评估小球藻科DNA条形码标记的序列异质性以进行系统发育推断。

IF 3.6 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal, genetic engineering & biotechnology Pub Date : 2023-10-18 DOI:10.1186/s43141-023-00550-5
Ee Bhei Wong, Nurhaida Kamaruddin, Marina Mokhtar, Norjan Yusof, Raja Farhana R Khairuddin
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摘要

系统发育推断是恢复小球藻科物种进化史和起源的重要方法。尽管该物种具有生产生物燃料原料的潜力,但其高表型可塑性和物种间相似的形态结构混淆了小球藻科物种的分类学和鉴定。本研究旨在通过检测小球藻科31属64种655个同源序列的18S rRNA、ITS(ITS1-5.8S rRNA-ITS2-28S rNA)和rbcL的序列差异和基因组特性,来解读小球藻目DNA条形码标记的异质性。该研究使用Robinson-Foulds距离和Shimodaira-Hasegawa检验评估了DNA标记的不同进化特性,这些特征可能导致了系统发育推断中个别树木之间的不一致。我们的研究结果表明,使用超矩阵方法通过减少随机误差和增加推断的小球藻科系统发育树的置信度来提高树之间的一致性。这项研究还发现,通过超矩阵方法推断的系统发育可能并不总是得到所有标记的很好支持。该研究强调,在系统发育推断之前评估序列异质性可以使该方法适应序列进化特性,并支持从最一致的系统发育中识别物种,这可以更好地代表小球藻科物种的进化。
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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Assessing sequence heterogeneity in Chlorellaceae DNA barcode markers for phylogenetic inference.

Phylogenetic inference is an important approach that allows the recovery of the evolutionary history and the origin of the Chlorellaceae species. Despite the species' potential for biofuel feedstock production, their high phenotypic plasticity and similar morphological structures among the species have muddled the taxonomy and identification of the Chlorellaceae species. This study aimed to decipher Chlorellaceae DNA barcode marker heterogeneity by examining the sequence divergence and genomic properties of 18S rRNA, ITS (ITS1-5.8S rRNA-ITS2-28S rRNA), and rbcL from 655 orthologous sequences of 64 species across 31 genera in the Chlorellaceae family. The study assessed the distinct evolutionary properties of the DNA markers that may have caused the discordance between individual trees in the phylogenetic inference using the Robinson-Foulds distance and the Shimodaira-Hasegawa test. Our findings suggest that using the supermatrix approach improves the congruency between trees by reducing stochastic error and increasing the confidence of the inferred Chlorellaceae phylogenetic tree. This study also found that the phylogenies inferred through the supermatrix approach might not always be well supported by all markers. The study highlights that assessing sequence heterogeneity prior to the phylogenetic inference could allow the approach to accommodate sequence evolutionary properties and support species identification from the most congruent phylogeny, which can better represent the evolution of Chlorellaceae species.

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