动物和真菌是彼此最亲近的亲属：来自多种蛋白质的一致证据。

Animals and fungi are each other's closest relatives: congruent evidence from multiple proteins.

作者信息

Baldauf S L, Palmer J D

机构信息

Institute for Marine Biosciences, National Research Council of Canada, Halifax, NS.

出版信息

Proc Natl Acad Sci U S A. 1993 Dec 15;90(24):11558-62. doi: 10.1073/pnas.90.24.11558.

DOI:10.1073/pnas.90.24.11558

PMID:8265589

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC48023/

Abstract

Phylogenetic relationships among plants, animals, and fungi were examined by using sequences from 25 proteins. Four insertions/deletions were found that are shared by two of the three taxonomic groups in question, and all four are uniquely shared by animals and fungi relative to plants, protists, and bacteria. These include a 12-amino acid insertion in translation elongation factor 1 alpha and three small gaps in enolase. Maximum-parsimony trees were constructed from published data for four of the most broadly sequenced of the 25 proteins, actin, alpha-tubulin, beta-tubulin, and elongation factor 1 alpha, with the latter supplemented by three new outgroup sequences. All four proteins place animals and fungi together as a monophyletic group to the exclusion of plants and a broad diversity of protists. In all cases, bootstrap analyses show no support for either an animal-plant or fungal-plant clade. This congruence among multiple lines of evidence strongly suggests, in contrast to traditional and current classification, that animals and fungi are sister groups while plants constitute an independent evolutionary lineage.

摘要

利用来自25种蛋白质的序列研究了植物、动物和真菌之间的系统发育关系。发现了四个插入/缺失，这三个相关分类群中的两个分类群共有这些插入/缺失，并且相对于植物、原生生物和细菌，所有这四个插入/缺失都是动物和真菌所特有的。这些包括翻译延伸因子1α中的一个12个氨基酸的插入以及烯醇酶中的三个小缺口。基于已发表数据，针对25种蛋白质中测序最广泛的四种蛋白质（肌动蛋白、α-微管蛋白、β-微管蛋白和延伸因子1α）构建了最大简约树，后者由三个新的外类群序列补充。所有这四种蛋白质都将动物和真菌归为一个单系群，将植物和多种原生生物排除在外。在所有情况下，自展分析都不支持动物-植物或真菌-植物分支。与传统分类和当前分类相反，多条证据之间的这种一致性强烈表明，动物和真菌是姐妹群，而植物构成一个独立的进化谱系。

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本文引用的文献

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