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A Suite of Transgenic Driver and Reporter Mouse Lines with Enhanced Brain-Cell-Type Targeting and Functionality.

Cell. 2018 Jul 12;174(2):465-480.e22
Tanya L Daigle 1 , Linda Madisen 1 , Travis A Hage 1 , Matthew T Valley 1 , Ulf Knoblich 1 , Rylan S Larsen 1 , Marc M Takeno 1 , Lawrence Huang 1 , Hong Gu 1 , Rachael Larsen 1 , Maya Mills 1 , Alice Bosma-Moody 1 , La' Akea Siverts 1 , Miranda Walker 1 , Lucas T Graybuck 1 , Zizhen Yao 1 , Olivia Fong 1 , Thuc Nghi Nguyen 1 , Emma Garren 1 , Garreck H Lenz 1 , Mariya Chavarha 2 , Julie Pendergraft 1 , James Harrington 1 , Karla E Hirokawa 1 , Julie A Harris 1 , Philip R Nicovich 1 , Medea J McGraw 1 , Douglas R Ollerenshaw 1 , Kimberly A Smith 1 , Christopher A Baker 1 , Jonathan T Ting 1 , Susan M Sunkin 1 , Jérôme Lecoq 1 , Michael Z Lin 2 , Edward S Boyden 3 , Gabe J Murphy 1 , Nuno M da Costa 1 , Jack Waters 1 , Lu Li 1 , Bosiljka Tasic 1 , Hongkui Zeng 4
Tanya L Daigle 1 , Linda Madisen 1 , Travis A Hage 1 , Matthew T Valley 1 , Ulf Knoblich 1 , Rylan S Larsen 1 , Marc M Takeno 1 , Lawrence Huang 1 , Hong Gu 1 , Rachael Larsen 1 , Maya Mills 1 , Alice Bosma-Moody 1 , La' Akea Siverts 1 , Miranda Walker 1 , Lucas T Graybuck 1 , Zizhen Yao 1 , Olivia Fong 1 , Thuc Nghi Nguyen 1 , Emma Garren 1 , Garreck H Lenz 1 , Mariya Chavarha 2 , Julie Pendergraft 1 , James Harrington 1 , Karla E Hirokawa 1 , Julie A Harris 1 , Philip R Nicovich 1 , Medea J McGraw 1 , Douglas R Ollerenshaw 1 , Kimberly A Smith 1 , Christopher A Baker 1 , Jonathan T Ting 1 , Susan M Sunkin 1 , Jérôme Lecoq 1 , Michael Z Lin 2 , Edward S Boyden 3 , Gabe J Murphy 1 , Nuno M da Costa 1 , Jack Waters 1 , Lu Li 1 , Bosiljka Tasic 1 , Hongkui Zeng 4
+ et al

[No authors listed]

Author information
  • 1 Allen Institute for Brain Science, Seattle, WA 98109, USA.
  • 2 Departments of Neurobiology and Bioengineering, Stanford University School of Medicine, Stanford, CA 94305, USA.
  • 3 MIT Media Lab and McGovern Institute, Departments of Biological Engineering and Brain and Cognitive Sciences, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.
  • 4 Allen Institute for Brain Science, Seattle, WA 98109, USA. Electronic address: hongkuiz@alleninstitute.org.

摘要

Modern genetic approaches are powerful in providing access to diverse cell types in the brain and facilitating the study of their function. Here, we report a large set of driver and reporter transgenic mouse lines, including 23 new driver lines targeting a variety of cortical and subcortical cell populations and 26 new reporter lines expressing an array of molecular tools. In particular, we describe the TIGRE2.0 transgenic platform and introduce Cre-dependent reporter lines that enable optical physiology, optogenetics, and sparse labeling of genetically defined cell populations. TIGRE2.0 reporters broke the barrier in transgene expression level of single-copy targeted-insertion transgenesis in a wide range of neuronal types, along with additional advantage of a simplified breeding strategy compared to our first-generation TIGRE lines. These novel transgenic lines greatly expand the repertoire of high-precision genetic tools available to effectively identify, monitor, and manipulate distinct cell types in the mouse brain.

KEYWORDS: Cre, Flp, TIGRE, calcium sensor, cell type, channelrhodopsin, optogenetics, reporter, transgenic mice, voltage sensor

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