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Literature DB >> 25741722

Transgenic mice for intersectional targeting of neural sensors and effectors with high specificity and performance.

Linda Madisen¹, Aleena R Garner¹, Daisuke Shimaoka², Amy S Chuong³, Nathan C Klapoetke³, Lu Li¹, Alexander van der Bourg⁴, Yusuke Niino⁵, Ladan Egolf⁴, Claudio Monetti⁶, Hong Gu¹, Maya Mills¹, Adrian Cheng¹, Bosiljka Tasic¹, Thuc Nghi Nguyen¹, Susan M Sunkin¹, Andrea Benucci⁷, Andras Nagy⁶, Atsushi Miyawaki⁵, Fritjof Helmchen⁴, Ruth M Empson⁸, Thomas Knöpfel⁹, Edward S Boyden³, R Clay Reid¹, Matteo Carandini², Hongkui Zeng¹⁰.

Abstract

An increasingly powerful approach for studying brain circuits relies on targeting genetically encoded sensors and effectors to specific cell types. However, current approaches for this are still limited in functionality and specificity. Here we utilize several intersectional strategies to generate multiple transgenic mouse lines expressing high levels of novel genetic tools with high specificity. We developed driver and double reporter mouse lines and viral vectors using the Cre/Flp and Cre/Dre double recombinase systems and established a new, retargetable genomic locus, TIGRE, which allowed the generation of a large set of Cre/tTA-dependent reporter lines expressing fluorescent proteins, genetically encoded calcium, voltage, or glutamate indicators, and optogenetic effectors, all at substantially higher levels than before. High functionality was shown in example mouse lines for GCaMP6, YCX2.60, VSFP Butterfly 1.2, and Jaws. These novel transgenic lines greatly expand the ability to monitor and manipulate neuronal activities with increased specificity.

Entities: Chemical

Mesh：

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Year: 2015 PMID： 25741722 PMCID： PMC4365051 DOI： 10.1016/j.neuron.2015.02.022

Source DB: PubMed Journal: Neuron ISSN： 0896-6273 Impact factor: 17.173

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