References

  • @Herken2023 bioRxiv - Gilbert Lab

  • @Hsiung2023 bioRxiv - Gilbert Lab

  • @Han2020 Nature - Bassik Lab

  • @Han2017 Nature Biotechnology - Bassik Lab

  • @Tian2019 Neuron - Kampmann Lab

  • @Horlbeck2016 eLife - Weissman Lab

  • @Gilbert2014 Cell - Weissman Lab

  • @Kampmann2014 Nature Protocols - Weissman Lab

  • @Kampmann2013 PNAS - Weissman Lab

  • @Bassik2013 Cell - Weissman Lab

1

Benjamin W. Herken, Garrett T. Wong, Thomas M. Norman, and Luke A. Gilbert. Environmental challenge rewires functional connections among human genes. bioRxiv, 2023. doi:10.1101/2023.08.09.552346.

2

CC Hsiung, CM Wilson, NA Sambold, R Dai, Q Chen, S Misiukiewicz, A Arab, N Teyssier, T O’Loughlin, JC Cofsky, J Shi, and LA Gilbert. Higher-order combinatorial chromatin perturbations by engineered crispr-cas12a for functional genomics. bioRxiv, 2023. doi:10.1101/2023.09.18.558350.

3

Kyuho Han, Sarah E. Pierce, Amy Li, Kaitlyn Spees, Gray R. Anderson, Jose A. Seoane, Yuan-Hung Lo, Michael Dubreuil, Micah Olivas, Roarke A. Kamber, Michael Wainberg, Kaja Kostyrko, Marcus R. Kelly, Maryam Yousefi, Scott W. Simpkins, David Yao, Keonil Lee, Calvin J. Kuo, Peter K. Jackson, Alejandro Sweet-Cordero, Anshul Kundaje, Andrew J. Gentles, Christina Curtis, Monte M. Winslow, and Michael C. Bassik. Crispr screens in cancer spheroids identify 3d growth-specific vulnerabilities. Nature, 580(7801):136–141, 2020. doi:10.1038/s41586-020-2099-x.

4

Kyuho Han, Edwin E Jeng, Gaelen T Hess, David W Morgens, Amy Li, and Michael C Bassik. Synergistic drug combinations for cancer identified in a crispr screen for pairwise genetic interactions. Nature Biotechnology, 35(5):463–474, 2017. doi:10.1038/nbt.3834.

5

Ruilin Tian, Mariam A. Gachechiladze, Connor H. Ludwig, Matthew T. Laurie, Jason Y. Hong, Diane Nathaniel, Anika V. Prabhu, Michael S. Fernandopulle, Rajan Patel, Mehrnoosh Abshari, Michael E. Ward, and Martin Kampmann. Crispr interference-based platform for multimodal genetic screens in human ipsc-derived neurons. Neuron, 104(2):239–255.e12, 2019. doi:10.1016/j.neuron.2019.07.014.

6

Max A Horlbeck, Luke A Gilbert, Jacqueline E Villalta, Britt Adamson, Ryan A Pak, Yuwen Chen, Alexander P Fields, Chong Yon Park, Jacob E Corn, Martin Kampmann, and Jonathan S Weissman. Compact and highly active next-generation libraries for crispr-mediated gene repression and activation. eLife, 2016. doi:10.7554/elife.19760.

7

Luke A. Gilbert, Max A. Horlbeck, Britt Adamson, Jacqueline E. Villalta, Yuwen Chen, Evan H. Whitehead, Carla Guimaraes, Barbara Panning, Hidde L. Ploegh, Michael C. Bassik, Lei S. Qi, Martin Kampmann, and Jonathan S. Weissman. Genome-scale crispr-mediated control of gene repression and activation. Cell, 159(3):647–661, 2014. doi:10.1016/j.cell.2014.09.029.

8

Martin Kampmann, Michael C Bassik, and Jonathan S Weissman. Functional genomics platform for pooled screening and generation of mammalian genetic interaction maps. Nature Protocols, 9(8):1825–1847, 2014. doi:10.1038/nprot.2014.103.

9

Martin Kampmann, Michael C. Bassik, and Jonathan S. Weissman. Integrated platform for genome-wide screening and construction of high-density genetic interaction maps in mammalian cells. Proceedings of the National Academy of Sciences, 2013. doi:10.1073/pnas.1307002110.

10

Michael C. Bassik, Martin Kampmann, Robert Jan Lebbink, Shuyi Wang, Marco Y. Hein, Ina Poser, Jimena Weibezahn, Max A. Horlbeck, Siyuan Chen, Matthias Mann, Anthony A. Hyman, Emily M. LeProust, Michael T. McManus, and Jonathan S. Weissman. A systematic mammalian genetic interaction map reveals pathways underlying ricin susceptibility. Cell, 152(4):909–922, 2013. doi:10.1016/j.cell.2013.01.030.