#158390

p110beta PI3K-D931A(BALBc)

Cat. #158390

p110beta PI3K-D931A(BALBc)

Cat. #: 158390

Sub-type: Mouse

Availability: 8-10 weeks

Model: Knock-In

This fee is applicable only for non-profit organisations. If you are a for-profit organisation or a researcher working on commercially-sponsored academic research, you will need to contact our licensing team for a commercial use license.

Contributor

Inventor: Bart Vanhaesebroeck

Institute: Ludwig Institute for Cancer Research

Tool Details
Handling
Target Details
References

Tool Details

*FOR RESEARCH USE ONLY (for other uses, please contact the licensing team)

  • Tool name: p110beta PI3K-D931A(BALBc)
  • Research fields: Cancer
  • Tool sub type: Mouse
  • Model: Knock-In
  • Genetic background: Knock-in mice in which the endogenous PIK3CB/p110beta PI3K gene is mutated so that it now encodes a p110beta protein with the D931A mutation in the ATP binding site, converting it to a kinase-dead p110beta protein which is expressed at the same level as wild-type p110beta. These mice have been backcrossed onto the Balb/C background.
  • Phenotype: Mice show prenatal partial letality at at different embryonic stages (see PMID 26132308 for details). Homozygous male mice that are born are infertile with smaller than normal testicles. They cannot produce offspring.
  • Production details: Knock-in mice in which the endogenous PIK3CB/p110beta PI3K gene is mutated so that it now encodes a p110beta protein with the D931A mutation in the ATP binding site, converting it to a kinase-dead p110beta protein which is expressed at the same level as wild-type p110beta. These mice have been backcrossed onto the Balb/C background.
  • Additional notes: Mice show prenatal partial letality at at different embryonic stages (see PMID 26132308 for details). Homozygous male mice that are born are infertile with smaller than normal testicles. They cannot produce offspring.

Handling

  • Shipping conditions: Embryo/Spermatoza- Dry Ice

Target Details

  • Target: PIK3CB

References

  • Guillermet-Guibert et al. 2015. PLoS Genet. 11(7):e1005304. PMID: 26132308.
  • Kulkarni et al. 2011. Sci Signal. 4(168):ra23. PMID: 21487106.