Add to ORKGDr Capecchi, winner of the Nobel Prize for Medicine, holds his research partner, the knockout mouse. Dr Capecchi pioneered ways to target specific gene modifications in mice by utilizing embryonic stem (ES) cells. Commonly known as gene targeting or knockout, Dr Capecchi worked focused on the homologous recombination between DNA sequences residing in the chromosome and newly introduced DNA to mutate any genes of interest occurring in the mouse genome
Book ChapterGene targeting provides the means for creating strains of mice with mutations in virtual...
The usefulness of a specific technology often hits a ceiling based on technical limitations. Then, a...
In 1974, Dr. Ralph Brinster published a paper describing the consequences of injecting embryonal car...
Dr Capecchi, winner of the Nobel Prize for Medicine, holds his research partner, the knockout mouse....
The 2007 Nobel Prize in Physiology or Medicine has been awarded to Mario Capecchi, Martin Evans, and...
Two major innovations in the 1980s have changed all fields of biomedicine. Combination of gene targe...
The Nobel Prize in Physiology or Medicine 2007 was awarded jointly to Mario R. Capecchi, Sir Martin ...
Three major mouse knockout programs are underway worldwide, working together to mutate all protein-e...
International audienceLe prix Nobel de Médecine et Physiologie 2007 a été décerné à Mario Capecchi (...
Three major mouse knockout programs are underway worldwide, working together to mutate all protein-e...
One of today's most powerful technologies in biomedical research—the creation of mutant mice by gene...
audioThis is an audio transcript of a 1 hour, 2 minutes and 12 seconds lecture given at the National...
Mouse knockout technology provides a powerful means of elucidating gene function in vivo, and a publ...
Mouse knockout technology provides a powerful means of elucidating gene function in vivo, and a publ...
In 2007, the International Knockout Mouse Consortium (IKMC) made the ambitious promise to generate m...
Book ChapterGene targeting provides the means for creating strains of mice with mutations in virtual...
The usefulness of a specific technology often hits a ceiling based on technical limitations. Then, a...
In 1974, Dr. Ralph Brinster published a paper describing the consequences of injecting embryonal car...
Dr Capecchi, winner of the Nobel Prize for Medicine, holds his research partner, the knockout mouse....
The 2007 Nobel Prize in Physiology or Medicine has been awarded to Mario Capecchi, Martin Evans, and...
Two major innovations in the 1980s have changed all fields of biomedicine. Combination of gene targe...
The Nobel Prize in Physiology or Medicine 2007 was awarded jointly to Mario R. Capecchi, Sir Martin ...
Three major mouse knockout programs are underway worldwide, working together to mutate all protein-e...
International audienceLe prix Nobel de Médecine et Physiologie 2007 a été décerné à Mario Capecchi (...
Three major mouse knockout programs are underway worldwide, working together to mutate all protein-e...
One of today's most powerful technologies in biomedical research—the creation of mutant mice by gene...
audioThis is an audio transcript of a 1 hour, 2 minutes and 12 seconds lecture given at the National...
Mouse knockout technology provides a powerful means of elucidating gene function in vivo, and a publ...
Mouse knockout technology provides a powerful means of elucidating gene function in vivo, and a publ...
In 2007, the International Knockout Mouse Consortium (IKMC) made the ambitious promise to generate m...
Book ChapterGene targeting provides the means for creating strains of mice with mutations in virtual...
The usefulness of a specific technology often hits a ceiling based on technical limitations. Then, a...
In 1974, Dr. Ralph Brinster published a paper describing the consequences of injecting embryonal car...