CRISPR-DO for genome-wide CRISPR design and optimization

Ma Jian; Koster Johannes; Qin Qian; Hu Shengen; Li Wei; Chen Chenhao; Cao Qingyi; Wang Jinzeng; Mei Shenglin; Liu Qi; Xu Han; Liu Xiaole Shirley

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CRISPR-DO for genome-wide CRISPR design and optimization

机译：CarrpR-do用于基因组 - 范围的CRISPR设计和优化

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Motivation: Despite the growing popularity in using CRISPR/Cas9 technology for genome editing and gene knockout, its performance still relies on well-designed single guide RNAs (sgRNA). In this study, we propose a web application for the Design and Optimization (CRISPR-DO) of guide sequences that target both coding and non-coding regions in spCas9 CRISPR system across human, mouse, zebrafish, fly and worm genomes. CRISPR-DO uses a computational sequence model to predict sgRNA efficiency, and employs a specificity scoring function to evaluate the potential of off-target effect. It also provides information on functional conservation of target sequences, as well as the overlaps with exons, putative regulatory sequences and single-nucleotide polymorphisms (SNPs). The web application has a user-friendly genome-browser interface to facilitate the selection of the best target DNA sequences for experimental design.

机译：动机：尽管对基因组编辑和基因敲除使用CRISPR / CAS9技术越来越受欢迎，但其性能仍然依赖于精心设计的单指导RNA（SGRNA）。在这项研究中，我们提出了对指南序列的设计和优化（CIRSPR-DO）的Web应用程序，该指南序列将跨越人，小鼠，斑马鱼，飞行和蠕虫基因组的SPCAS9 CIRSPR系统中的编码和非编码区。 CRISPR-DO使用计算序列模型来预测SGRNA效率，采用特异性评分功能来评估偏移效果的潜力。它还提供有关靶序列功能守恒的信息，以及具有外显子，推定的调节序列和单核苷酸多态性（SNP）的重叠。 Web应用程序具有用户友好的基因组浏览器界面，以便于选择实验设计的最佳目标DNA序列。

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来源
《Bioinformatics》 |2016年第21期|共3页
作者
Ma Jian; Koster Johannes; Qin Qian; Hu Shengen; Li Wei; Chen Chenhao; Cao Qingyi; Wang Jinzeng; Mei Shenglin; Liu Qi; Xu Han; Liu Xiaole Shirley;
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作者单位

Tongji Univ Sch Life Sci &

Technol Shanghai 200092 Peoples R China;

Dana Farber Canc Inst Dept Biostat &

Computat Biol Boston MA 02115 USA;

Tongji Univ Sch Life Sci &

Technol Shanghai 200092 Peoples R China;

Tongji Univ Sch Life Sci &

Technol Shanghai 200092 Peoples R China;

Dana Farber Canc Inst Dept Biostat &

Computat Biol Boston MA 02115 USA;

Dana Farber Canc Inst Dept Biostat &

Computat Biol Boston MA 02115 USA;

Zhejiang Univ Collaborat Innovat Ctr Diag &

Treatment Infect Di State Key Lab Diag &

Treatment Infect Dis Affiliated Hosp 1 Coll Med Hangzhou 310003 Zhejiang Peoples R China;

Tongji Univ Sch Life Sci &

Technol Shanghai 200092 Peoples R China;

Tongji Univ Sch Life Sci &

Technol Shanghai 200092 Peoples R China;

Tongji Univ Sch Life Sci &

Technol Shanghai 200092 Peoples R China;

Dana Farber Canc Inst Dept Biostat &

Computat Biol Boston MA 02115 USA;

Tongji Univ Sch Life Sci &

Technol Shanghai 200092 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类生物工程学（生物技术）;
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专利

1. CRISPR-DO for genome-wide CRISPR design and optimization [J] . Ma Jian, Koster Johannes, Qin Qian, Bioinformatics . 2016,第21期

机译：CarrpR-do用于基因组 - 范围的CRISPR设计和优化
2. Evaluation and Design of Genome-Wide CRISPR/SpCas9 Knockout Screens [J] . Traver Hart, Amy Hin Yan Tong, Katie Chan, G3: Genes, Genomes, Genetics . 2017,第8期

机译：全基因组CRISPR / SpCas9敲除筛选的评估和设计
3. Cas-Database: web-based genome-wide guide RNA library design for gene knockout screens using CRISPR-Cas9 [J] . Park Jeongbin, Kim Jin-Soo, Bae Sangsu Bioinformatics . 2016,第13期

机译：Cas-Database：基于网络的全基因组指南RNA库设计，用于使用CRISPR-Cas9进行基因敲除筛选
4. A GENOME-WIDE CRISPR SCREEN TO GENERATE HIGH-YIELD CELL LINES FOR PANDEMIC INFLUENZA VACCINE PRODUCTION [C] . David Sharon, Amine Kamen Conference on vaccine technology VI . 2018

机译：全基因组CRISPR屏幕可产生高产细胞株以生产大流行性流感疫苗
5. Genome-Wide Crispr Screen Identifies Noncanonical Nf-κB Signaling as a Regulator of Epithelial Homeostasis [D] . Fomicheva, Maria. 2021

机译：基因组 - 范围的CRISPR筛网识别非甘露糖性NF-κB信号传导作为上皮稳态的调节器
6. CRISPR-DO for genome-wide CRISPR design and optimization [O] . Jian Ma, Johannes Köster, Qian Qin, -1

机译：CRISPR-DO用于全基因组CRISPR设计和优化
7. CRISPR-DO for genome-wide CRISPR design and optimization [O] . Jian Ma, Johannes Köster, Qian Qin, 2016

机译：CarrpR-do用于基因组 - 范围的CRISPR设计和优化

CRISPR-DO for genome-wide CRISPR design and optimization

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