Plug-and-Play Protein Modification Using Homology-Independent Universal Genome Engineering

Overview

Journal Neuron

Publisher Cell Press

Specialty Neurology

Date 2019 Jul 6

PMID 31272828

Citations 46

Authors

Yudong Gao

Erin Hisey

Tyler W A Bradshaw

Eda Erata

Walter E Brown

Jamie L Courtland

Akiyoshi Uezu

Yu Xiang

Yarui Diao

Scott H Soderling

Affiliations

Soon will be listed here.

Abstract

Analysis of endogenous protein localization, function, and dynamics is fundamental to the study of all cells, including the diversity of cell types in the brain. However, current approaches are often low throughput and resource intensive. Here, we describe a CRISPR-Cas9-based homology-independent universal genome engineering (HiUGE) method for endogenous protein manipulation that is straightforward, scalable, and highly flexible in terms of genomic target and application. HiUGE employs adeno-associated virus (AAV) vectors of autonomous insertional sequences (payloads) encoding diverse functional modifications that can integrate into virtually any genomic target loci specified by easily assembled gene-specific guide-RNA (GS-gRNA) vectors. We demonstrate that universal HiUGE donors enable rapid alterations of proteins in vitro or in vivo for protein labeling and dynamic visualization, neural-circuit-specific protein modification, subcellular rerouting and sequestration, and truncation-based structure-function analysis. Thus, the "plug-and-play" nature of HiUGE enables high-throughput and modular analysis of mechanisms driving protein functions in cellular neurobiology.

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