Scholars@Duke publication: Intraspecific sequence variation and complete genomes refine the identification of rapidly evolved regions in humans.

Intraspecific sequence variation and complete genomes refine the identification of rapidly evolved regions in humans.

Publication , Preprint

Luo, Y; Mangan, RJ; Weaver, S; Zhao, SA; Mosti, F; Thomas, MC; Karra, R; Silver, DL; Kellis, M; Lowe, CB

October 21, 2025

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Duke Scholars

Author Debra Lynn Silver Cell Biology

Author Craig Lowe Molecular Genetics and Microbiology

Author Ravi Karra Medicine, Cardiology

DOI

10.1101/2025.10.20.683446

Publication Date

October 21, 2025

Citation

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Luo, Y., Mangan, R. J., Weaver, S., Zhao, S. A., Mosti, F., Thomas, M. C., … Lowe, C. B. (2025). Intraspecific sequence variation and complete genomes refine the identification of rapidly evolved regions in humans. https://doi.org/10.1101/2025.10.20.683446

Luo, Yanting, Riley J. Mangan, Seth Weaver, Sarah A. Zhao, Federica Mosti, Michael C. Thomas, Ravi Karra, Debra L. Silver, Manolis Kellis, and Craig B. Lowe. “Intraspecific sequence variation and complete genomes refine the identification of rapidly evolved regions in humans.,” October 21, 2025. https://doi.org/10.1101/2025.10.20.683446.

Luo Y, Mangan RJ, Weaver S, Zhao SA, Mosti F, Thomas MC, et al. Intraspecific sequence variation and complete genomes refine the identification of rapidly evolved regions in humans. 2025.

Luo, Yanting, et al. Intraspecific sequence variation and complete genomes refine the identification of rapidly evolved regions in humans. 21 Oct. 2025. Pubmed, doi:10.1101/2025.10.20.683446.

Luo Y, Mangan RJ, Weaver S, Zhao SA, Mosti F, Thomas MC, Karra R, Silver DL, Kellis M, Lowe CB. Intraspecific sequence variation and complete genomes refine the identification of rapidly evolved regions in humans. 2025.

DOI

10.1101/2025.10.20.683446

Publication Date

October 21, 2025