Murine Cell Surface Protein Knockout (McspKO) Library
(Pooled Library #200445)

• Purpose:

  The Murine cell surface protein knockout (McspKO) Library is a CRISPR library targeting 1,157 cell surface genes and 98 control genes, with four sgRNAs per gene.

• Vector Backbone:

  LentiCRISPR v2 puro (Plasmid #98290) - expresses Cas9

• Depositing Labs: Junjie Chen
• Publication: Wang et al. Proc Natl Acad Sci U S A. 2022 Jun 21;119(25):e2121779119. doi: 10.1073/pnas.2121779119.

Library Details

• Species: Mouse
• Genes targeted: 1,157
• gRNAs: 5,001
• Controls: 98 (49 essential genes, 49 nonessential genes)
• Lentiviral Generation: 3rd

Library Shipping

This library is delivered as suspended DNA in a microcentrifuge tube on blue ice. The tube's contents will not necessarily be frozen. For best results, minimize freeze/thaws.

• Volume: ∼20 µL
• Concentration: 50 ng/µL

Resource Information

• Protocols:
  • CRISPR Knockout Library Protocols (PDF, 244 KB)
• Depositor Data:
  • List of gRNA Sequences (CSV, 271 KB)
  • Sequencing Read Counts (CSV, 192 KB)

Terms and Licenses

Academic/Nonprofit Terms:

• UBMTA

Industry Terms:

• Not Available to Industry

Trademarks:

• Zeocin® is an InvivoGen trademark.

Depositor Comments

See the TKO protocol from the Moffat Lab (document linked above) for details on library amplification, viral packaging, transduction, screening, sequencing, and analysis, including LCV2 primers for amplification. The depositing lab recommends using DrugZ to identify synergistic or suppressor chemical genetic interactions and BAGEL to analyze fold changes and identify essential or non-essential genes.

How to cite this pooled library

• For your Materials & Methods section:

  Murine Cell Surface Protein Knockout (McspKO) Library was a gift from Junjie Chen (Addgene #200445)

• For your References section:

  Integrated screens uncover a cell surface tumor suppressor gene KIRREL involved in Hippo pathway. Wang C, Feng X, Su D, Chen Z, Wang S, Tang M, Huang M, Nie L, Zhang H, Li S, Yin L, Johnson RL, Hart T, Chen J. Proc Natl Acad Sci U S A. 2022 Jun 21;119(25):e2121779119. doi: 10.1073/pnas.2121779119. PubMed 35704761.