Cold Spring Harbor Laboratory
Single-cell multiome regression models identify functional and disease-associated enhancers and enable chromatin potential analysis
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Mitra, S; Malik, R; Wong, W; Rahman, A; Hartemink, AJ; Pritykin, Y; Dey, KK; Leslie, CS
June 14, 2023
Duke Scholars
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Mitra, S., Malik, R., Wong, W., Rahman, A., Hartemink, A. J., Pritykin, Y., … Leslie, C. S. (2023). Single-cell multiome regression models identify functional and disease-associated enhancers and enable chromatin potential analysis. Cold Spring Harbor Laboratory. https://doi.org/10.1101/2023.06.13.544851
Mitra, Sneha, Rohan Malik, Wilfred Wong, Afsana Rahman, Alexander J. Hartemink, Yuri Pritykin, Kushal K. Dey, and Christina S. Leslie. “Single-cell multiome regression models identify functional and disease-associated enhancers and enable chromatin potential analysis.” Cold Spring Harbor Laboratory, June 14, 2023. https://doi.org/10.1101/2023.06.13.544851.
Mitra S, Malik R, Wong W, Rahman A, Hartemink AJ, Pritykin Y, et al. Single-cell multiome regression models identify functional and disease-associated enhancers and enable chromatin potential analysis. Cold Spring Harbor Laboratory. 2023.
Mitra, Sneha, et al. “Single-cell multiome regression models identify functional and disease-associated enhancers and enable chromatin potential analysis.” Cold Spring Harbor Laboratory, 14 June 2023. Crossref, doi:10.1101/2023.06.13.544851.
Mitra S, Malik R, Wong W, Rahman A, Hartemink AJ, Pritykin Y, Dey KK, Leslie CS. Single-cell multiome regression models identify functional and disease-associated enhancers and enable chromatin potential analysis. Cold Spring Harbor Laboratory. 2023.