In this issue of Neuron, Madisen et al. (2015) report the construction of several new transgenic mouse lines that apply intersectional genetic tools to achieve high levels of expression and cell-type specificity, providing a useful resource for future studies
<p>Mammalian central nervous systems consist of highly diverse types of neurons, which are the funct...
Systematic genetic access to GABAergic cell types will facilitate studying the function and developm...
Mammalian central nervous systems consist of highly diverse types of neurons, which are the function...
In this issue of Neuron, Madisen et al. (2015) report the construction of several new transgenic mou...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
available in PMC 2016 March 04An increasingly powerful approach for studying brain circuits relies o...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
An expanded toolkit of transgenic mouse lines for exploring the organization, function, and developm...
An expanded toolkit of transgenic mouse lines for exploring the organization, function, and developm...
To understand the organization and assembly of mammalian brain circuits, we need a comprehensive too...
Correct wiring of the nervous system is a complex and daunting task. Within the human nervous system...
Here we review the rapidly growing toolbox of transgenic mice and rats that exhibit functional expre...
The mammalian retina harbors over 100 different cell types. To understand how retinal circuits work,...
Mammalian central nervous systems consist of highly diverse types of neurons, which are the function...
Optogenetic methods have emerged as powerful tools for dissecting neural circuit connectivity, funct...
<p>Mammalian central nervous systems consist of highly diverse types of neurons, which are the funct...
Systematic genetic access to GABAergic cell types will facilitate studying the function and developm...
Mammalian central nervous systems consist of highly diverse types of neurons, which are the function...
In this issue of Neuron, Madisen et al. (2015) report the construction of several new transgenic mou...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
available in PMC 2016 March 04An increasingly powerful approach for studying brain circuits relies o...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
An expanded toolkit of transgenic mouse lines for exploring the organization, function, and developm...
An expanded toolkit of transgenic mouse lines for exploring the organization, function, and developm...
To understand the organization and assembly of mammalian brain circuits, we need a comprehensive too...
Correct wiring of the nervous system is a complex and daunting task. Within the human nervous system...
Here we review the rapidly growing toolbox of transgenic mice and rats that exhibit functional expre...
The mammalian retina harbors over 100 different cell types. To understand how retinal circuits work,...
Mammalian central nervous systems consist of highly diverse types of neurons, which are the function...
Optogenetic methods have emerged as powerful tools for dissecting neural circuit connectivity, funct...
<p>Mammalian central nervous systems consist of highly diverse types of neurons, which are the funct...
Systematic genetic access to GABAergic cell types will facilitate studying the function and developm...
Mammalian central nervous systems consist of highly diverse types of neurons, which are the function...
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