A Lentiviral RNAi Library for Human and Mouse Genes Applied to an Arrayed Viral High-Content Screen

To enable arrayed or pooled loss-of-function screens in a wide range of mammalian cell types, including primary and nondividing cells, we are developing lentiviral short hairpin RNA (shRNA) libraries targeting the human and murine genomes. The libraries currently contain 104,000 vectors, targeting e...

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Bibliographic Details
Published in:Cell 2006-03, Vol.124 (6), p.1283-1298
Main Authors: Moffat, Jason, Grueneberg, Dorre A., Yang, Xiaoping, Kim, So Young, Kloepfer, Angela M., Hinkle, Gregory, Piqani, Bruno, Eisenhaure, Thomas M., Luo, Biao, Grenier, Jennifer K., Carpenter, Anne E., Foo, Shi Yin, Stewart, Sheila A., Stockwell, Brent R., Hacohen, Nir, Hahn, William C., Lander, Eric S., Sabatini, David M., Root, David E.
Format: Article
Language:English
Subjects:
Animals
Cell Cycle Proteins - genetics
Cell Cycle Proteins - physiology
Cells, Cultured
Gene Library
Genetic Engineering - methods
Genetic Vectors
Humans
Lentivirus
Lentivirus - genetics
Libraries
Mice
Microarray Analysis
RNA, Small Interfering - genetics
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Summary:To enable arrayed or pooled loss-of-function screens in a wide range of mammalian cell types, including primary and nondividing cells, we are developing lentiviral short hairpin RNA (shRNA) libraries targeting the human and murine genomes. The libraries currently contain 104,000 vectors, targeting each of 22,000 human and mouse genes with multiple sequence-verified constructs. To test the utility of the library for arrayed screens, we developed a screen based on high-content imaging to identify genes required for mitotic progression in human cancer cells and applied it to an arrayed set of 5,000 unique shRNA-expressing lentiviruses that target 1,028 human genes. The screen identified several known and ∼100 candidate regulators of mitotic progression and proliferation; the availability of multiple shRNAs targeting the same gene facilitated functional validation of putative hits. This work provides a widely applicable resource for loss-of-function screens, as well as a roadmap for its application to biological discovery.
ISSN:0092-8674
1097-4172
DOI:10.1016/j.cell.2006.01.040