Author
Listed:
- Emily V. Dutrow
(Yale School of Medicine
National Institutes of Health)
- Deena Emera
(Yale School of Medicine
Buck Institute for Research on Aging)
- Kristina Yim
(Yale School of Medicine)
- Severin Uebbing
(Yale School of Medicine)
- Acadia A. Kocher
(Yale School of Medicine)
- Martina Krenzer
(Yale School of Medicine
Yale School of Medicine)
- Timothy Nottoli
(Yale School of Medicine
Yale School of Medicine)
- Daniel B. Burkhardt
(Yale School of Medicine
Cellarity)
- Smita Krishnaswamy
(Yale School of Medicine
Yale University)
- Angeliki Louvi
(Yale School of Medicine
Yale School of Medicine)
- James P. Noonan
(Yale School of Medicine
Yale School of Medicine
Yale University)
Abstract
The evolution of uniquely human traits likely entailed changes in developmental gene regulation. Human Accelerated Regions (HARs), which include transcriptional enhancers harboring a significant excess of human-specific sequence changes, are leading candidates for driving gene regulatory modifications in human development. However, insight into whether HARs alter the level, distribution, and timing of endogenous gene expression remains limited. We examined the role of the HAR HACNS1 (HAR2) in human evolution by interrogating its molecular functions in a genetically humanized mouse model. We find that HACNS1 maintains its human-specific enhancer activity in the mouse embryo and modifies expression of Gbx2, which encodes a transcription factor, during limb development. Using single-cell RNA-sequencing, we demonstrate that Gbx2 is upregulated in the limb chondrogenic mesenchyme of HACNS1 homozygous embryos, supporting that HACNS1 alters gene expression in cell types involved in skeletal patterning. Our findings illustrate that humanized mouse models provide mechanistic insight into how HARs modified gene expression in human evolution.
Suggested Citation
Emily V. Dutrow & Deena Emera & Kristina Yim & Severin Uebbing & Acadia A. Kocher & Martina Krenzer & Timothy Nottoli & Daniel B. Burkhardt & Smita Krishnaswamy & Angeliki Louvi & James P. Noonan, 2022.
"Modeling uniquely human gene regulatory function via targeted humanization of the mouse genome,"
Nature Communications, Nature, vol. 13(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-021-27899-w
DOI: 10.1038/s41467-021-27899-w
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