CRISPR Gene Knockout Lentivirus Library

abm's CRISPR Gene Knockout sgRNA Lentiviral Vectors and Lentiviruses are highly effective at achieving knockout of your target gene. Cas9 functions to create a double-stranded break within an early exon triggering repair via Non-Homologous End-Joining (NHEJ) mechanism resulting in deleterious frameshift mutations. We offer a comprehensive collection of All-in-One (spCas9 and sgRNA expressing) and sgRNA only expressing Lentiviral constructs targeting any human, mouse, or rat gene. Simply input your target gene or accession number into the search bar below. 

Key Features

  • Comprehensive collection of gene knockout sgRNAs
  • Targets include all coding human, mouse and rat genes
  • Available in All-in-One or sgRNA only constructs
  • Available in a set of 3 sgRNA vectors/viruses for added assurance of successful gene knockout
  • Lentiviral delivery results in host integration of DNA, leading to long term gene expression

Looking for constructs expressing multiple sgRNAs? Check out our Custom Multiplex sgRNA Service.

Search Gene Knockout sgRNA Lentivirus Library

Knockout sgRNA Lentivirus Library

We offer All-in-One and sgRNA only Lentiviral vectors and viruses for knockout of any human, mouse, or rat gene.

Additional Information

  • CRISPR Knockout Case Study
    Click to see our CRISPR Knockout Case Study, including experimental design and supporting data.
  • CRISPR lenti Workflow
    How to use abm's sgRNA lentivectors and lentiviruses in your CRISPR knockout experiment.
  • CRISPR Knockout Guide
    Need Help Getting Started?
    This handbook outlines guidelines for CRISPR sgRNA design and the experimental procedures needed to achieve a specific gene knockout.

Top Publications

Regulation of NKT cell-mediated immune responses to tumours and liver inflammation by mitochondrial PGAM5-Drp1 signalling.

Kang, Y J et al.
Nat. Commun. 6:8371 (2015).

DOI: 10.1038/ncomms9371.

Leukocyte cell-derived chemotaxin 2 is an antiviral regulator acting through the proto-oncogene MET.

Shirasaki, T. et al.
Nature Communications. (2022).

doi: 10.1038/s41467-022-30879-3

Clinical significance of SNORA42 as an oncogene and a prognostic biomarker in colorectal cancer.

Okugawa, Y et al.
Gut (2015)