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Background
Rates of molecular evolution in different lineages can vary widely, and some of this variation might be predictable from aspects of species' biology. Investigating such predictable rate variation can help us to understand the causes of molecular evolution, and could also help to improve molecular dating methods. Here we present a comprehensive study of the life history correlates of substitution rate variation across the mammals, comparing results for mitochondrial and nuclear loci, and for synonymous and non-synonymous sites. We use phylogenetic comparative methods, refined to take into account the special nature of substitution rate data. Particular attention is paid to the widespread correlations between the components of mammalian life history, which can complicate the interpretation of results. 相似文献225.
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Xiaowei Jiang Mario A. Fares 《Evolution; international journal of organic evolution》2010,64(5):1429-1445
The antigenic peptide, major histocompatibility complex molecule (MHC; also called human leukocyte antigen, HLA), coreceptor CD8, or CD4 and T‐cell receptor (TCR) function as a complex to initiate effectors’ mechanisms of the immune system. The tight functional and physical interaction among these molecules may have involved strong coevolution links among domains within and between proteins. Despite the importance of unraveling such dependencies to understand the arms race of host–pathogen interaction, no previous studies have aimed at achieving such an objective. Here, we perform an exhaustive coevolution analysis and show that indeed such dependencies are strongly shaping the evolution and probably the function of these molecules. We identify intramolecular coevolution in HLA class I and II at domains important for their immune activity. Most of the amino acid sites identified to be coevolving in HLAI have been also detected to undergo positive Darwinian selection highlighting therefore their adaptive value. We also identify coevolution among antigen‐binding pockets (P1‐P9) and among these and TCR‐binding sites. Conversely to HLAI, coevolution is weaker in HLAII. Our results support that such coevolutionary patterns are due to selective pressures of host–pathogen coevolution and cooperative binding of TCRs, antigenic peptides, and CD8/CD4 to HLAI and HLAII. 相似文献
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M A Fares E Barrio N Becerra C Escarmís E Domingo A Moya 《International microbiology》1998,1(4):311-318
Phylogenetic reconstruction methods are subject to two types of limitations: our knowledge about the true history of organisms and the gross simplification implied in the numerical simulation models of the relationships between them. In such a situation, experimental phylogenetics provides a way to assess the accuracy of the phylogenetic reconstruction methods. Nonetheless, this capacity is only feasible for organisms in which replication and mutation rates are high enough to provide valuable data. On the other hand, experimental phylogenetics also provides insights on the main evolutionary processes acting on viral variability under different population dynamics. Our study with the foot-and-mouth disease virus (FMDV) strongly suggests that the phylogenetic reconstruction methods can infer erroneous phylogenies due to nucleotide convergences between isolates belonging to different experimental lineages. We also point out that the diverse evolutionary mechanisms acting in different experimental dynamics generate alterations and change the frequencies of genetic variants, which can lead to the misinterpretation of the real evolutionary history. 相似文献