强化多元细胞生命三域观的论证

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2016-12-05 DOI:10.1155/2016/1851865
A. Nasir, Kyung Mo Kim, Violette Da Cunha, G. Caetano-Anollés
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引用次数: 28

摘要

真核生物起源的古细菌祖先假说(AAS)暗示了古细菌和细菌细胞的融合产生了一种新的生物。有了这种“嵌合”分子武器库,生成的细胞将逐渐积累独特的基因,并发展出复杂的分子机制和细胞室,这些都是现代真核生物的标志。在这方面,与吞噬和细胞运动相关的蛋白质应该存在于古细菌祖先中,从而确定最近描述的候选古细菌门“Lokiarchaeota”类似于真核生物的可能候选祖先。尽管它很有吸引力,但AAS似乎与古细菌和真核生物之间存在的基因组、分子和生化差异不相容。特别是,细胞生物和病毒蛋白质组中保守蛋白结构域结构的分布似乎很难与AAS相一致。此外,对类群和特征采样、系统发育中细菌外群的假设、蛋白质结构域重排和蛋白质序列连接序列的增益/损失的不均匀影响等问题的担忧,进一步使人们对支持aas的系统发育产生怀疑。在这里,我们将原子吸收法与传统的“三域”细胞生物世界进行比较,并提出Lokiarchaeota的发现可以在后一种观点下更好地协调,特别是考虑到一些额外的生物学和技术因素。
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Arguments Reinforcing the Three-Domain View of Diversified Cellular Life
The archaeal ancestor scenario (AAS) for the origin of eukaryotes implies the emergence of a new kind of organism from the fusion of ancestral archaeal and bacterial cells. Equipped with this “chimeric” molecular arsenal, the resulting cell would gradually accumulate unique genes and develop the complex molecular machineries and cellular compartments that are hallmarks of modern eukaryotes. In this regard, proteins related to phagocytosis and cell movement should be present in the archaeal ancestor, thus identifying the recently described candidate archaeal phylum “Lokiarchaeota” as resembling a possible candidate ancestor of eukaryotes. Despite its appeal, AAS seems incompatible with the genomic, molecular, and biochemical differences that exist between Archaea and Eukarya. In particular, the distribution of conserved protein domain structures in the proteomes of cellular organisms and viruses appears hard to reconcile with the AAS. In addition, concerns related to taxon and character sampling, presupposing bacterial outgroups in phylogenies, and nonuniform effects of protein domain structure rearrangement and gain/loss in concatenated alignments of protein sequences cast further doubt on AAS-supporting phylogenies. Here, we evaluate AAS against the traditional “three-domain” world of cellular organisms and propose that the discovery of Lokiarchaeota could be better reconciled under the latter view, especially in light of several additional biological and technical considerations.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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