Computational analysis of chloroplast DNA and synechococcus by apriori and decision tree

机译：利用先验和决策树对叶绿体DNA和突触球菌的计算分析

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This research aims to discover validate the endosymbiotic theory of chloroplast by comparing chloroplast DNA and cyanobacterial DNA using computational methods such as apriori and decision tree. We compared the nucleotide sequences of four plants that each represent four evolutionary classes, bryophytes, pterophyts, gymnosperms, and angiosperms, and Synechococcus DNA. The rules extracted from five experiment object commonly shown abundance in involution of aminoacid leucine and serine. 4 to 11 rules were shared between each chloroplast DNA and the Synechococcus DNA, supporting endosymbiotic theory. Also, the rules extracted from decision tree shown similar patterns, implicating the similar evolutionary steps of the chloroplast from cyanobacteria for different classifications.

机译：本研究旨在通过使用先验和决策树等计算方法比较叶绿体DNA和蓝细菌DNA来发现验证叶绿体内共生理论的有效性。我们比较了四种植物的核苷酸序列，每种植物分别代表了四个进化类别，苔藓植物，蕨类植物，裸子植物和被子植物，以及Synocococcus DNA。从五个实验对象中提取的规则通常显示出丰富的氨基酸亮氨酸和丝氨酸的对合。每个叶绿体DNA和Synechococcus DNA之间共享4至11条规则，从而支持内共生理论。同样，从决策树中提取的规则显示出相似的模式，暗示了从蓝细菌到不同分类的叶绿体的相似进化步骤。

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《International Conference on Advanced Communication Technology》|2017年|530-535|共6页
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Kyuhee Jo; Hyemin Lee; Taeseon Yoon;
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Decision trees; DNA; Amino acids; Microorganisms; Impurities; Classification algorithms; Proteins;

机译：决策树; DNA;氨基酸;微生物;杂质;分类算法;蛋白质;

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Computational analysis of chloroplast DNA and synechococcus by apriori and decision tree

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