We have calibrated five different molecular clocks for circulating poliovirus based upon the rates of fixation of total substitutions (Kt), synonymous substitutions (Ks), synonymous transitions (As), synonymous transversions (Bs), and nonsynonymous substitutions (Ka) into the P1/capsid region (2,643 nucleotides). Rates were determined over a 10-year period by analysis of sequences of 31 wild poliovirus type 1 isolates representing a well-defined phylogeny derived from a common imported ancestor. Similar rates were obtained by linear regression, the maximum likelihood/single-rate dated-tip method, and Bayesian inference. The very rapid Kt [(1.03 ± 0.10) × 10−2 substitutions/site/year] and Ks [(1.00 ± 0.08) × 10−2] clocks were driven primarily by the As clock [(0.96 ± 0.09) × 10−2], the Bs clock was ∼10-fold slower [(0.10 ± 0.03) × 10−2], and the more stochastic Ka clock was ∼30-fold slower [(0.03 ± 0.01) × 10−2]. Nonsynonymous substitutions at all P1/capsid sites, including the neutralizing antigenic sites, appeared to be constrained by purifying selection. Simulation of the evolution of third-codon positions suggested that saturation of synonymous transitions would be evident at 10 years and complete at ∼65 years of independent transmission. Saturation of synonymous transversions was predicted to be minimal at 20 years and incomplete at 100 years. The rapid evolution of the Kt, Ks, and As clocks can be used to estimate the dates of divergence of closely related viruses, whereas the slower Bs and Ka clocks may be used to explore deeper evolutionary relationships within and across poliovirus genotypes.
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机译:我们已根据总取代(Kt),同义取代(Ks),同义转换(As),同义转化(Bs)和同义取代(Ka)的固定率对循环脊髓灰质炎病毒校准了五个不同的分子时钟衣壳区(2,643个核苷酸)。通过分析31种野生脊髓灰质炎病毒1型分离株的序列,确定了10年的发病率,这些分离株代表了从共同进口祖先获得的明确系统发育史。通过线性回归,最大似然率/单率过时法和贝叶斯推断获得了相似的比率。驱动了非常快的Kt [(1.03±0.10)×10 -2 /站点/年]和Ks [(1.00±0.08)×10 -2 ]时钟。主要是由于As时钟[(0.96±0.09)×10 −2 ], B s 时钟慢了10倍[[ 0.10±0.03)×10 −2 ],而随机性更强的 K a 时钟慢30倍[(0.03±0.01) ×10 −2 ]。在所有P1 /衣壳位点(包括中和性抗原位点)的非同义取代似乎受到纯化选择的限制。对第三个密码子位置演变的模拟表明,同义转换的饱和在10年内就很明显,在独立传播的65年左右就可以完成。预测同义异位的饱和度在20年时最小,在100年时不完全。 K t , K s 和 A s 时钟可用于估计紧密相关病毒的发散日期,而较慢的 B s 和 K < em> a 时钟可用于探索脊髓灰质炎病毒基因型内部和之间的更深层进化关系。
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