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Dynamic enhancer landscapes in human craniofacial development.

Sudha Sunil RajderkarKitt ParaisoMaria Luisa AmaralMichael KosickiLaura E CookFabrice DarbellayCailyn H SpurrellMarco OsterwalderYiwen ZhuHan WuSarah Yasmeen AfzalMatthew J BlowGuy KelmanIros BarozziYoko Fukuda-YuzawaJennifer A AkiyamaVeena AfzalStella TranIngrid Plajzer-FrickCatherine S NovakMomoe KatoRiana D HunterKianna von MaydellAllen WangLin LinSebastian PreisslSteven N LisgoBing RenDiane E DickelLen A PennacchioAxel Visel
Published in: Nature communications (2024)
The genetic basis of human facial variation and craniofacial birth defects remains poorly understood. Distant-acting transcriptional enhancers control the fine-tuned spatiotemporal expression of genes during critical stages of craniofacial development. However, a lack of accurate maps of the genomic locations and cell type-resolved activities of craniofacial enhancers prevents their systematic exploration in human genetics studies. Here, we combine histone modification, chromatin accessibility, and gene expression profiling of human craniofacial development with single-cell analyses of the developing mouse face to define the regulatory landscape of facial development at tissue- and single cell-resolution. We provide temporal activity profiles for 14,000 human developmental craniofacial enhancers. We find that 56% of human craniofacial enhancers share chromatin accessibility in the mouse and we provide cell population- and embryonic stage-resolved predictions of their in vivo activity. Taken together, our data provide an expansive resource for genetic and developmental studies of human craniofacial development.
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