Break-induced replication underlies formation of inverted triplications and generates unexpected diversity in haplotype structures.

MLA

Grochowski, Christopher M., et al. “Break-Induced Replication Underlies Formation of Inverted Triplications and Generates Unexpected Diversity in Haplotype Structures.” BioRxiv : The Preprint Server for Biology, Oct. 2023. EBSCOhost, https://doi.org/10.1101/2023.10.02.560172.

APA

Grochowski, C. M., Bengtsson, J. D., Du, H., Gandhi, M., Lun, M. Y., Mehaffey, M. G., Park, K., Höps, W., Benito-Garagorri, E., Hasenfeld, P., Korbel, J. O., Mahmoud, M., Paulin, L. F., Jhangiani, S. N., Muzny, D. M., Fatih, J. M., Gibbs, R. A., Pendleton, M., Harrington, E., … Carvalho, C. M. B. (2023). Break-induced replication underlies formation of inverted triplications and generates unexpected diversity in haplotype structures. BioRxiv : The Preprint Server for Biology. https://doi.org/10.1101/2023.10.02.560172

Chicago

Grochowski, Christopher M, Jesse D Bengtsson, Haowei Du, Mira Gandhi, Ming Yin Lun, Michele G Mehaffey, KyungHee Park, et al. 2023. “Break-Induced Replication Underlies Formation of Inverted Triplications and Generates Unexpected Diversity in Haplotype Structures.” BioRxiv : The Preprint Server for Biology, October. doi:10.1101/2023.10.02.560172.