Choice of Metric Divergence in Genome Sequence Comparison

IF 1.9 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Soumen Ghosh, Jayanta Pal, Bansibadan Maji, Carlo Cattani, Dilip Kumar Bhattacharya
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引用次数: 0

Abstract

The paper introduces a novel probability descriptor for genome sequence comparison, employing a generalized form of Jensen-Shannon divergence. This divergence metric stems from a one-parameter family, comprising fractions up to a maximum value of half. Utilizing this metric as a distance measure, a distance matrix is computed for the new probability descriptor, shaping Phylogenetic trees via the neighbor-joining method. Initial exploration involves setting the parameter at half for various species. Assessing the impact of parameter variation, trees drawn at different parameter values (half, one-fourth, one-eighth). However, measurement scales decrease with parameter value increments, with higher similarity accuracy corresponding to lower scale values. Ultimately, the highest accuracy aligns with the maximum parameter value of half. Comparative analyses against previous methods, evaluating via Symmetric Distance (SD) values and rationalized perception, consistently favor the present approach's results. Notably, outcomes at the maximum parameter value exhibit the most accuracy, validating the method's efficacy against earlier approaches.

Abstract Image

Abstract Image

基因组序列比较中度量分歧的选择。
本文介绍了一种用于基因组序列比较的新型概率描述符,它采用了一种广义的詹森-香农发散形式。这种发散度量源于一个参数系列,包括最大值为一半的分数。利用该指标作为距离度量,计算出新概率描述符的距离矩阵,并通过邻接法形成系统发生树。最初的探索包括将不同物种的参数设置为一半。评估参数变化的影响,以不同的参数值(一半、四分之一、八分之一)绘制系统树。然而,测量尺度随着参数值的增加而减小,较低的尺度值对应较高的相似性精确度。最终,最大参数值为一半时的准确度最高。通过对称距离(SD)值和合理化感知进行评估,与以前的方法进行比较分析,结果一致看好本方法。值得注意的是,最大参数值的结果显示出最高的准确度,这也验证了该方法与之前方法的有效性。
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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来源期刊
The Protein Journal
The Protein Journal 生物-生化与分子生物学
CiteScore
5.20
自引率
0.00%
发文量
57
审稿时长
12 months
期刊介绍: The Protein Journal (formerly the Journal of Protein Chemistry) publishes original research work on all aspects of proteins and peptides. These include studies concerned with covalent or three-dimensional structure determination (X-ray, NMR, cryoEM, EPR/ESR, optical methods, etc.), computational aspects of protein structure and function, protein folding and misfolding, assembly, genetics, evolution, proteomics, molecular biology, protein engineering, protein nanotechnology, protein purification and analysis and peptide synthesis, as well as the elucidation and interpretation of the molecular bases of biological activities of proteins and peptides. We accept original research papers, reviews, mini-reviews, hypotheses, opinion papers, and letters to the editor.
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