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1.
S A Shabalina A Y Ogurtsov V A Kondrashov A S Kondrashov 《Trends in genetics : TIG》2001,17(7):373-376
We aligned and analyzed 100 pairs of complete, orthologous intergenic regions from the human and mouse genomes (average length approximately 12 000 nucleotides). The alignments alternate between highly similar segments and dissimilar segments, indicating a wide variation of selective constraint. The average number of selectively constrained nucleotides within a mammalian intergenic region is at least 2000. This is threefold higher than within a nematode intergenic region and at least twofold higher than the number of selectively constrained nucleotides coding for an average protein. Because mammals possess only two- to threefold more proteins than Caenorhabditis elegans, the higher complexity of mammals might be primarily because of the functioning of intergenic DNA. 相似文献
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Only a fraction of eukaryotic genes affect the phenotype drastically. We compared 18 parameters in 1273 human morbid genes, known to cause diseases, and in the remaining 16 580 unambiguous human genes. Morbid genes evolve more slowly, have wider phylogenetic distributions, are more similar to essential genes of Drosophila melanogaster, code for longer proteins containing more alanine and glycine and less histidine, lysine and methionine, possess larger numbers of longer introns with more accurate splicing signals and have higher and broader expressions. These differences make it possible to classify as non-morbid 34% of human genes with unknown morbidity, when only 5% of known morbid genes are incorrectly classified as non-morbid. This classification can help to identify disease-causing genes among multiple candidates. 相似文献
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Olga?V?Matveeva Brian?T?Foley Vladimir?A?Nemtsov Raymond?F?Gesteland Senya?Matsufuji John?F?Atkins Aleksey?Y?Ogurtsov Svetlana?A?ShabalinaEmail author 《BMC bioinformatics》2004,5(1):44
Background
Computer programs for the generation of multiple sequence alignments such as "Clustal W" allow detection of regions that are most conserved among many sequence variants. However, even for regions that are equally conserved, their potential utility as hybridization targets varies. Mismatches in sequence variants are more disruptive in some duplexes than in others. Additionally, the propensity for self-interactions amongst oligonucleotides targeting conserved regions differs and the structure of target regions themselves can also influence hybridization efficiency. There is a need to develop software that will employ thermodynamic selection criteria for finding optimal hybridization targets in related sequences. 相似文献5.
Analysis of similarity within 142 pairs of orthologous intergenic regions of Caenorhabditis elegans and Caenorhabditis briggsae
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Patterns of similarity between genomes of related species reflect the distribution of selective constraint within DNA. We analyzed alignments of 142 orthologous intergenic regions of Caenorhabditis elegans and Caenorhabditis briggsae and found a mosaic pattern with regions of high similarity (phylogenetic footprints) interspersed with non-alignable sequences. Footprints cover ~20% of intergenic regions, often occur in clumps and are rare within 5′ UTRs but common within 3′ UTRs. The footprints have a higher ratio of transitions to transversions than expected at random and a higher GC content than the rest of the intergenic region. The number of footprints and the GC content of footprints within an intergenic region are higher when genes are oriented so that their 5′ ends form the boundaries of the intergenic region. Overall, the patterns and characteristics identified here, along with other comparative and experimental studies, suggest that many footprints have a regulatory function, although other types of function are also possible. These conclusions may be quite general across eukaryotes, and the characteristics of conserved regulatory elements determined from genomic comparisons can be useful in prediction of regulation sites within individual DNA sequences. 相似文献
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Resch AM Carmel L Mariño-Ramírez L Ogurtsov AY Shabalina SA Rogozin IB Koonin EV 《Molecular biology and evolution》2007,24(8):1821-1831
Evolution of protein sequences is largely governed by purifying selection, with a small fraction of proteins evolving under positive selection. The evolution at synonymous positions in protein-coding genes is not nearly as well understood, with the extent and types of selection remaining, largely, unclear. A statistical test to identify purifying and positive selection at synonymous sites in protein-coding genes was developed. The method compares the rate of evolution at synonymous sites (Ks) to that in intron sequences of the same gene after sampling the aligned intron sequences to mimic the statistical properties of coding sequences. We detected purifying selection at synonymous sites in approximately 28% of the 1,562 analyzed orthologous genes from mouse and rat, and positive selection in approximately 12% of the genes. Thus, the fraction of genes with readily detectable positive selection at synonymous sites is much greater than the fraction of genes with comparable positive selection at nonsynonymous sites, i.e., at the level of the protein sequence. Unlike other genes, the genes with positive selection at synonymous sites showed no correlation between Ks and the rate of evolution in nonsynonymous sites (Ka), indicating that evolution of synonymous sites under positive selection is decoupled from protein evolution. The genes with purifying selection at synonymous sites showed significant anticorrelation between Ks and expression level and breadth, indicating that highly expressed genes evolve slowly. The genes with positive selection at synonymous sites showed the opposite trend, i.e., highly expressed genes had, on average, higher Ks. For the genes with positive selection at synonymous sites, a significantly lower mRNA stability is predicted compared to the genes with negative selection. Thus, mRNA destabilization could be an important factor driving positive selection in nonsynonymous sites, probably, through regulation of expression at the level of mRNA degradation and, possibly, also translation rate. So, unexpectedly, we found that positive selection at synonymous sites of mammalian genes is substantially more common than positive selection at the level of protein sequences. Positive selection at synonymous sites might act through mRNA destabilization affecting mRNA levels and translation. 相似文献
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V. I. Melnikova A. Ya. Sapronova A. V. Lavrentyeva E. V. Proshlyakova S. N. Voronova S. I. Ogurtsov M. V. Ugryumov 《Journal of Evolutionary Biochemistry and Physiology》2006,42(1):21-29
The performed study was aimed at checking our hypothesis that the developing brain is a source of L-dihydroxyphenylalanine (L-DOPA), a precursor of dopamine in the total circulation system. At the initial stage, the L-DOPA concentration in peripheral blood was analyzed at the 18th and 21st embryonal days (E18 and E21), at the 3rd postnatal day (P3), and at the prepubertal period (P30). The highest L-DOPA concentration was revealed at the perinatal period, while decreased 4–12 times for the first month of life. The subsequent analysis of dynamics of the total blood L-DOPA content showed that maintenance of the constant L-DOPA concentration at the perinatal period on the background of a gradual increase of the blood serum volume is due to a rise of its secretion. At the postnatal period (P3–P30), the blood L-DOPA content increased twice in males, whereas it decreased to the same extent in females. Analysis of the L-DOPA concentration in two most important brain centers, hypothalamus and mesencephalon-rhombencephalon, showed its twofold decrease in hypothalamus during E18–E21 of development; then it slightly increased from E21 to P3 and fell 4–5 times by P30. In mesencephalon-rhombencephalon, the L-DOPA concentration was slightly reduced from E18 to E21 (only in females), while on P3 it returned to the E18 level and decreased 7–9 times by P30. The direct proof for the L-DOPA release from the developing brain into the systemic circulation follows from comparison of the blood L-DOPA concentration in shamoperated and encephalectomized rat fetuses after mechanical destruction of neurons of the two abovementioned most important dopaminergic centers. Thus, encephalectomy led to a twofold reduction of the blood L-DOPA concentration (statistically significant differences were observed only in females). Thus, the work presents evidence that the developing brain is one of L-DOPA sources in the total circulation system in rats during prenatal and early postnatal periods of ontogenesis. 相似文献
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Aminoethylisothiuronium (AET) stimulated the formation of antibodies against sheep erythrocytes, not against E. coli, in X-irradiated (4 Gy) mice. The serum containing AET-induced interferon had the same effect. AET also promoted the rejection of the allogenic skin graft in mice irradiated with the same dose. In addition, AET and cystaphos stimulated the induction of interferon by the Newcastle disease virus in mice exposed to doses of 4, 5 or 6 Gy. 相似文献
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