{"id":248,"date":"2021-10-18T12:37:05","date_gmt":"2021-10-18T09:37:05","guid":{"rendered":"https:\/\/conf.icgbio.ru\/bgrs\/?page_id=248"},"modified":"2021-10-18T12:49:35","modified_gmt":"2021-10-18T09:49:35","slug":"keywords-index","status":"publish","type":"page","link":"https:\/\/conf.icgbio.ru\/bgrs\/abstracts\/keywords-index\/","title":{"rendered":"Keywords index"},"content":{"rendered":"<h1>1<\/h1>\n<ul>\n<li>15 B-DNA\u00a015<\/li>\n<li>16S rRNA\u00a063<\/li>\n<\/ul>\n<h1>5<\/h1>\n<ul>\n<li>5&#8242;-untraslated leaders\u00a060<\/li>\n<li>5&#8242;-untraslated regions\u00a059<\/li>\n<\/ul>\n<h1>A<\/h1>\n<ul>\n<li>activated database\u00a042<\/li>\n<li>active database\u00a015<\/li>\n<li>activity\u00a014\u00a052<\/li>\n<li>adduct formations\u00a045<\/li>\n<li>alignment\u00a013\u00a073\u00a085<\/li>\n<li>alternative splicing\u00a067<\/li>\n<li>alu repeats\u00a089<\/li>\n<li>amino acid composition\u00a073<\/li>\n<li>amino acid sequence\u00a0111<\/li>\n<li>amino acid sequences\u00a085<\/li>\n<li>amino acid substitutions\u00a0106\u00a0107<\/li>\n<li>analysis tools\u00a01<\/li>\n<li>and RNA secondary structure\u00a082<\/li>\n<li>anthology\u00a074<\/li>\n<li>antigen determinant\u00a0113<\/li>\n<li>antigenic determinant\u00a0116<\/li>\n<li>antisense oligonucleotide\u00a081<\/li>\n<li>antiviral response\u00a018<\/li>\n<li>apolipoprotein\u00a0113\u00a0117<\/li>\n<li>arabidopsis thaliana\u00a024<\/li>\n<li>artificial neural networks\u00a030<\/li>\n<li>asymmetrical coding sequences\u00a069<\/li>\n<li>asymmetrical repartition\u00a069<\/li>\n<li>AUG triplets\u00a062<\/li>\n<li>automata\u00a021<\/li>\n<li>automated visualization\u00a018<\/li>\n<\/ul>\n<h1>B<\/h1>\n<ul>\n<li>B-DNA\u00a0127<\/li>\n<li>bacterial genomes\u00a039<\/li>\n<li>bacterial species\u00a069<\/li>\n<li>base pairing free energy\u00a063<\/li>\n<li>bending stiffness energy\u00a054<\/li>\n<li>benzopyrene\u00a045<\/li>\n<li>binary classification\u00a077<\/li>\n<li>binding sites\u00a010\u00a011\u00a012\u00a013\u00a015\u00a038\u00a068<\/li>\n<li>bioinformatics\u00a019\u00a0119<\/li>\n<li>bioprocesses regulation\u00a028<\/li>\n<li>biosyntesis\u00a010<\/li>\n<li>business game\u00a0122<\/li>\n<li>bZIP domain\u00a0106<\/li>\n<\/ul>\n<h1>C<\/h1>\n<ul>\n<li>Ca-dependent proteins\u00a086<\/li>\n<li>caenorhabditis. elegans\u00a03<\/li>\n<li>cell signaling\u00a021<\/li>\n<li>cellular automata\u00a0121<\/li>\n<li>cellular location\u00a0105<\/li>\n<li>central limit theorem\u00a042<\/li>\n<li>chloroplasts\u00a047<\/li>\n<li>cholesterol\u00a010<\/li>\n<li>chromosome\u00a093<\/li>\n<li>chromosome evolution\u00a093<\/li>\n<li>chromosome segmentation\u00a079<\/li>\n<li>classification\u00a053<\/li>\n<li>cleavage site\u00a0127<\/li>\n<li>cluster of orthologous groups\u00a087<\/li>\n<li>coding regions\u00a084<\/li>\n<li>coding sequences\u00a072<\/li>\n<li>codon distribution\u00a096<\/li>\n<li>codons\u00a073<\/li>\n<li>commerce\u00a0120\u00a0121\u00a0122<\/li>\n<li>compensatory mutations\u00a089<\/li>\n<li>complementary duplexes\u00a044<\/li>\n<li>composite regulatory elements\u00a012<\/li>\n<li>computer analysis\u00a059\u00a063<\/li>\n<li>computer experiment\u00a085<\/li>\n<li>computer program\u00a060<\/li>\n<li>computer simulation\u00a093<\/li>\n<li>confirmation and physico-chemical DNA properties\u00a052<\/li>\n<li>conformation\u00a0127<\/li>\n<li>conformational and physico-chemical properties of DNA\u00a053<\/li>\n<li>conformational features\u00a015<\/li>\n<li>conformational stability\u00a027<\/li>\n<li>consensus\u00a091<\/li>\n<li>consensus words\u00a066<\/li>\n<li>considerable asymmetry\u00a059<\/li>\n<li>context analysis\u00a084<\/li>\n<li>context sequences\u00a061<\/li>\n<li>contigs\u00a067<\/li>\n<li>core-polymerase\u00a0109<\/li>\n<li>correlation analysis\u00a0106<\/li>\n<li>correlations\u00a0107<\/li>\n<li>cosmid sequence scanning\u00a080<\/li>\n<li>CpG islands\u00a029\u00a032<\/li>\n<li>cytochrome p450\u00a097<\/li>\n<\/ul>\n<h1>D<\/h1>\n<ul>\n<li>D.melanogaster\u00a066<\/li>\n<li>data input\u00a06<\/li>\n<li>database\u00a01\u00a02\u00a03\u00a04\u00a05\u00a06\u00a08\u00a09\u00a011\u00a012\u00a013\u00a014\u00a017\u00a018\u00a055\u00a098<\/li>\n<li>database activation\u00a036<\/li>\n<li>database integration\u00a016\u00a061<\/li>\n<li>databases\u00a074<\/li>\n<li>decision making\u00a0104<\/li>\n<li>development\u00a03<\/li>\n<li>developmental stages\u00a04<\/li>\n<li>devolopment of c.elegans\u00a023<\/li>\n<li>dielectric function\u00a058<\/li>\n<li>differentiation\u00a04\u00a09<\/li>\n<li>DNA bendability\u00a034<\/li>\n<li>DNA binding sites\u00a02<\/li>\n<li>DNA context\u00a095<\/li>\n<li>DNA curvature\u00a066<\/li>\n<li>DNA functional sites\u00a052<\/li>\n<li>DNA recognition mechanisms\u00a0108<\/li>\n<li>DNA regulatory regions\u00a011<\/li>\n<li>DNA replication\u00a069<\/li>\n<li>DNA sequences\u00a090<\/li>\n<li>DNA structure\u00a034<\/li>\n<li>DNA topoisomerase I\u00a0110\u00a0127<\/li>\n<li>DNA-bending stiffness\u00a032<\/li>\n<li>DNA-binding\u00a0106\u00a0107<\/li>\n<li>DNA-binding activity\u00a07<\/li>\n<li>DNA-binding domains\u00a012<\/li>\n<li>DNA-protein interaction\u00a012<\/li>\n<li>DNA\/RNA\u00a014<\/li>\n<li>DNA\/RNA secondary structure\u00a045\u00a089<\/li>\n<li>dog genome\u00a091<\/li>\n<li>dosage compensation\u00a033<\/li>\n<li>double helix\u00a082<\/li>\n<li>Drosophila\u00a017\u00a035<\/li>\n<li>Drosophila melanogaster\u00a03<\/li>\n<li>Drosophila melanogastr promoter sequences\u00a035<\/li>\n<li>Drosophila promoters\u00a033<\/li>\n<li>dynamic core\u00a086<\/li>\n<li>dynamic of genes activities\u00a026<\/li>\n<li>dynamic phase transition\u00a081<\/li>\n<li>dynamic programming\u00a0103<\/li>\n<li>dynamic systems\u00a0121<\/li>\n<\/ul>\n<h1>E<\/h1>\n<ul>\n<li>E.coli genome\u00a0114<\/li>\n<li>E.coli mRNAs\u00a041<\/li>\n<li>ecology\u00a0120<\/li>\n<li>economics\u00a0120\u00a0121\u00a0122<\/li>\n<li>education\u00a0119\u00a0120\u00a0121\u00a0122<\/li>\n<li>electrostatic interactions\u00a040<\/li>\n<li>enhancers\u00a05<\/li>\n<li>entropy\u00a077\u00a078<\/li>\n<li>envelope protein\u00a0113<\/li>\n<li>equilibrium\u00a0120<\/li>\n<li>equilibrium constants\u00a014<\/li>\n<li>erythroid cell\u00a04<\/li>\n<li>erythroid cells\u00a09<\/li>\n<li>escherichia coli\u00a039<\/li>\n<li>eucaryotic promoters\u00a031<\/li>\n<li>euclidian metrics\u00a086<\/li>\n<li>eukariotes\u00a08<\/li>\n<li>eukariotic organisms\u00a037<\/li>\n<li>eukariotic promoters\u00a038<\/li>\n<li>eukariots\u00a050<\/li>\n<li>eukarioyic mRNA\u00a060<\/li>\n<li>eukaryotic genes\u00a05<\/li>\n<li>eukaryotic genomes\u00a016<\/li>\n<li>eukaryotic promoters\u00a029\u00a032<\/li>\n<li>eukaryotic transcription factors\u00a053<\/li>\n<li>evolution\u00a03\u00a096\u00a097<\/li>\n<li>evolutionarily conserved sequence\u00a050<\/li>\n<li>exon\/intron structure prediction\u00a092<\/li>\n<li>exons\u00a045\u00a065<\/li>\n<li>expression data\u00a017<\/li>\n<li>expression dynamics\u00a04<\/li>\n<li>expression pattern\u00a05<\/li>\n<li>expression regulation\u00a011<\/li>\n<li>extracellular proteins\u00a0112<\/li>\n<li>extreme conditions\u00a028<\/li>\n<\/ul>\n<h1>F<\/h1>\n<ul>\n<li>fitness landscape\u00a081<\/li>\n<li>flower morphogenesis\u00a024<\/li>\n<li>fold assignment\u00a0105<\/li>\n<li>fold recognition\u00a0102<\/li>\n<li>formal language\u00a021<\/li>\n<li>frequency dictionaries\u00a086<\/li>\n<li>frequency dictionary\u00a077\u00a078<\/li>\n<li>function\u00a074<\/li>\n<li>functional activity\u00a051<\/li>\n<li>functional annotation\u00a0105<\/li>\n<li>functional determinants\u00a072<\/li>\n<li>functional genomics\u00a094<\/li>\n<li>functional motifs\u00a048<\/li>\n<li>functional site\u00a0111<\/li>\n<li>functional sites\u00a014<\/li>\n<li>fuzzy logic\u00a052\u00a0104<\/li>\n<\/ul>\n<h1>G<\/h1>\n<ul>\n<li>G-protein coupled receptors\u00a072<\/li>\n<li>game training\u00a0120\u00a0121<\/li>\n<li>gamma-proteobacterium\u00a064<\/li>\n<li>gapped nucleotide correlations\u00a035<\/li>\n<li>GATA\u00a031<\/li>\n<li>GC-content\u00a079<\/li>\n<li>GC-rich regions\u00a051<\/li>\n<li>GCC element\u00a051<\/li>\n<li>gene activity\u00a026<\/li>\n<li>gene expression\u00a04\u00a09\u00a075<\/li>\n<li>gene families\u00a0100<\/li>\n<li>gene finding\u00a073<\/li>\n<li>gene function\u00a055<\/li>\n<li>gene mapping\u00a076<\/li>\n<li>gene net\u00a025<\/li>\n<li>gene networks\u00a06\u00a08\u00a010\u00a018<\/li>\n<li>gene orders\u00a093<\/li>\n<li>gene recognition\u00a065\u00a067<\/li>\n<li>gene structure\u00a071<\/li>\n<li>gene structures\u00a098<\/li>\n<li>gene-specific regulation\u00a012<\/li>\n<li>genes\u00a01\u00a03\u00a010\u00a011\u00a092<\/li>\n<li>genes of photosyntesis\u00a011<\/li>\n<li>genetic code\u00a073<\/li>\n<li>genetic language\u00a020<\/li>\n<li>genetic networks\u00a017\u00a026\u00a055<\/li>\n<li>genetic regulatory networks\u00a024<\/li>\n<li>genetic text\u00a057\u00a078<\/li>\n<li>genom regulation\u00a0113<\/li>\n<li>genome characterization\u00a080<\/li>\n<li>genome data\u00a088<\/li>\n<li>genome sequences\u00a087\u00a094<\/li>\n<li>genomic analysis\u00a0114<\/li>\n<li>genomic DNA sequences\u00a079<\/li>\n<li>genomic sequences\u00a0105<\/li>\n<li>globin genes\u00a038<\/li>\n<li>glucorticoid-controlled gene\u00a07<\/li>\n<li>glycoprotein\u00a0117<\/li>\n<li>glycosylphosphatidylinositol anchoring\u00a0112<\/li>\n<li>grammar\u00a021<\/li>\n<li>growth factors\u00a04<\/li>\n<\/ul>\n<h1>H<\/h1>\n<ul>\n<li>haemophilus influenzae\u00a039<\/li>\n<li>hairpin formation\u00a041<\/li>\n<li>helix-turn-helix dna-binding motif\u00a0114<\/li>\n<li>hepatocarcirogens action\u00a07<\/li>\n<li>hidden Markov models\u00a029\u00a034\u00a079<\/li>\n<li>hierarchical level\u00a027<\/li>\n<li>high-expression mRNA\u00a060<\/li>\n<li>high-level query luanguage CPL\u00a061<\/li>\n<li>HNF3\u00a07<\/li>\n<li>holo-polymerase\u00a0109<\/li>\n<li>homeobox\u00a03<\/li>\n<li>homeodomain proteins\u00a050<\/li>\n<li>homeospecific site\u00a043<\/li>\n<li>homology search\u00a068<\/li>\n<li>HOX-clusters\u00a03<\/li>\n<li>hox-networks\u00a03<\/li>\n<li>hoxb3 binding site\u00a050<\/li>\n<li>human\u00a0109<\/li>\n<li>human genes\u00a067<\/li>\n<li>human genome\u00a0122<\/li>\n<li>human immunodeficiency virus\u00a0113\u00a0117<\/li>\n<li>human lactoferrin\u00a0115<\/li>\n<li>human population genofond\u00a099<\/li>\n<li>human RNA polymerase II promoters\u00a034<\/li>\n<li>humanitarian science\u00a0119<\/li>\n<li>hydrophobicity profile\u00a0117<\/li>\n<li>hypersensitive sites\u00a045<\/li>\n<\/ul>\n<h1>I<\/h1>\n<ul>\n<li>Identifications of matrix\/scaffold attachment regions\u00a046<\/li>\n<li>immune cell activation\u00a037<\/li>\n<li>immunoglobulin\u00a090<\/li>\n<li>immunoglobulin superfamily\u00a092<\/li>\n<li>inducible regulation\u00a012<\/li>\n<li>information\u00a077<\/li>\n<li>information analysis\u00a0122<\/li>\n<li>information context\u00a056<\/li>\n<li>information fusion\u00a019<\/li>\n<li>integrated coding potential\u00a068<\/li>\n<li>interferon-induced Mx1 protein\u00a025<\/li>\n<li>interferon-inducible genes\u00a08<\/li>\n<li>Internet\u00a06\u00a018\u00a074<\/li>\n<li>Internet-based recogniton\u00a036<\/li>\n<li>interspersed repetitive elements\u00a091<\/li>\n<li>intracekkukar liquids\u00a058<\/li>\n<li>intron detection\u00a075<\/li>\n<li>intron structure\u00a075<\/li>\n<li>inverse-folding protocol\u00a0102<\/li>\n<li>Ising model\u00a082<\/li>\n<\/ul>\n<h1>J<\/h1>\n<ul>\n<li>japanese encephalitis virus\u00a0116<\/li>\n<li>japanese puffer fish genome\u00a080<\/li>\n<li>Java\u00a023<\/li>\n<li>java applet\u00a018<\/li>\n<li>java applets\u00a017<\/li>\n<\/ul>\n<h1>K<\/h1>\n<ul>\n<li>knowledge base\u00a015<\/li>\n<li>knowledge discovery\u00a016<\/li>\n<li>knowledge discovery system\u00a015<\/li>\n<li>Kramer-Kroning analysis\u00a058<\/li>\n<\/ul>\n<h1>L<\/h1>\n<ul>\n<li>lamin\u00a066<\/li>\n<li>large scale genome sequencing\u00a098<\/li>\n<li>law\u00a0120\u00a0121\u00a0122<\/li>\n<li>leucine motif\u00a0118<\/li>\n<li>ligand binding sites\u00a02<\/li>\n<li>linear discriminant analysys\u00a046<\/li>\n<li>linkage analysis\u00a0126<\/li>\n<li>lipid metabolism\u00a010<\/li>\n<li>living waves\u00a0120<\/li>\n<li>local multiple align\u00a066<\/li>\n<li>long-range interaction\u00a058<\/li>\n<li>long-terminal repeat\u00a049<\/li>\n<li>low-expression mRNA\u00a060<\/li>\n<\/ul>\n<h1>M<\/h1>\n<ul>\n<li>M\/SAR DNA\u00a066<\/li>\n<li>mammalian chromosomes\u00a076<\/li>\n<li>mathematical modelling\u00a026<\/li>\n<li>mechanism\u00a07\u00a08<\/li>\n<li>mechanisms of expression regulation\u00a025<\/li>\n<li>membrane\u00a0118<\/li>\n<li>metabolic network control\u00a019<\/li>\n<li>metaprofiles\u00a029<\/li>\n<li>mevalonate pathway\u00a010<\/li>\n<li>minimalist model genome\u00a080<\/li>\n<li>mitochondrial ATP synthase\u00a0118<\/li>\n<li>mitochondrial DNA\u00a0123<\/li>\n<li>mobile genetics elements\u00a048<\/li>\n<li>model\u00a023\u00a025<\/li>\n<li>modular structure\u00a0124<\/li>\n<li>molecular functions\u00a048<\/li>\n<li>molecular genetic regulatory systems\u00a020<\/li>\n<li>molecular genetic techniques\u00a099<\/li>\n<li>molecular genetics databases\u00a0125<\/li>\n<li>molecular information system\u00a019<\/li>\n<li>molecular mechanisms\u00a040<\/li>\n<li>molecular modelling\u00a0116<\/li>\n<li>molecular systematic\u00a0123<\/li>\n<li>Monte Carlo\u00a0101<\/li>\n<li>Monte-Carlo simulation\u00a071<\/li>\n<li>mRNA\u00a04\u00a096<\/li>\n<li>mRNA forms\u00a045<\/li>\n<li>mRNA leaders\u00a014<\/li>\n<li>MS SQL Server\u00a06<\/li>\n<li>multiple alignment\u00a091\u00a0116<\/li>\n<li>multiple sequence alignment\u00a084<\/li>\n<li>mutational analysis\u00a097<\/li>\n<li>mutational hotspots\u00a095<\/li>\n<li>mutational spectra\u00a095<\/li>\n<li>mutual information\u00a070\u00a071\u00a0101<\/li>\n<li>mycoplasma genitalium\u00a022<\/li>\n<\/ul>\n<h1>N<\/h1>\n<ul>\n<li>natural science\u00a0119<\/li>\n<li>negative selection\u00a062<\/li>\n<li>nematode caenorhabditis elegans\u00a049<\/li>\n<li>neural networks\u00a072<\/li>\n<li>NF-Y\u00a031<\/li>\n<li>nitrogen fixation\u00a011<\/li>\n<li>NON-LTR\u00a049<\/li>\n<li>nucleosomal DNA\u00a054<\/li>\n<li>nucleotide context\u00a015<\/li>\n<li>nucleotide frequency profiles\u00a032<\/li>\n<li>nucleotide sequence\u00a078\u00a084\u00a097<\/li>\n<li>nucleotide sequence alignment\u00a083<\/li>\n<li>nucleotide sequence samples\u00a0125<\/li>\n<li>nucleotide sequences\u00a070\u00a086\u00a089\u00a095<\/li>\n<li>nucleotide sequences analysis\u00a0125<\/li>\n<li>nukleotide sequences\u00a047<\/li>\n<li>numerical simulation\u00a096<\/li>\n<\/ul>\n<h1>O<\/h1>\n<ul>\n<li>o-aminoazotoluene\u00a07<\/li>\n<li>object-oriented language\u00a057<\/li>\n<li>oct genes\u00a043<\/li>\n<li>oct proteins\u00a043<\/li>\n<li>oct-1 promoter\u00a043<\/li>\n<li>octamer site\u00a043<\/li>\n<li>oligonucleotide\u00a0110<\/li>\n<li>oligonucleotide motifs\u00a038<\/li>\n<li>ontogenesis\u00a04<\/li>\n<li>operon\u00a064<\/li>\n<li>orthologs\u00a087<\/li>\n<\/ul>\n<h1>P<\/h1>\n<ul>\n<li>P53\u00a045<\/li>\n<li>packing dencity\u00a0117<\/li>\n<li>pair structural alignment\u00a0103<\/li>\n<li>pairwise and multiple alignment\u00a0124<\/li>\n<li>paralogs\u00a087<\/li>\n<li>pattern recognition\u00a057<\/li>\n<li>patterns\u00a056<\/li>\n<li>pedigree data\u00a0126<\/li>\n<li>peeling technique\u00a0126<\/li>\n<li>periodicity\u00a071\u00a0101<\/li>\n<li>phenotypic analysis\u00a094<\/li>\n<li>physical and chemical features\u00a015<\/li>\n<li>physico-chemical properties\u00a0127<\/li>\n<li>plant\u00a011<\/li>\n<li>polyadenilation signals\u00a068<\/li>\n<li>polyanion binding\u00a0115<\/li>\n<li>posttranslational modification\u00a0112<\/li>\n<li>POU domain\u00a043<\/li>\n<li>pre-mRNA\u00a075<\/li>\n<li>pre-mRNA processing sites\u00a014<\/li>\n<li>predicted genes\u00a098<\/li>\n<li>predicting\u00a044<\/li>\n<li>prediction\u00a052<\/li>\n<li>prediction tools\u00a068<\/li>\n<li>procariote model cell\u00a022<\/li>\n<li>program generation\u00a042<\/li>\n<li>promoter\u00a01<\/li>\n<li>promoter recognition\u00a036<\/li>\n<li>promoter-polymerase recognition\u00a040<\/li>\n<li>promoters\u00a05\u00a014\u00a030\u00a037\u00a040<\/li>\n<li>protein\u00a02\u00a04\u00a074\u00a0103<\/li>\n<li>protein binding sites\u00a084<\/li>\n<li>protein coding genes\u00a068<\/li>\n<li>protein conformation\u00a071\u00a0104<\/li>\n<li>protein sequence\u00a073\u00a0101<\/li>\n<li>protein sequences\u00a0100<\/li>\n<li>protein structure\u00a0102<\/li>\n<li>protein structure similarity\u00a0113\u00a0117<\/li>\n<li>protein-binding sites\u00a014<\/li>\n<li>protein-DNA interactions\u00a0115<\/li>\n<li>protein-protein interaction\u00a012\u00a0109<\/li>\n<li>proteins\u00a0104\u00a0105\u00a0118<\/li>\n<li>protist DNA\u00a065<\/li>\n<li>purine and arginine regulons\u00a039<\/li>\n<\/ul>\n<h1>Q<\/h1>\n<ul>\n<li>query retrieval language\u00a074<\/li>\n<\/ul>\n<h1>R<\/h1>\n<ul>\n<li>radiation hybrids\u00a076<\/li>\n<li>random sequences\u00a078<\/li>\n<li>receptor\u00a02<\/li>\n<li>recognition\u00a031\u00a050<\/li>\n<li>recognition mechanism\u00a0110<\/li>\n<li>recognition program generation\u00a0111<\/li>\n<li>regilatory region\u00a07<\/li>\n<li>regilatory regions\u00a05\u00a06\u00a08<\/li>\n<li>regilatory regions database\u00a010<\/li>\n<li>regression analysis\u00a083\u00a097<\/li>\n<li>regulation\u00a05<\/li>\n<li>regulaton mechanisms\u00a027<\/li>\n<li>regulaton of erythropoiesis\u00a018<\/li>\n<li>regulaton of metabolism\u00a020<\/li>\n<li>regulatory elements\u00a047\u00a089<\/li>\n<li>regulatory feedbacks\u00a08<\/li>\n<li>regulatory regions\u00a01\u00a037\u00a051<\/li>\n<li>regulatory sequences\u00a016\u00a050<\/li>\n<li>repeated elements\u00a068<\/li>\n<li>replication origin\u00a057<\/li>\n<li>retrotransposons\u00a049<\/li>\n<li>ribosomal 16s RNA\u00a086<\/li>\n<li>ribosomal protein\u00a064<\/li>\n<li>RNA polymerase II\u00a0109<\/li>\n<li>RNA secondary structure\u00a064\u00a075\u00a081<\/li>\n<\/ul>\n<h1>S<\/h1>\n<ul>\n<li>sea urchin\u00a017<\/li>\n<li>sea urins\u00a03<\/li>\n<li>selective advantage\u00a069<\/li>\n<li>selective model\u00a076<\/li>\n<li>self-organization\u00a0119<\/li>\n<li>sequence analysis\u00a088\u00a090<\/li>\n<li>sequence comparison\u00a087<\/li>\n<li>sequence complexity\u00a032<\/li>\n<li>sequence data representation\u00a088<\/li>\n<li>sequence dependent and independent enzymes\u00a0108<\/li>\n<li>sequence similarity\u00a0101\u00a0123<\/li>\n<li>sequences\u00a013<\/li>\n<li>Shine-Dalgarno sequence\u00a063<\/li>\n<li>sigma subunit\u00a0109<\/li>\n<li>signal processing\u00a030<\/li>\n<li>signal transdiction\u00a02<\/li>\n<li>silencers\u00a05<\/li>\n<li>similarity\u00a0104<\/li>\n<li>similarity profiles\u00a0124<\/li>\n<li>site recognition\u00a039\u00a042\u00a090<\/li>\n<li>sites\u00a05<\/li>\n<li>Sp1\u00a031<\/li>\n<li>specific sequence motifs\u00a035<\/li>\n<li>spectral analysis\u00a030<\/li>\n<li>splice sites\u00a068<\/li>\n<li>splicing\u00a075<\/li>\n<li>splicing sites\u00a065<\/li>\n<li>SRS\u00a014<\/li>\n<li>start codon\u00a062<\/li>\n<li>statistical significance\u00a083<\/li>\n<li>statistical thermodynamics\u00a082<\/li>\n<li>statistically significant alignment matrix\u00a056<\/li>\n<li>stochastic geometry\u00a0104<\/li>\n<li>stop codons\u00a041<\/li>\n<li>storage protein genes\u00a011<\/li>\n<li>strong base correlations\u00a070<\/li>\n<li>structural and compositional features\u00a059<\/li>\n<li>structural features\u00a060<\/li>\n<li>structural profile\u00a034<\/li>\n<li>structure\u00a074<\/li>\n<li>structure alignment\u00a0104<\/li>\n<li>subcellular localization\u00a0112<\/li>\n<li>symbol composition\u00a077<\/li>\n<li>symbolic chain\u00a077<\/li>\n<li>synergism or antagonism\u00a012<\/li>\n<li>synergy\u00a0119<\/li>\n<\/ul>\n<h1>T<\/h1>\n<ul>\n<li>T-cell receptor\u00a090<\/li>\n<li>TATA-binding protein\u00a0109<\/li>\n<li>TATA-binding protein affinnity\u00a044<\/li>\n<li>TATA-box\u00a031\u00a032<\/li>\n<li>TATA-box signals\u00a068<\/li>\n<li>TBP\u00a031<\/li>\n<li>the basic principles\u00a0108<\/li>\n<li>threading\u00a0102<\/li>\n<li>three dimensional structure\u00a02<\/li>\n<li>tissue specificity\u00a038<\/li>\n<li>tissue-specific induction\u00a012<\/li>\n<li>transcription\u00a05\u00a06\u00a08\u00a010\u00a011\u00a050\u00a069\u00a0109<\/li>\n<li>transcription control elements\u00a029<\/li>\n<li>transcription factor\u00a08\u00a09\u00a010\u00a011\u00a012\u00a013\u00a015\u00a055\u00a0106\u00a0107<\/li>\n<li>transcription factor binding sites\u00a037<\/li>\n<li>transcription factors\u00a01\u00a04\u00a05\u00a031<\/li>\n<li>transcription regulation\u00a09\u00a036\u00a047\u00a055<\/li>\n<li>transcription regulatory patterns\u00a039<\/li>\n<li>transcription regulatory regions\u00a0124<\/li>\n<li>transcription termination\u00a041<\/li>\n<li>transcriptional activation\u00a0115<\/li>\n<li>transcriptional regulation\u00a0114<\/li>\n<li>transcriptional start\u00a034<\/li>\n<li>transduction pathway\u00a021<\/li>\n<li>transgenic rescue\u00a094<\/li>\n<li>translation\u00a096<\/li>\n<li>translation initiation\u00a062<\/li>\n<li>trinucleotide frequency\u00a062<\/li>\n<li>triplet periodicity\u00a070<\/li>\n<\/ul>\n<h1>U<\/h1>\n<ul>\n<li>untranslated region\u00a062<\/li>\n<li>utility theory\u00a0104<\/li>\n<li>utility theory for decision making\u00a052<\/li>\n<\/ul>\n<h1>V<\/h1>\n<ul>\n<li>vaccine\u00a0116<\/li>\n<li>verifying the syntax\u00a06<\/li>\n<li>vertebrate ontogenesis\u00a09<\/li>\n<li>vertebrates\u00a03\u00a017<\/li>\n<li>viewer\u00a074<\/li>\n<li>virtual whole cell simulation\u00a022<\/li>\n<li>visualization\u00a0125<\/li>\n<li>vocabularies\u00a06<\/li>\n<li>VRML\u00a023<\/li>\n<\/ul>\n<h1>W<\/h1>\n<ul>\n<li>web\/database\u00a023<\/li>\n<li>weight matrix\u00a037\u00a085<\/li>\n<\/ul>\n<h1>X<\/h1>\n<ul>\n<li>X chromosome\u00a033<\/li>\n<li>X-linked promoters\u00a035<\/li>\n<\/ul>\n<h1>Y<\/h1>\n<ul>\n<li>yeast\u00a01<\/li>\n<li>yeast genome\u00a079<\/li>\n<\/ul>\n<h1>Z<\/h1>\n<ul>\n<li>zinc finger\u00a0107\u00a0111<\/li>\n<li>Zipf law\u00a0100<\/li>\n<\/ul>\n","protected":false},"excerpt":{"rendered":"<p>1 15 B-DNA\u00a015 16S rRNA\u00a063 5 5&#8242;-untraslated leaders\u00a060 5&#8242;-untraslated regions\u00a059 A activated database\u00a042 active database\u00a015 activity\u00a014\u00a052 adduct formations\u00a045 alignment\u00a013\u00a073\u00a085 alternative splicing\u00a067 alu repeats\u00a089 amino acid composition\u00a073 amino acid sequence\u00a0111 amino acid sequences\u00a085 amino acid substitutions\u00a0106\u00a0107 analysis tools\u00a01 and RNA secondary &hellip; <a href=\"https:\/\/conf.icgbio.ru\/bgrs\/abstracts\/keywords-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\/248"}],"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=248"}],"version-history":[{"count":3,"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/pages\/248\/revisions"}],"predecessor-version":[{"id":251,"href":"https:\/\/conf.icgbio.ru\/bgrs\/wp-json\/wp\/v2\/pages\/248\/revisions\/251"}],"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=248"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}