Add to ORKGIn a recently introduced transgenic multicolor labeling strategy called “Brainbow, ” Cre-lox recombination is used to create a stochastic choice of expression among fluorescent proteins (XFPs), resulting in the indelible marking of mouse neurons with multiple, distinct colors. This method has been adapted to non-neuronal cells in mice and to neurons in fish and flies, but has yet to realize its full potential in the mouse brain. Here, we present several new lines of mice that overcome limitations of the initial lines and an adaptation of the method for use in adeno-associated viral (AAV) vectors. We also provide technical advice about how best to image Brainbow transgenes
available in PMC 2016 March 04An increasingly powerful approach for studying brain circuits relies o...
A major barrier to complex experimental design in mouse genetics is the allele problem: combining th...
A new strategy for visualizing neuronal cell morphology of mouse brain based on Cre/loxP recombinati...
Visualizing the precise morphology of closely juxtaposed cells and their interactions can be highly ...
We describe a method that combines Cre-recombinase knockin mice and viral-mediated gene transfer to ...
We describe a method that combines Cre-recombinase knockin mice and viral-mediated gene transfer to ...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
This protocol describes how to generate Brainbow transgenes and mice, how to induce recombination in...
We developed a multicolor neuron labeling technique in Drosophila melanogaster that combines the pow...
We describe a method that combines Cre-recombinase knockin mice and viral-mediated gene transfer to ...
We developed a multicolor neuron labeling technique in Drosophila melanogaster combining the power t...
The first three generations of neuroanatomical tract-tracing methods include, respectively, techniqu...
The first three generations of neuroanatomical tract-tracing methods include, respectively, techniqu...
The ability to label, visualize, and manipulate subsets of neurons is critical for elucidating the s...
A paradigm shift is occurring in neuroscience and in general in life sciences converting biomedical ...
available in PMC 2016 March 04An increasingly powerful approach for studying brain circuits relies o...
A major barrier to complex experimental design in mouse genetics is the allele problem: combining th...
A new strategy for visualizing neuronal cell morphology of mouse brain based on Cre/loxP recombinati...
Visualizing the precise morphology of closely juxtaposed cells and their interactions can be highly ...
We describe a method that combines Cre-recombinase knockin mice and viral-mediated gene transfer to ...
We describe a method that combines Cre-recombinase knockin mice and viral-mediated gene transfer to ...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
This protocol describes how to generate Brainbow transgenes and mice, how to induce recombination in...
We developed a multicolor neuron labeling technique in Drosophila melanogaster that combines the pow...
We describe a method that combines Cre-recombinase knockin mice and viral-mediated gene transfer to ...
We developed a multicolor neuron labeling technique in Drosophila melanogaster combining the power t...
The first three generations of neuroanatomical tract-tracing methods include, respectively, techniqu...
The first three generations of neuroanatomical tract-tracing methods include, respectively, techniqu...
The ability to label, visualize, and manipulate subsets of neurons is critical for elucidating the s...
A paradigm shift is occurring in neuroscience and in general in life sciences converting biomedical ...
available in PMC 2016 March 04An increasingly powerful approach for studying brain circuits relies o...
A major barrier to complex experimental design in mouse genetics is the allele problem: combining th...
A new strategy for visualizing neuronal cell morphology of mouse brain based on Cre/loxP recombinati...