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>STOECKERT S.<\/strong>\n<ul>\n<li>EPOGERD: A DATABASE ON REGULATION OF EUKARYOTIC GENE EXPRESSION.<br \/>\n<i>STOECKERT S.,\u00a0PODKOLODNAYA O.A.,\u00a0KEL A.E.,\u00a0BRUNK B.,\u00a0HAAS J.,\u00a0SALAS F.,\u00a0STEPANENKO I.L.,\u00a0IGNATIEVA E.V.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>STORMO GARY D.<\/strong>\n<ul>\n<li>IDENTIFYING DNA AND PROTEIN PATTERNS WITH STATISTICALLY SIGNIFICANT ALIGNMENT MATRICES.<br \/>\n<i>HERTZ GERALD Z.,\u00a0STORMO GARY D.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SUNYAEV SHAMIL R.<\/strong>\n<ul>\n<li>STRUCTURAL AND FUNCTIONAL ANNOTATION OF GENOMIC SEQUENCES:ASSIGNMENT OF FOLD FAMILY AND SORTING OF PROTEINS WITH RESPECT TO SUBCELLULAR LOCALIZATION.<br \/>\n<i>EISENHABER FRANK,\u00a0BORK PEER,\u00a0HUYNEN MARTIJN,\u00a0ORENGO CHRISTINE,\u00a0SCHULTZ JORG,\u00a0SUNYAEV SHAMIL R.,\u00a0YUAN YANPING<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>SVISCHEVA G.R.<\/strong>\n<ul>\n<li>SELECTIVE MODELS FOR MAPPING OF GENES IDENTIFIED IN RADIATION HYBRIDS.<br \/>\n<i>SVISCHEVA G.R.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>T<\/strong><\/h1>\n<ul>\n<li><strong>TABOLINA O.Yu.<\/strong>\n<ul>\n<li>SEQUENCE ALIGNMENT WITHOUT GAP PENALTIES.<br \/>\n<i>ROYTBERG M.A.,\u00a0SEMIONENKOV M.N.,\u00a0TABOLINA O.Yu.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TAKAGI T.<\/strong>\n<ul>\n<li>A NEW CUT-OFF ESTIMATING ALGORITHM FOR TRANSCRIPTION FACTOR BINDABILITY ON DNA.<br \/>\n<i>TSUNODA T.,\u00a0TAKAGI T.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TAKAKO TAKAI<\/strong>\n<ul>\n<li>DEVELOPMENT OF A RECEPTOR DATABASE.<br \/>\n<i>KOTOKO NAKATA,\u00a0TAKAKO TAKAI,\u00a0TSUGUCHIKA KAMINUMA<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TAKANORI WASHIO<\/strong>\n<ul>\n<li>ANALYSIS OF COMPLETED GENOMES SUGGESTS THAT HAIRPIN FORMATION IS NOT A UNIVERSAL MECHANISM FOR PROCARYOTIC TRANSCRIPTION TERMINATION.<br \/>\n<i>TAKANORI WASHIO,\u00a0TOMITA MASARU<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TARANIN A.V.<\/strong>\n<ul>\n<li>SEARCHING FOR THE IMMUNOGLOBULIN SUPERFAMILY GENES IN C.ELEGANS.<br \/>\n<i>TARANIN A.V.,\u00a0ROGOZIN I.B.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TATUSOV R.L.<\/strong>\n<ul>\n<li>A NATURAL TAXONOMY OF GENE FAMILIES FROM COMPLETE GENOMES.<br \/>\n<i>TATUSOV R.L.,\u00a0KOONIN E.V.,\u00a0LIPMAN D.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TATUSOVA T.A.<\/strong>\n<ul>\n<li>GENOMES DATA IN ENTREZ: REPRESENTATION AND ANALYSIS.<br \/>\n<i>TATUSOVA T.A.,\u00a0OSTELL J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TAUSON E.L.<\/strong>\n<ul>\n<li>THE SEQUENCING AND MOLECULAR ANALYSIS OF COXI GENE FRAGMENTS OF WILD PERENNIAL CROP ELYMUS SIBIRICUS L..<br \/>\n<i>FALSHINA I.V.,\u00a0VERBITSKII D.S.,\u00a0ROGOZIN I.B.,\u00a0KONSTANTINOV Yu.M.,\u00a0TAUSON E.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TCHURAEU R.N.<\/strong>\n<ul>\n<li>THE EQUATIONS OF DYNAMICS OF GENES ACTIVITIES IN A GENERAL VIEW.<br \/>\n<i>TCHURAEU R.N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>THIEFFRY DENIS<\/strong>\n<ul>\n<li>FLOWER MORPHOGENESIS IN ARABIDOPSIS THALIANA: A LOGICAL ANALYSIS.<br \/>\n<i>MENDOZA LUIS,\u00a0ALVAREZ-BUYLLA ELENA,\u00a0THIEFFRY DENIS<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TITOV I.I.<\/strong>\n<ul>\n<li>PREDICTING RNA FOLDING BY GENETIC ALGORITHM WITH LOCAL EXHAUSTION.<br \/>\n<i>TITOV I.I.,\u00a0IVANISENKO V.A.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>STATISTICAL MODEL OF DOUBLE HELIX GROWTH.<br \/>\n<i>TITOV I.I.<\/i><\/li>\n<li>FUNCTIONAL RELATIONSHIP BETWEEN AMINO ACID RESIDUES AT N- AND C-TERMINI OF DNA-BINDING REGIONS OF TRANSCRIPTION FACTORS CREB AND AP-1 REVEALED BY ANALYZING THE PAIR CORRELATIONS OF AMINO ACID SUBSTITUTIONS.<br \/>\n<i>AFONNIKOV D.,\u00a0TITOV I.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TOM SHIMIZU<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TOMITA MASARU<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<li>ANALYSIS OF COMPLETED GENOMES SUGGESTS THAT HAIRPIN FORMATION IS NOT A UNIVERSAL MECHANISM FOR PROCARYOTIC TRANSCRIPTION TERMINATION.<br \/>\n<i>TAKANORI WASHIO,\u00a0TOMITA MASARU<\/i><\/li>\n<li>ON NEGATIVE SELECTION AGAINST ATG TRIPLETS NEAR START CODONS IN EUCARYOTIC AND PROCARYOTIC GENOMES.<br \/>\n<i>RINTARO SAITO,\u00a0TOMITA MASARU<\/i><\/li>\n<li>COMPUTER ANALYSIS OF BASE PAIRING FREE-ENERGY BETWEEN SHINE-DALGARNO SEQUENCE AND 16S RRNA SEQUENCE IN VARIOUS PROCARYOTES.<br \/>\n<i>OSADA YUKO,\u00a0RINTARO SAITO,\u00a0TOMITA MASARU<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TRIFONOV E.N.<\/strong>\n<ul>\n<li>HOW BASICS OF PROTEIN EVOLUTION COULD HELP THE GENE FINDING.<br \/>\n<i>TRIFONOV E.N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TSUGUCHIKA KAMINUMA<\/strong>\n<ul>\n<li>DEVELOPMENT OF A RECEPTOR DATABASE.<br \/>\n<i>KOTOKO NAKATA,\u00a0TAKAKO TAKAI,\u00a0TSUGUCHIKA KAMINUMA<\/i><\/li>\n<li>A THREE-LAYER MODEL FOR DESCRIBING DEVELOPMENT OF C.ELEGANS.<br \/>\n<i>TSUGUCHIKA KAMINUMA,\u00a0IGARASHI TAKAKO,\u00a0NAKANO TATSUYA,\u00a0SASAKI SHINYA,\u00a0MIWA JOHJI<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TSUNODA T.<\/strong>\n<ul>\n<li>A NEW CUT-OFF ESTIMATING ALGORITHM FOR TRANSCRIPTION FACTOR BINDABILITY ON DNA.<br \/>\n<i>TSUNODA T.,\u00a0TAKAGI T.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>TULOKHONOV I.I<\/strong>\n<ul>\n<li>STRUCTURE-FUNCTIONAL HOMOLOGY OF THE PROKARYOTIC AND EUKARYOTIC RNA POLYMERASES.<br \/>\n<i>SAVINKOVA L.K.,\u00a0SOKOLENKO A.A.,\u00a0SEDOVA V.M.,\u00a0RAU V.A.,\u00a0TULOKHONOV I.I,\u00a0KOBZEV V.F.,\u00a0ARSHINOVA T.V.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>U<\/strong><\/h1>\n<ul>\n<li><strong>ULYANOVA N.P.<\/strong>\n<ul>\n<li>THE BASIC PRINCIPLES OF DNA RECOGNITION BY SEQUENCE DEPENDENT AND INDEPENDENT ENZYMES.<br \/>\n<i>NEVINSKY G.A.,\u00a0VINOGRADOVA N.L.,\u00a0BUGREEV D.V.,\u00a0ISHENKO A.A.,\u00a0VASYUTINA E.L.,\u00a0ULYANOVA N.P.,\u00a0ZAKHAROVA O.D.,\u00a0KOLOCHEVA T.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>UMRANIA Y.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>URMILA KULKARNI-KALE<\/strong>\n<ul>\n<li>USE OF BIOINFORMATICS IN DEVELOPMENT OF PEPTIDE VACCINE.<br \/>\n<i>KOLASKAR A.S.,\u00a0URMILA KULKARNI-KALE,\u00a0GORE M.M.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>UVAROV D.L.<\/strong>\n<ul>\n<li>INVARIANT SECONDARY STRUCTURE OF ALU REPEATS PREDETERMINES CLUSTERIZATION OF REGULATORY ELEMENTS IN HUMAN GENOME.<br \/>\n<i>BLINOV V.M.,\u00a0UVAROV D.L.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0KISSELEV L.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>V<\/strong><\/h1>\n<ul>\n<li><strong>VALUEV V.P.<\/strong>\n<ul>\n<li>ACTIVITY: A DATABASE FOR ACTIVITIES OF FUNCTIONAL DNA\/RNA SITES.<br \/>\n<i>PONOMARENKO J.V.,\u00a0FURMAN D.P.,\u00a0MISHCHENKO T.M.,\u00a0KATOKHINA L.V.,\u00a0VALUEV V.P.,\u00a0PEREGOEDOVA E.L.,\u00a0FROLOV A.S.,\u00a0PODKOLODNY N.L.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<li>AUTOMATIC GENERATION OF RECOGNITION PROGRAMS FOR AMINO ACID SEQUENCES.<br \/>\n<i>VALUEV V.P.,\u00a0KUROPATOV D.A.,\u00a0PONOMARENKO M.P.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VAN HELDEN J.<\/strong>\n<ul>\n<li>ANALYSIS OF TRANSCRIPTIONAL FACTORS IN E. COLI.<br \/>\n<i>PEREZ-RUEDA E.,\u00a0VAN HELDEN J.,\u00a0WODAK S.,\u00a0COLLADO-VIDES J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VARDASANIDZE K.S.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VASYUTINA E.L.<\/strong>\n<ul>\n<li>THE BASIC PRINCIPLES OF DNA RECOGNITION BY SEQUENCE DEPENDENT AND INDEPENDENT ENZYMES.<br \/>\n<i>NEVINSKY G.A.,\u00a0VINOGRADOVA N.L.,\u00a0BUGREEV D.V.,\u00a0ISHENKO A.A.,\u00a0VASYUTINA E.L.,\u00a0ULYANOVA N.P.,\u00a0ZAKHAROVA O.D.,\u00a0KOLOCHEVA T.A.<\/i><\/li>\n<li>INTERPRETATION OF X-RAY ANALYSIS DATA OF THE HUMAN DNA TOPOISOMERASE I ON THE BASIS OF THE HUMAN DNA TOPOISOMERASE I ON THE BASIS OF THE ENZYME.<br \/>\n<i>BUGREEV D.V.,\u00a0VASYUTINA E.L.,\u00a0BUNEVA V.N.,\u00a0NEVINSKY G.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VERBITSKII D.S.<\/strong>\n<ul>\n<li>THE SEQUENCING AND MOLECULAR ANALYSIS OF COXI GENE FRAGMENTS OF WILD PERENNIAL CROP ELYMUS SIBIRICUS L..<br \/>\n<i>FALSHINA I.V.,\u00a0VERBITSKII D.S.,\u00a0ROGOZIN I.B.,\u00a0KONSTANTINOV Yu.M.,\u00a0TAUSON E.L.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VINOGRADOV S.S.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VINOGRADOVA N.L.<\/strong>\n<ul>\n<li>THE BASIC PRINCIPLES OF DNA RECOGNITION BY SEQUENCE DEPENDENT AND INDEPENDENT ENZYMES.<br \/>\n<i>NEVINSKY G.A.,\u00a0VINOGRADOVA N.L.,\u00a0BUGREEV D.V.,\u00a0ISHENKO A.A.,\u00a0VASYUTINA E.L.,\u00a0ULYANOVA N.P.,\u00a0ZAKHAROVA O.D.,\u00a0KOLOCHEVA T.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VISHNEVSKY O.V.<\/strong>\n<ul>\n<li>SEARCH FOR DEGENERATE OLIGONUCLEOTIDE MOTIFS IN TRANSCRIPTION FACTOR BINDING SITES AND EUKARYOTIC PROMOTERS (THE SYSTEM ARGO).<br \/>\n<i>VISHNEVSKY O.V.,\u00a0PODKOLODNAYA O.A.,\u00a0BABENKO V.N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VITRESCHAK A.<\/strong>\n<ul>\n<li>CONSERVED RNA STRUCTURES REGULATE INITIATION OF TRANLSATION OF ESCERICHIA COLI AND HAEMOPHILUS INFLUENZAE RIBOSOMAL PROTEIN OPERONS.<br \/>\n<i>VITRESCHAK A.,\u00a0BANSAL A.K.,\u00a0GELFAND M.S.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VOEVODA M.I.<\/strong>\n<ul>\n<li>NEW FUNCTIONS OF P53 GENE: REGULATORY AND HYPERSENSITIVE SITES IN EXONS OF MUTANT P53 MRNA FORMS.<br \/>\n<i>BLINOV V.M.,\u00a0RESENCHUK S.M.,\u00a0CHIRIKOVA G.B.,\u00a0PETROV N.A.,\u00a0PUZYREV A.A.,\u00a0ORESHKOVA S.F.,\u00a0KUVSHINOV V.N.,\u00a0ILYICHEV A.A.,\u00a0ROMASHCHENKO A.G.,\u00a0RUZANKINA Ya.S.,\u00a0MARTYNOV Yu.A.,\u00a0VINOGRADOV S.S.,\u00a0VOEVODA M.I.,\u00a0VARDASANIDZE K.S.,\u00a0KISSELEV L.L.,\u00a0MARTYNYUK R.A.,\u00a0SANDAKHCHIEV L.S.,\u00a0KARAKIN E.I.<\/i><\/li>\n<li>RECONSTRUCTION OF THE GENOFOND PECULIARITIES OF THE ANCIENT PAZYRYK POPULATION (I-II MILLENIUM BC) FROM GORNY ALTAI ACCORDING TO THE MTDNA STRUCTURE.<br \/>\n<i>VOEVODA M.I.,\u00a0SITNIKOVA V.V.,\u00a0ROMASHCHENKO A.G.,\u00a0CHIKISHEVA T.A.,\u00a0POLOS&#8217;MAK N.V.,\u00a0MOLODIN V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VOROBIEV D.G.<\/strong>\n<ul>\n<li>SAMPLES AND ALIGNED: DATABASES FOR FUNCTIONAL SITE SEQUENCES.<br \/>\n<i>VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.<\/i><\/li>\n<li>B-DNA-VIDEO: AN ACTIVE DATABASE FOR THE SIGNIFICANT B-DNA FEATURES OF TRANSCRIPTION FACTOR BINDING SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0LEVITSKY V.G.,\u00a0PODKOLODNAYA O.A.,\u00a0OVERTON G.C.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>A SYSTEM FOR ACTIVATION OF THE TRRD DATABASE: FURTHER DEVELOPMENT OF GENEEXPRESS.<br \/>\n<i>FROLOV A.S.,\u00a0LAVRYUSHEV S.V.,\u00a0VOROBIEV D.G.,\u00a0GRIGOROVICH D.A.<\/i><\/li>\n<li>RECOGNITION ACCURACY OF DNA FUNCTIONAL SITES CAN BE INCREASED BY AVERAGING PARTIAL RECOGNITIONS.<br \/>\n<i>PONOMARENKO M.P.,\u00a0FROLOV A.S.,\u00a0PONOMARENKO J.V.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0KOLCHANOV N.A.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>REVEALING THE CONFORMATIONAL AND PHYSICO-CHEMICAL DNA PROPERTIES APPLICABLE FOR PREDICTING THE ACTIVITY OF DNA FUNCTIONAL SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0KOLCHANOV N.A.,\u00a0PONOMARENKO J.V.,\u00a0FROLOV A.S.,\u00a0PODKOLODNAYA O.A.,\u00a0VOROBIEV D.G.,\u00a0PODKOLODNY N.L.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>EUKARYOTIC MRNAS ENCODING ABUNDANT AND SCARCE PROTEINS ARE DISSIMILAR IN MANY STRUCTURAL FEATURES OF 5\u2019-UNTRANSLATED LEADERS.<br \/>\n<i>KOCHETOV A.V.,\u00a0PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0FROLOV A.S.,\u00a0KISSELEV L.L.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>THE STRUCTURAL ANALYSIS OF THE DNA FRAGMENTS ASSOCIATED WITH THE NUCLEAR LAMINS IN DROSOPHILA MELANOGASTER.<br \/>\n<i>LIKHACHEVA E.,\u00a0PONOMARENKO M.P.,\u00a0BOGACHEV S.,\u00a0KOKOZA E.,\u00a0FISHER P.,\u00a0PONOMARENKO J.V.,\u00a0VOROBIEV D.G.,\u00a0KOLESOV G.B.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<li>SIGNIFICANT B-DNA CONFORMATIONAL AND PHYSICO-CHEMICAL PROPERTIES OF THE DNA TOPOISOMERASE I SITES.<br \/>\n<i>PONOMARENKO M.P.,\u00a0VOROBIEV D.G.,\u00a0PONOMARENKO J.V.,\u00a0KUZIN F.E.,\u00a0GRUZDEV A.D.,\u00a0KOLCHANOV N.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VTYURIN N.<\/strong>\n<ul>\n<li>PROTEIN 3D ALIGNMENT SOFTWARE FOR INTEL COMPUTERS.<br \/>\n<i>VTYURIN N.,\u00a0BATURIN V.,\u00a0GULIN V.,\u00a0GORYACHEV N.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>VYSOTSKII V.I.<\/strong>\n<ul>\n<li>SOME PECULIARITIES OF LONG-RANGE INTERACTION BETWEEN NUCLEOTIDES IN THE INTRACELLULAR LIQUIDS.<br \/>\n<i>PINCHUK A.O.,\u00a0VYSOTSKII V.I.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>W<\/strong><\/h1>\n<ul>\n<li><strong>WARNER S.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>WILLIAMS G.<\/strong>\n<ul>\n<li>CHARACTERIZATION OF THE COMPACT MODEL GENOME OF THE JAPANESE PUFFER FISH (FUGU RUBRIPES) USING A COSMID SEQUENCE SCANNING APPROACH.<br \/>\n<i>ELGAR G.,\u00a0CLARK M.S.,\u00a0EDWARDS Y.J.K.,\u00a0MEEK S.,\u00a0SMITH S.,\u00a0UMRANIA Y.,\u00a0WARNER S.,\u00a0WILLIAMS G.,\u00a0BISHOP M.J.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>WINGENDER E.<\/strong>\n<ul>\n<li>COMPEL: A DATABASE ON COMPOSITE REGULATORY ELEMENTS.<br \/>\n<i>KEL-MARGOULIS O.V.,\u00a0KEL A.E.,\u00a0FRISCH M.,\u00a0ROMASHCHENKO A.G.,\u00a0KOLCHANOV N.A.,\u00a0WINGENDER E.<\/i><\/li>\n<li>GENEEXPRESS SYSTEM: DESCRIPTION, ANALYSIS, AND RECOGNITION OF REGULATORY SEQUENCES IN EUKARYOTIC GENOMES.<br \/>\n<i>KOLCHANOV N.A.,\u00a0PONOMARENKO M.P.,\u00a0KONDRAKHIN Y.V.,\u00a0FROLOV A.S.,\u00a0KOLPAKOV F.A.,\u00a0KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0ANANKO E.A.,\u00a0IGNATIEVA E.V.,\u00a0PODKOLODNAYA O.A.,\u00a0STEPANENKO I.L.,\u00a0MERKULOVA T.I.,\u00a0BABENKO V.N.,\u00a0VOROBIEV D.G.,\u00a0LAVRYUSHEV S.V.,\u00a0GRIGOROVICH D.A.,\u00a0PONOMARENKO J.V.,\u00a0KOCHETOV A.V.,\u00a0KOLESOV G.B.,\u00a0PODKOLODNY N.L.,\u00a0WINGENDER E.,\u00a0HAINEMEIER T.,\u00a0MILANESI L.,\u00a0SOLOVYEV V.V.,\u00a0OVERTON G.C.<\/i><\/li>\n<li>COMBINATORIAL IDENTIFICATION OF PROMOTERS INDUCED UPON IMMUNE CELL ACTIVATION.<br \/>\n<i>KEL A.E.,\u00a0KEL-MARGOULIS O.V.,\u00a0BABENKO V.N.,\u00a0WINGENDER E.<\/i><\/li>\n<li>STATISTICAL RELATION BETWEEN THE POSITIONS OF THE ALPHA-HELIX IN THE ZINC-FINGER DNA-BINDING DOMAIN: RESULTS FROM THE PHAGE DISPLAY DATA ANALYSIS.<br \/>\n<i>AFONNIKOV D.,\u00a0WINGENDER E.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>WODAK S.<\/strong>\n<ul>\n<li>ANALYSIS OF TRANSCRIPTIONAL FACTORS IN E. COLI.<br \/>\n<i>PEREZ-RUEDA E.,\u00a0VAN HELDEN J.,\u00a0WODAK S.,\u00a0COLLADO-VIDES J.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>Y<\/strong><\/h1>\n<ul>\n<li><strong>YUAN YANPING<\/strong>\n<ul>\n<li>STRUCTURAL AND FUNCTIONAL ANNOTATION OF GENOMIC SEQUENCES:ASSIGNMENT OF FOLD FAMILY AND SORTING OF PROTEINS WITH RESPECT TO SUBCELLULAR LOCALIZATION.<br \/>\n<i>EISENHABER FRANK,\u00a0BORK PEER,\u00a0HUYNEN MARTIJN,\u00a0ORENGO CHRISTINE,\u00a0SCHULTZ JORG,\u00a0SUNYAEV SHAMIL R.,\u00a0YUAN YANPING<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>YURI MATSUZAKI<\/strong>\n<ul>\n<li>A VIRTUAL CELL WITH 127 GENES.<br \/>\n<i>TOMITA MASARU,\u00a0KENTA HASHIMOTO,\u00a0KOUICHI TAKAHASHI,\u00a0TOM SHIMIZU,\u00a0YURI MATSUZAKI,\u00a0FUMIHIKO MIYOSHI,\u00a0KANAKO SAITO,\u00a0SAKURA TANIDA,\u00a0KATSUYUKI YUGI,\u00a0J. CRAIG VENTER,\u00a0CLYDE A. HUTCHISON<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h1><strong>Z<\/strong><\/h1>\n<ul>\n<li><strong>ZAKHAROV I.A.<\/strong>\n<ul>\n<li>GENOME HOMOLOGY AND CHROMOSOMAL PHYLOGENETICS-COMPARATIVE COMPUTER ANALYSIS.<br \/>\n<i>ZAKHAROV I.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ZAKHAROVA O.D.<\/strong>\n<ul>\n<li>THE BASIC PRINCIPLES OF DNA RECOGNITION BY SEQUENCE DEPENDENT AND INDEPENDENT ENZYMES.<br \/>\n<i>NEVINSKY G.A.,\u00a0VINOGRADOVA N.L.,\u00a0BUGREEV D.V.,\u00a0ISHENKO A.A.,\u00a0VASYUTINA E.L.,\u00a0ULYANOVA N.P.,\u00a0ZAKHAROVA O.D.,\u00a0KOLOCHEVA T.A.<\/i><\/li>\n<\/ul>\n<\/li>\n<li><strong>ZHANG MICHAEL Q.<\/strong>\n<ul>\n<li>A PROMOTER DATABASE OF YEAST SACCHAROMYCES CEREVISIAE (SCPD).<br \/>\n<i>JIAN ZHU,\u00a0ZHANG MICHAEL Q.<\/i><\/li>\n<\/ul>\n<\/li>\n<\/ul>\n","protected":false},"excerpt":{"rendered":"<p>A AFONNIKOV D. FUNCTIONAL RELATIONSHIP BETWEEN AMINO ACID RESIDUES AT N- AND C-TERMINI OF DNA-BINDING REGIONS OF TRANSCRIPTION FACTORS CREB AND AP-1 REVEALED BY ANALYZING THE PAIR CORRELATIONS OF AMINO ACID SUBSTITUTIONS. AFONNIKOV D.,\u00a0TITOV I.I. STATISTICAL RELATION BETWEEN THE POSITIONS &hellip; <a href=\"https:\/\/conf.icgbio.ru\/bgrs\/abstracts\/authors-index\/\">Continue reading <span class=\"meta-nav\">&rarr;<\/span><\/a><\/p>\n","protected":false},"author":13,"featured_media":0,"parent":246,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/pages\/252"}],"collection":[{"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/users\/13"}],"replies":[{"embeddable":true,"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/comments?post=252"}],"version-history":[{"count":20,"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/pages\/252\/revisions"}],"predecessor-version":[{"id":272,"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/pages\/252\/revisions\/272"}],"up":[{"embeddable":true,"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/pages\/246"}],"wp:attachment":[{"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/media?parent=252"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}