Evolution & Genomic Sciences, School of Biological Sciences, University of Manchester, Manchester, United Kingdom.
MRC-University of Glasgow Centre for Virus Research, Garscube Campus, Glasgow, United Kingdom.
PLoS One. 2020 Dec 11;15(12):e0232101. doi: 10.1371/journal.pone.0232101. eCollection 2020.
Autism susceptibility candidate 2 (AUTS2) is a neurodevelopmental regulator associated with an autosomal dominant intellectual disability syndrome, AUTS2 syndrome, and is implicated as an important gene in human-specific evolution. AUTS2 exists as part of a tripartite gene family, the AUTS2 family, which includes two relatively undefined proteins, Fibrosin (FBRS) and Fibrosin-like protein 1 (FBRSL1). Evolutionary ancestors of AUTS2 have not been formally identified outside of the Animalia clade. A Drosophila melanogaster protein, Tay bridge, with a role in neurodevelopment, has been shown to display limited similarity to the C-terminal of AUTS2, suggesting that evolutionary ancestors of the AUTS2 family may exist within other Protostome lineages. Here we present an evolutionary analysis of the AUTS2 family, which highlights ancestral homologs of AUTS2 in multiple Protostome species, implicates AUTS2 as the closest human relative to the progenitor of the AUTS2 family, and demonstrates that Tay bridge is a divergent ortholog of the ancestral AUTS2 progenitor gene. We also define regions of high relative sequence identity, with potential functional significance, shared by the extended AUTS2 protein family. Using structural predictions coupled with sequence conservation and human variant data from 15,708 individuals, a putative domain structure for AUTS2 was produced that can be used to aid interpretation of the consequences of nucleotide variation on protein structure and function in human disease. To assess the role of AUTS2 in human-specific evolution, we recalculated allele frequencies at previously identified human derived sites using large population genome data, and show a high prevalence of ancestral alleles, suggesting that AUTS2 may not be a rapidly evolving gene, as previously thought.
自闭症易感性候选基因 2 (AUTS2) 是一种与常染色体显性智力障碍综合征 AUTS2 综合征相关的神经发育调节因子,并且被认为是人类特有的进化过程中的一个重要基因。AUTS2 是三联体基因家族 AUTS2 家族的一部分,该家族包括两个相对未定义的蛋白质,Fibrosin (FBRS) 和 Fibrosin-like protein 1 (FBRSL1)。AUTS2 的进化祖先除了在动物门进化枝之外尚未正式确定。一种果蝇蛋白,Tay bridge,在神经发育中具有作用,已显示出与 AUTS2 的 C 端具有有限的相似性,这表明 AUTS2 家族的进化祖先可能存在于其他原口动物谱系中。在这里,我们对 AUTS2 家族进行了进化分析,该分析突出了多个原口动物物种中 AUTS2 的祖先同源物,暗示 AUTS2 是人类最接近 AUTS2 家族祖先的近亲,并证明 Tay bridge 是祖先 AUTS2 前体基因的分化直系同源物。我们还定义了具有潜在功能意义的高相对序列同一性区域,这些区域由扩展的 AUTS2 蛋白家族共享。使用结构预测,结合序列保守性和来自 15708 个人的人类变异数据,生成了一个扩展的 AUTS2 蛋白家族的假定结构域结构,可用于辅助解释核苷酸变异对人类疾病中蛋白质结构和功能的影响。为了评估 AUTS2 在人类特有的进化中的作用,我们使用大型人群基因组数据重新计算了先前鉴定的人类衍生位点的等位基因频率,并显示出大量的祖先等位基因,这表明 AUTS2 可能不是一个像以前认为的那样快速进化的基因。
