Evolutionary relevance of single nucleotide variants within the forebrain exclusive human accelerated enhancer regions.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2023-03-29 DOI:10.1186/s12860-023-00474-5

Hizran Khatoon, Rabail Zehra Raza, Shoaib Saleem, Fatima Batool, Saba Arshad, Muhammad Abrar, Shahid Ali, Irfan Hussain, Neil H Shubin, Amir Ali Abbasi

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Abstract

Background: Human accelerated regions (HARs) are short conserved genomic sequences that have acquired significantly more nucleotide substitutions than expected in the human lineage after divergence from chimpanzees. The fast evolution of HARs may reflect their roles in the origin of human-specific traits. A recent study has reported positively-selected single nucleotide variants (SNVs) within brain-exclusive human accelerated enhancers (BE-HAEs) hs1210 (forebrain), hs563 (hindbrain) and hs304 (midbrain/forebrain). By including data from archaic hominins, these SNVs were shown to be Homo sapiens-specific, residing within transcriptional factors binding sites (TFBSs) for SOX2 (hs1210), RUNX1/3 (hs563), and FOS/JUND (hs304). Although these findings suggest that the predicted modifications in TFBSs may have some role in present-day brain structure, work is required to verify the extent to which these changes translate into functional variation.

Results: To start to fill this gap, we investigate the SOX2 SNV, with both forebrain expression and strong signal of positive selection in humans. We demonstrate that the HMG box of SOX2 binds in vitro with Homo sapiens-specific derived A-allele and ancestral T-allele carrying DNA sites in BE-HAE hs1210. Molecular docking and simulation analysis indicated highly favourable binding of HMG box with derived A-allele containing DNA site when compared to site carrying ancestral T-allele.

Conclusion: These results suggest that adoptive changes in TF affinity within BE-HAE hs1210 and other HAR enhancers in the evolutionary history of Homo sapiens might. have brought about changes in gene expression patterns and have functional consequences on forebrain formation and evolution.

Methods: The present study employ electrophoretic mobility shift assays (EMSA) and molecular docking and molecular dynamics simulations approaches.

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人类前脑专属加速增强子区域内单核苷酸变异的进化相关性。

背景:人类加速区(HARs)是一种较短的保守基因组序列，在与黑猩猩分化后，人类谱系中获得了比预期多得多的核苷酸替换。HARs的快速进化可能反映了它们在人类特异性性状起源中的作用。最近的一项研究报道了脑特异性人类加速增强子(BE-HAEs) hs1210(前脑)、hs563(后脑)和hs304(中脑/前脑)中阳性选择的单核苷酸变异(SNVs)。通过纳入古人类的数据，这些snv被证明是智人特异性的，存在于SOX2 (hs1210)、RUNX1/3 (hs563)和FOS/JUND (hs304)的转录因子结合位点(TFBSs)内。尽管这些发现表明，预测的TFBSs的修饰可能在当今的大脑结构中发挥一定作用，但需要进行工作来验证这些变化在多大程度上转化为功能变异。结果:为了填补这一空白，我们研究了在人类中具有前脑表达和强阳性选择信号的SOX2 SNV。我们证明SOX2的HMG盒在体外与携带BE-HAE hs1210 DNA位点的智人特异性衍生a等位基因和祖先t等位基因结合。分子对接和模拟分析表明，HMG盒子与衍生的含有a等位基因的DNA位点的结合比携带祖先t等位基因的位点更有利。结论:这些结果提示，在人类进化史中，BE-HAE hs1210和其他HAR增强子的TF亲和力可能发生过继性变化。引起基因表达模式的改变，并对前脑的形成和进化产生功能影响。方法:本研究采用电泳迁移率转移法(EMSA)、分子对接和分子动力学模拟方法。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464