Genome wide conditional mouse knockout resources
Autor/innen
- C. Kaloff
- K. Anastassiadis
- A. Ayadi
- R. Baldock
- J. Beig
- M.C. Birling
- A. Bradley
- S.D.M. Brown
- A. Buerger
- W. Bushell
- F. Chiani
- F.S. Collins
- B. Doe
- J.T. Eppig
- R.H. Finnell
- C. Fletcher
- P. Flicek
- M. Fray
- R.H. Friedel
- A. Gambadoro
- H. Gates
- J. Hansen
- Y. Herault
- G.G. Hicks
- A. Hoerlein
- M. Hrabe de Angelis
- V. Iyer
- P.J. de Jong
- G. Koscielny
- R. Kuehn
- P. Liu
- K.C.K Lloyd
- R.G. Lopez
- S. Marschall
- S. Martinez
- C. McKerlie
- T. Meehan
- H. von Melchner
- M. Moore
- S.A. Murray
- A. Nagy
- L.M.J. Nutter
- G. Pavlovic
- A. Pombero
- H. Prosser
- R. Ramirez-Solis
- M. Ringwald
- B. Rosen
- N. Rosenthal
- J. Rossant
- P. Ruiz Noppinger
- E. Ryder
- W.C. Skarnes
- J. Schick
- F. Schnuetgen
- P. Schofield
- C. Seisenberger
- M. Selloum
- D. Smedley
- E.M. Simpson
- A.F. Stewart
- L. Teboul
- G.P. Tocchini Valentini
- D. Valenzuela
- A.P. West
- W. Wurst
Journal
- Drug Discovery Today: Disease Models
Quellenangabe
- Drug Discov Today Dis Model 20: 3-12
Zusammenfassung
The International Knockout Mouse Consortium (IKMC) developed high throughput gene trapping and gene targeting pipelines that produced mostly conditional mutations of more than 18,500 genes in C57BU6N mouse embryonie stem (ES) cells which have been archived and are freely available to the research community as a frozen resource. From this unprecedented resource more than 6000 mutant mouse strains have been generated by the IKMC in collaboration with the International Mouse Phenotyping Consortium (IMPC). ln addition, a cre-driver resource was established including 250 C57BU6 cre-inducible mouse strains. Complementing the credriver resource, a collection comprising 2 7 rAA Vs expressing cre in a tissue-specific manner has also been produced. All resources are easily accessible from the IKMC/IMPC web portal (www.mousephenotype.org). The IKMC/IMPC resource is a standardized reference library of mouse models with defined genetic backgrounds enabling the analysis of gene-disease associations in mice of different genetic makeup and should therefore have a major impact on biomedical research.