APA

Walker M., Billings T., Baker C. L., Powers N., Tian H., Saxl R. L., Choi K., Hibbs M. A., Carter G. W., Handel M. A., Paigen K. & Petkov P. M. (20150909). Affinity-seq detects genome-wide PRDM9 binding sites and reveals the impact of prior chromatin modifications on mammalian recombination hotspot usage. : Epigenetics & chromatin.

Chicago

Walker Michael, Billings Timothy, Baker Christopher L, Powers Natalie, Tian Hui, Saxl Ruth L, Choi Kwangbom, Hibbs Matthew A, Carter Gregory W, Handel Mary Ann, Paigen Kenneth and Petkov Petko M. 20150909. Affinity-seq detects genome-wide PRDM9 binding sites and reveals the impact of prior chromatin modifications on mammalian recombination hotspot usage. : Epigenetics & chromatin.

Harvard

Walker M., Billings T., Baker C. L., Powers N., Tian H., Saxl R. L., Choi K., Hibbs M. A., Carter G. W., Handel M. A., Paigen K. and Petkov P. M. (20150909). Affinity-seq detects genome-wide PRDM9 binding sites and reveals the impact of prior chromatin modifications on mammalian recombination hotspot usage. : Epigenetics & chromatin.

MLA

Walker Michael, Billings Timothy, Baker Christopher L, Powers Natalie, Tian Hui, Saxl Ruth L, Choi Kwangbom, Hibbs Matthew A, Carter Gregory W, Handel Mary Ann, Paigen Kenneth and Petkov Petko M. Affinity-seq detects genome-wide PRDM9 binding sites and reveals the impact of prior chromatin modifications on mammalian recombination hotspot usage. : Epigenetics & chromatin. 20150909.