Jukes-Cantor Correction for Phylogenetic Tree Reconstruction

Friday Gabriel Emunefe, Ifeanyichukwu Jeff Ugbene
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Abstract

Phylogenetic tree reconstruction relies on accurate estimation of evolutionary distances between sequences. However, the observed Hamming distance between sequences can be misleading due to saturation, where multiple substitutions at the same site obscure the true evolutionary history. The Jukes-Cantor correction method addresses this by accounting for multiple substitutions, providing a more accurate representation of evolutionary distance. This study investigates the application of the Jukes-Cantor correction to the Hamming distance of genetic sequences in a case study, highlighting its impact on phylogenetic tree reconstruction. Our results demonstrate that the Jukes-Cantor correction significantly improves the accuracy of phylogenetic inference, particularly for sequences with substantial evolutionary divergence. However, the model's reliance on simplifying assumptions, such as equal substitution rates and lack of base composition bias, limits its applicability to sequences with moderate levels of divergence. This study stands as a bedrock for further research into more complex models that can account for model violations and provide more accurate estimations of evolutionary distances for highly divergent sequences.
系统发生树重建中的朱克斯-康托尔校正
系统发生树的重建依赖于对序列间进化距离的准确估计。然而,观察到的序列之间的汉明距离可能会因饱和而产生误导,即同一位点的多个取代掩盖了真实的进化历史。Jukes-Cantor 校正方法通过考虑多重取代来解决这一问题,从而更准确地反映进化距离。本研究通过一个案例研究了 Jukes-Cantor 校正法在遗传序列汉明距离中的应用,强调了它对系统发生树重建的影响。我们的研究结果表明,Jukes-Cantor 校正大大提高了系统发育推断的准确性,尤其是对于存在巨大进化差异的序列。然而,该模型依赖于简化假设,如等量替换率和缺乏碱基组成偏差,这限制了它对具有中等程度差异的序列的适用性。这项研究为进一步研究更复杂的模型奠定了基础,这些复杂的模型可以考虑违反模型的情况,并为高度差异序列提供更准确的进化距离估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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