AbstractNew technologies are changing the way in which gene targeting experiments are being designed. It is now becoming possible to analyze gene function in defined tissues at specific times during the life of a mouse
AbstractIn recent years, the Cre integrase from bacteriophage P1 has become an essential tool for co...
Gene targeting in ES cells is extensively used to generate designed mouse mutants and to study gene ...
Inducible gene targeting based on the Cre/loxP system is a novel technique allowing conditional gene...
New technologies are changing the way in which gene targeting experiments are being designed. It is ...
New technologies are changing the way in which gene targeting experiments are being designed. It is ...
The laboratory mouse is an ideal model organism for studying disease because it is physiologically s...
Molecular techniques now allow the design of precise genetic modifications in the mouse. Not only ca...
AbstractThe site-specific DNA recombinase Cre is being used to develop a new generation of tools for...
Conditional gene targeting allows us to study gene function in specific tissues or cell types. This ...
AbstractUsing the phage P1–derived Cre/loxP recombination system, we have developed a method to crea...
AbstractSite-specific recombinase systems (Cre-loxP, Flp-FRT, and φC31-att) are transforming both fo...
AbstractThe use of site-specific recombinases enables the precise introduction of defined genetic mu...
Analysis of genetically engineered mice is crucial for our understanding of the in vivo function of ...
Analysis of genetically engineered mice is crucial for our understanding of the in vivo function of ...
Analysis of genetically engineered mice is crucial for our understanding of the in vivo function of ...
AbstractIn recent years, the Cre integrase from bacteriophage P1 has become an essential tool for co...
Gene targeting in ES cells is extensively used to generate designed mouse mutants and to study gene ...
Inducible gene targeting based on the Cre/loxP system is a novel technique allowing conditional gene...
New technologies are changing the way in which gene targeting experiments are being designed. It is ...
New technologies are changing the way in which gene targeting experiments are being designed. It is ...
The laboratory mouse is an ideal model organism for studying disease because it is physiologically s...
Molecular techniques now allow the design of precise genetic modifications in the mouse. Not only ca...
AbstractThe site-specific DNA recombinase Cre is being used to develop a new generation of tools for...
Conditional gene targeting allows us to study gene function in specific tissues or cell types. This ...
AbstractUsing the phage P1–derived Cre/loxP recombination system, we have developed a method to crea...
AbstractSite-specific recombinase systems (Cre-loxP, Flp-FRT, and φC31-att) are transforming both fo...
AbstractThe use of site-specific recombinases enables the precise introduction of defined genetic mu...
Analysis of genetically engineered mice is crucial for our understanding of the in vivo function of ...
Analysis of genetically engineered mice is crucial for our understanding of the in vivo function of ...
Analysis of genetically engineered mice is crucial for our understanding of the in vivo function of ...
AbstractIn recent years, the Cre integrase from bacteriophage P1 has become an essential tool for co...
Gene targeting in ES cells is extensively used to generate designed mouse mutants and to study gene ...
Inducible gene targeting based on the Cre/loxP system is a novel technique allowing conditional gene...
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