BACKGROUND:In higher multicellular eukaryotes, complex protein domain combinations contribute to various cellular functions such as regulation of intercellular or intracellular signaling and interactions. To elucidate the characteristics and evolutionary mechanisms that underlie such domain combinations, it is essential to examine the different types of domains and their combinations among different groups of eukaryotes. RESULTS:We observed a large number of group-specific domain combinations in animals, especially in vertebrates. Examples include animal-specific combinations in tyrosine phosphorylation systems and vertebrate-specific combinations in complement and coagulation cascades. These systems apparently underwent extensive evolution in the ancestors of these groups. In extant animals, especially in vertebrates, animal-specific domains have greater connectivity than do other domains on average, and contribute to the varying number of combinations in each animal subgroup. In other groups, the connectivities of older domains were greater on average. To observe the global behavior of domain combinations during evolution, we traced the changes in domain combinations among animals and fungi in a network analysis. Our results indicate that there is a correlation between the differences in domain combinations among different phylogenetic groups and different global behaviors. CONCLUSION:Rapid emergence of animal-specific domains was observed in animals, contributing to specific domain combinations and functional diversification, but no such trends were observed in other clades of eukaryotes. We therefore suggest that the strategy for achieving complex multicellular systems in animals differs from that of other eukaryotes.

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背景:在高级多细胞真核生物中,复杂的蛋白质结构域组合有助于多种细胞功能,例如调节细胞间或细胞内信号传导和相互作用。为了阐明构成这些结构域组合基础的特征和进化机制,必须研究不同类型的结构域及其在不同组真核生物之间的组合。
结果:我们在动物中,尤其是在脊椎动物中观察到大量特定于组的域组合。实例包括酪氨酸磷酸化系统中的动物特异性组合以及补体和凝血级联反应中的脊椎动物特异性组合。这些系统显然在这些群体的祖先中经历了广泛的发展。在现存的动物中,尤其是在脊椎动物中,动物特定的域平均比其他域具有更大的连通性,并且会导致每个动物亚组中组合数量的变化。在其他组中,较旧域的连通性平均更高。为了观察进化过程中域组合的整体行为,我们在网络分析中追踪了动物和真菌之间域组合的变化。我们的结果表明,不同的系统发生群体之间的域组合差异与不同的整体行为之间存在相关性。
结论:在动物中观察到动物特异性结构域的快速出现,这有助于特定结构域的组合和功能的多样化,但在其他真核生物进化枝中未观察到这种趋势。因此,我们建议在动物中实现复杂的多细胞系统的策略与其他真核生物的策略不同。

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