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Adaptive functions of structural variants in human brain development.

Wanqiu DingXiangshang LiJie ZhangMingjun JiMengling ZhangXiaoming ZhongYong CaoXiaoge LiuChunqiong LiChunfu XiaoJiaxin WangTing LiQing YuFan MoBoya ZhangJianhuan QiJie-Chun YangJuntian QiLu TianXinwei XuQi PengWei-Zhen ZhouZhi-Jin LiuAisi FuXiuqin ZhangJian-Jun ZhangYujie SunBao-Yang HuNi A AnLi ZhangChuan-Yun Li
Published in: Science advances (2024)
Quantifying the structural variants (SVs) in nonhuman primates could provide a niche to clarify the genetic backgrounds underlying human-specific traits, but such resource is largely lacking. Here, we report an accurate SV map in a population of 562 rhesus macaques, verified by in-house benchmarks of eight macaque genomes with long-read sequencing and another one with genome assembly. This map indicates stronger selective constrains on inversions at regulatory regions, suggesting a strategy for prioritizing them with the most important functions. Accordingly, we identified 75 human-specific inversions and prioritized them. The top-ranked inversions have substantially shaped the human transcriptome, through their dual effects of reconfiguring the ancestral genomic architecture and introducing regional mutation hotspots at the inverted regions. As a proof of concept, we linked APCDD1 , located on one of these inversions and down-regulated specifically in humans, to neuronal maturation and cognitive ability. We thus highlight inversions in shaping the human uniqueness in brain development.
Keyphrases
  • endothelial cells
  • induced pluripotent stem cells
  • pluripotent stem cells
  • copy number
  • genome wide
  • gene expression
  • single cell
  • transcription factor
  • mass spectrometry
  • brain injury