{Reference Type}: Journal Article
{Title}: CRISPR Genome Editing Made Easy Through the CHOPCHOP Website.
{Author}: Labun K;Krause M;Torres Cleuren Y;Valen E;
{Journal}: Curr Protoc
{Volume}: 1
{Issue}: 4
{Year}: Apr 2021
暂无{DOI}: 10.1002/cpz1.46
{Abstract}: The design of optimal guide RNA (gRNA) sequences for CRISPR systems is challenged by the need to achieve highly efficient editing at the desired location (on-target editing) with minimal editing at unintended locations (off-target editing). Although laboratory validation should ideally be used to detect off-target activity, computational predictions are almost always preferred in practice due to their speed and low cost. Several studies have therefore explored gRNA-DNA interactions in order to understand how CRISPR complexes select their genomic targets. CHOPCHOP (https://chopchop.cbu.uib.no/) leverages these developments to build a user-friendly web interface that helps users design optimal gRNAs. CHOPCHOP supports a wide range of CRISPR applications, including gene knock-out, sequence knock-in, and RNA knock-down. Furthermore, CHOPCHOP offers visualization that enables an informed choice of gRNAs and supports experimental validation. In these protocols, we describe the best practices for gRNA design using CHOPCHOP. © 2021 The Authors. Current Protocols published by Wiley Periodicals LLC. Basic Protocol 1: Design of gRNAs for gene knock-out Alternate Protocol 1: Design of gRNAs for dCas9 fusion/effector targeting Support Protocol: Design of gRNAs for targeting transgenic or plasmid sequences Basic Protocol 2: Design of gRNAs for RNA targeting Basic Protocol 3: Design of gRNAs for sequence knock-in Alternate Protocol 2: Design of gRNAs for knock-in using non-homologous end joining Basic Protocol 4: Design of gRNAs for knock-in using Cas9 nickases.