CRISPR gRNA design

Benjamin E Housden, Shuailiang Lin, and Norbert Perrimon. 2014. “Cas9-based genome editing in Drosophila.” Methods Enzymol, 546, Pp. 415-39.Abstract

Our ability to modify the Drosophila genome has recently been revolutionized by the development of the CRISPR system. The simplicity and high efficiency of this system allows its widespread use for many different applications, greatly increasing the range of genome modification experiments that can be performed. Here, we first discuss some general design principles for genome engineering experiments in Drosophila and then present detailed protocols for the production of CRISPR reagents and screening strategies to detect successful genome modification events in both tissue culture cells and animals.

Stephanie E Mohr, Yanhui Hu, Benjamin Ewen-Campen, Benjamin E Housden, Raghuvir Viswanatha, and Norbert Perrimon. 2016. “CRISPR guide RNA design for research applications.” FEBS J.Abstract

The rapid rise of CRISPR as a technology for genome engineering and related research applications has created a need for algorithms and associated online tools that facilitate design of on-target and effective guide RNAs (gRNAs). Here, we review the state-of-the-art in CRISPR gRNA design for research applications of the CRISPR-Cas9 system, including knockout, activation and inhibition. Notably, achieving good gRNA design is not solely dependent on innovations in CRISPR technology. Good design and design tools also rely on availability of high-quality genome sequence and gene annotations, as well as on availability of accumulated data regarding off-targets and effectiveness metrics. This article is protected by copyright. All rights reserved.

2016 Sep 28

Functional genomics techniques in Drosophila and their potential application in non-model insects

11:45am to 12:00pm

Location: 

Orlando, FL

DRSC-FGR Director S. Mohr will be presenting in the symposium Insect Genetic Technologies: State of the Art and Promise for the Future at the International Congress of Entomology (ICE 2016). Come hear what is possible in Drosophila that might be applied to other insect species. Wednesday, September 28, 2016 at 11:45 am (symposium from 9:30 - 12:30).

Xingjie Ren, Jin Sun, Benjamin E Housden, Yanhui Hu, Charles Roesel, Shuailiang Lin, Lu-Ping Liu, Zhihao Yang, Decai Mao, Lingzhu Sun, Qujie Wu, Jun-Yuan Ji, Jianzhong Xi, Stephanie E Mohr, Jiang Xu, Norbert Perrimon, and Jian-Quan Ni. 2013. “Optimized gene editing technology for Drosophila melanogaster using germ line-specific Cas9.” Proc Natl Acad Sci U S A, 110, 47, Pp. 19012-7.Abstract

The ability to engineer genomes in a specific, systematic, and cost-effective way is critical for functional genomic studies. Recent advances using the CRISPR-associated single-guide RNA system (Cas9/sgRNA) illustrate the potential of this simple system for genome engineering in a number of organisms. Here we report an effective and inexpensive method for genome DNA editing in Drosophila melanogaster whereby plasmid DNAs encoding short sgRNAs under the control of the U6b promoter are injected into transgenic flies in which Cas9 is specifically expressed in the germ line via the nanos promoter. We evaluate the off-targets associated with the method and establish a Web-based resource, along with a searchable, genome-wide database of predicted sgRNAs appropriate for genome engineering in flies. Finally, we discuss the advantages of our method in comparison with other recently published approaches.

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