APA

Nachmanson D., Lian S., Schmidt E. K., Hipp M. J., Baker K. T., Zhang Y., Tretiakova M., Loubet-Senear K., Kohrn B. F., Salk J. J., Kennedy S. R. & Risques R. A. (20190111). Targeted genome fragmentation with CRISPR/Cas9 enables fast and efficient enrichment of small genomic regions and ultra-accurate sequencing with low DNA input (CRISPR-DS). : Genome research.

Chicago

Nachmanson Daniela, Lian Shenyi, Schmidt Elizabeth K, Hipp Michael J, Baker Kathryn T, Zhang Yuezheng, Tretiakova Maria, Loubet-Senear Kaitlyn, Kohrn Brendan F, Salk Jesse J, Kennedy Scott R and Risques Rosa Ana. 20190111. Targeted genome fragmentation with CRISPR/Cas9 enables fast and efficient enrichment of small genomic regions and ultra-accurate sequencing with low DNA input (CRISPR-DS). : Genome research.

Harvard

Nachmanson D., Lian S., Schmidt E. K., Hipp M. J., Baker K. T., Zhang Y., Tretiakova M., Loubet-Senear K., Kohrn B. F., Salk J. J., Kennedy S. R. and Risques R. A. (20190111). Targeted genome fragmentation with CRISPR/Cas9 enables fast and efficient enrichment of small genomic regions and ultra-accurate sequencing with low DNA input (CRISPR-DS). : Genome research.

MLA

Nachmanson Daniela, Lian Shenyi, Schmidt Elizabeth K, Hipp Michael J, Baker Kathryn T, Zhang Yuezheng, Tretiakova Maria, Loubet-Senear Kaitlyn, Kohrn Brendan F, Salk Jesse J, Kennedy Scott R and Risques Rosa Ana. Targeted genome fragmentation with CRISPR/Cas9 enables fast and efficient enrichment of small genomic regions and ultra-accurate sequencing with low DNA input (CRISPR-DS). : Genome research. 20190111.