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
SummaryOptogenetics has been enthusiastically pursued in recent neuroscience research, and the causa...
Systematic genetic access to GABAergic cell types will facilitate studying the function and developm...
Neuroanatomists increasingly rely on techniques enabling them to manipulate genes in defined brain c...
In this issue of Neuron, Madisen et al. (2015) report the construction of several new transgenic mou...
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...
New genetic technologies are transforming nervous system studies in mice, impacting fields from neur...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
Development of tools to manipulate activity of specific neurons is important for dissecting the func...
The mammalian retina harbors over 100 different cell types. To understand how retinal circuits work,...
To understand the organization and assembly of mammalian brain circuits, we need a comprehensive too...
Understanding the complex neural circuits that underpin brain function and behavior has been a long-...
The mammalian neocortex gives rise to a wide range of mental activities and consists of a constellat...
Correct wiring of the nervous system is a complex and daunting task. Within the human nervous system...
SummaryTargeting genetically encoded tools for neural circuit dissection to relevant cellular popula...
SummaryOptogenetics has been enthusiastically pursued in recent neuroscience research, and the causa...
Systematic genetic access to GABAergic cell types will facilitate studying the function and developm...
Neuroanatomists increasingly rely on techniques enabling them to manipulate genes in defined brain c...
In this issue of Neuron, Madisen et al. (2015) report the construction of several new transgenic mou...
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...
New genetic technologies are transforming nervous system studies in mice, impacting fields from neur...
SummaryAn increasingly powerful approach for studying brain circuits relies on targeting genetically...
Development of tools to manipulate activity of specific neurons is important for dissecting the func...
The mammalian retina harbors over 100 different cell types. To understand how retinal circuits work,...
To understand the organization and assembly of mammalian brain circuits, we need a comprehensive too...
Understanding the complex neural circuits that underpin brain function and behavior has been a long-...
The mammalian neocortex gives rise to a wide range of mental activities and consists of a constellat...
Correct wiring of the nervous system is a complex and daunting task. Within the human nervous system...
SummaryTargeting genetically encoded tools for neural circuit dissection to relevant cellular popula...
SummaryOptogenetics has been enthusiastically pursued in recent neuroscience research, and the causa...
Systematic genetic access to GABAergic cell types will facilitate studying the function and developm...
Neuroanatomists increasingly rely on techniques enabling them to manipulate genes in defined brain c...
DOI
Add to ORKG