Add to ORKGOver the past decade, a battery of powerful tools that encompass forward and reverse genetic approaches have been developed to dissect the molecular and cellular processes that regulate development and disease. The advent of genetically-encoded fluorescent proteins that are expressed in wild type and mutant mice, together with advances in imaging technology, make it possible to study these biological processes in many dimensions. Importantly, these technologies allow direct visual access to complex events as they happen in their native environment, which provides greater insights into mammalian biology than ever before
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
As mammalian genome projects move towards completion, the attention of molecular neuroscientists is ...
The use of mouse models in biomedical research and preclinical drug evaluation is on the rise. The a...
Over the past decade, a battery of powerful tools that encompass forward and reverse genetic approac...
Modern biology is increasingly reliant on optical technologies, including visualization and longitud...
A paradigm shift is occurring in neuroscience and in general in life sciences converting biomedical ...
AbstractGenetically encoded imaging reporters introduced into cells and transgenic animals enable no...
The mouse is the leading organism for disease research. A rich resource of genetic variation occurs ...
Genotyping mice by DNA based methods is both laborious and costly. As an alternative, we systematica...
Transgenic mice provide a unique system fusing classical genetics with molecular biology. They enabl...
Advances in optical imaging modalities and the continued evolution of genetically-encoded fluorescen...
Here we characterize several new lines of transgenic mice useful for optogenetic analysis of brain c...
Setting up breeding programs for transgenic mouse strains require to distinguish homozygous from the...
Transgenic mouse models have facilitated research of human diseases and validation of therapeutic ap...
The laboratory mouse is a premier research tool for understanding human biology and disease. With th...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
As mammalian genome projects move towards completion, the attention of molecular neuroscientists is ...
The use of mouse models in biomedical research and preclinical drug evaluation is on the rise. The a...
Over the past decade, a battery of powerful tools that encompass forward and reverse genetic approac...
Modern biology is increasingly reliant on optical technologies, including visualization and longitud...
A paradigm shift is occurring in neuroscience and in general in life sciences converting biomedical ...
AbstractGenetically encoded imaging reporters introduced into cells and transgenic animals enable no...
The mouse is the leading organism for disease research. A rich resource of genetic variation occurs ...
Genotyping mice by DNA based methods is both laborious and costly. As an alternative, we systematica...
Transgenic mice provide a unique system fusing classical genetics with molecular biology. They enabl...
Advances in optical imaging modalities and the continued evolution of genetically-encoded fluorescen...
Here we characterize several new lines of transgenic mice useful for optogenetic analysis of brain c...
Setting up breeding programs for transgenic mouse strains require to distinguish homozygous from the...
Transgenic mouse models have facilitated research of human diseases and validation of therapeutic ap...
The laboratory mouse is a premier research tool for understanding human biology and disease. With th...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
As mammalian genome projects move towards completion, the attention of molecular neuroscientists is ...
The use of mouse models in biomedical research and preclinical drug evaluation is on the rise. The a...