Transgenic Strategies for Combinatorial Expression of Fluorescent Proteins in the Nervous System

Overview

Journal Nature

Specialty Science

Date 2007 Nov 2

PMID 17972876

Citations 879

Authors

Jean Livet

Tamily A Weissman

Hyuno Kang

Ryan W Draft

Ju Lu

Robyn A Bennis

Joshua R Sanes

Jeff W Lichtman

Affiliations

Soon will be listed here.

Abstract

Detailed analysis of neuronal network architecture requires the development of new methods. Here we present strategies to visualize synaptic circuits by genetically labelling neurons with multiple, distinct colours. In Brainbow transgenes, Cre/lox recombination is used to create a stochastic choice of expression between three or more fluorescent proteins (XFPs). Integration of tandem Brainbow copies in transgenic mice yielded combinatorial XFP expression, and thus many colours, thereby providing a way to distinguish adjacent neurons and visualize other cellular interactions. As a demonstration, we reconstructed hundreds of neighbouring axons and multiple synaptic contacts in one small volume of a cerebellar lobe exhibiting approximately 90 colours. The expression in some lines also allowed us to map glial territories and follow glial cells and neurons over time in vivo. The ability of the Brainbow system to label uniquely many individual cells within a population may facilitate the analysis of neuronal circuitry on a large scale.

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