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CRISPR/Cas技术能高效进行基因组定点编辑,但不同细菌来源或人工改造的Cas9以及Cpf1等核酸酶识别的PAM (protospacer adjacent motif)有差异,因此不同的基因编辑核酸酶可能采用不同类型的sgRNAs(small guide RNAs)。MicroRNAs (miRNAs)是一类调控性的小分子非编码RNAs,为了研究miRNA前体中是否可能存在特异性高的sgRNAs靶点,本文利用本课题组前期开发的生物信息学软件CRISPR-offinder,对靶向28 645条miRNA前体的11种不同类型sgRNA的丰度及特异性进行了分析,并利用CRISPR/Cas9慢病毒技术构建了猪miR-302/367基因簇敲除细胞系,对构建的猪miRNA敲除细胞系的效率进行了检测。结果表明,每个miRNA前体中平均存在约8种不同类型sgRNA的靶点;通过评估靶向猪miRNA前体sgRNA的脱靶效应,发现其中特异性高的sgRNA仅占18.2%;通过CRISPR/Cas9慢病毒技术成功构建了猪miR-302/367基因簇敲除细胞系,发现通过该技术构建miRNA敲除细胞系的效率为40%。本研究为利用CRISPR/Cas技术靶向敲除miRNA提供了重要资源。 相似文献
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基于CRISPR/Cas9系统介导的第三代基因组编辑技术,已成功应用于动物、植物和微生物等诸多物种的基因组改造。如何提高CRISPR/Cas9技术的基因组编辑效率和最大限度降低脱靶风险一直是本领域的研究热点,而使用高效且特异的sgRNA(Small guide RNA)是基因组改造成功的关键性因素之一。目前,已有多款针对CRISPR/Cas9技术的sgRNA设计和/或脱靶效应评估软件,但不同的软件各有优缺点。本文重点对16款sgRNA 设计和脱靶效应评估在线和单机版软件的特点进行了阐述,通过制定38项评估指标对不同软件进行了比较分析,最后对11种用于检测基因组编辑效率和脱靶的实验方法,以及如何筛选高效且特异的sgRNA进行了归纳总结。 相似文献
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基于CRISPR/Cas9系统介导的第三代基因组定点编辑技术,已被广泛应用于基因编辑和基因表达调控等研究领域。如何提高该技术对基因组编辑的效率与特异性、最大限度降低脱靶风险一直是该领域的难点。近年来,机器学习为解决CRISPR/Cas9系统所面临的问题提供了新思路,基于机器学习的CRISPR/Cas9系统已逐渐成为研究热点。本文阐述了CRISPR/Cas9的作用机理,总结了现阶段该技术面临的基因组编辑效率低、存在潜在的脱靶效应、前间区序列邻近基序(PAM)限制识别序列等问题,最后对机器学习应用于优化设计高效向导RNA (sgRNA)序列、预测sgRNA的活性、脱靶效应评估、基因敲除、高通量功能基因筛选等领域的研究现状与发展前景进行了展望,以期为基因组编辑领域的研究提供参考。 相似文献
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CRISPR/Cas9基因编辑技术在生命科学领域掀起了一场全新的技术革命,该技术可以对基因组特定位点进行靶向编辑,包括缺失、插入、修复等。CRISPR/Cas9比锌指核酸酶 (ZFNs)和转录激活因子样效应物核酸酶(TALENs)技术更易于操作,而且更高效。CRISPR/Cas9系统中的向导RNA(Single guide RNA, sgRNA)是一段与目标DNA片段匹配的RNA序列,指导Cas9蛋白对基因组进行识别。研究发现,设计的sgRNA会与非靶点DNA序列错配,引入非预期的基因突变,即脱靶效应(Off-target effects)。脱靶效应严重制约了CRISPR/Cas9基因编辑技术的广泛应用。为了避免脱靶效应,研究者对影响脱靶效应的因素进行了系统研究并提出了许多降低脱靶效应的方法。文章总结了CRISPR/Cas9系统的应用及脱靶效应研究进展,以期为相关领域的工作提供参考。 相似文献
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目的:为提高CRISPR/Cas9(clustered regularly interspaced short palindromic repeats/CRISPR-associated protein 9)靶向性奠定基础,同时证明酵母杂交系统在研究CRISPR/Cas9脱靶效应中的应用价值。方法:以实验室前期构建成功的activase基因编辑水稻株为研究对象,先采用T7核酸内切酶Ⅰ法初步预测30株基因编辑水稻株的脱靶率。随后以酵母杂交系统进一步预测脱靶率以及研究sgRNA结构对脱靶率的影响。首先,将activase靶向基因的标准sgRNA(standard sgRNA)和短sgRNA(truncated sgRNA)分别克隆至CRISPR/Cas9系统表达载体pDW3769中,构建对应的重组载体pHZ2和pHZ4,转化至YPH499酵母单倍体形成重组酵母YpHZ2和YpHZ4;其次,根据脱靶位点预测选择7组脱靶序列A、B、C、D、E、F、G以及靶向序列,分别克隆至包含报告基因mCherry的高拷贝载体pDW3133和低拷贝载体pDW3134,构建相应的高拷贝重组载体pHZ5、pHZ7、pHZ9、pHZ11、pHZ13、pHZ15、pHZ17和pHZ19,以及对应的低拷贝重组载体pHZ6、pHZ8、pHZ10、pHZ12、pHZ14、pHZ16、pHZ18和pHZ20,转化至YPH500酵母单倍体,构建重组酵母YpHZ5-20。随后,重组酵母YpHZ2和YpHZ4与重组酵母YpHZ5-20分别杂交,挑取双倍体酵母菌落,在不同的时间段下检测荧光数值,根据荧光值定量预测脱靶率。结果:酵母培养144~192 h时荧光最为显著,脱靶序列sgRNA与靶向基因sgRNA同源性越高,越易造成脱靶,但短sgRNA较标准sgRNA脱靶率低。根据水稻植株的脱靶检测显示脱靶率约20%,基于酵母杂交的检测结果显示脱靶率为20%~28%。结论:酵母细胞进入稳定期时荧光值最为显著,且与载体的拷贝数量成正比。sgRNA序列以及长短结构可影响CRISPR/Cas9的基因靶向性。两种方法的脱靶率预测结果相当,表明酵母杂交系统在评价CRISPR/Cas9系统的脱靶率以及研究脱靶影响因素中具有良好的应用价值。 相似文献
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CRISPR/Cas9系统的发展彻底改变了人们编辑DNA序列和调控目标基因表达水平的能力,从而为生物体的精确基因组编辑提供了有力的工具。简化后的CRISPR/Cas9系统由两部分组成:Cas9蛋白和sgRNA。其作用原理为sgRNA通过自身的Cas9把手与Cas9蛋白形成Cas9-sgRNA复合体,Cas9-sgRNA复合体中sgRNA的碱基互补配对区序列与目标基因的靶序列通过碱基互补配对原则进行配对结合,Cas9利用自身的核酸内切酶活性对目标DNA序列进行切割。与传统的基因组编辑技术相比,CRISPR/Cas9系统具有几大明显的优势:易用性、简便性、低成本、可编程性以及可同时编辑多个基因。CRISPR/Cas9基因组编辑技术以及衍生出来的CRISPRi和CRISPRa基因表达调控技术已经广泛应用于多种真核和原核生物中。综述了CRISPR/Cas9系统的起源、作用机理、在生物体中的应用和其衍生出的技术,并概述了其脱靶效应和未来前景。 相似文献
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《中国实验动物学报》2019,(5)
目的使用CRISPR/Cas9基因编辑技术敲除长度约为90 kb的小鼠FcγR2b,FcγR3,FcγR4基因簇,为构建FcγR基因人源化小鼠奠定基础。方法使用在线预测软件在FcγR2b,FcγR3外显子区设计sgRNA,在每一位点挑选脱靶效应较低的五个候选sgRNA。通过CRISPR/Cas9活性检测试剂盒检测sgRNA在体外的活性。选取活性较高的sgRNA体外转录,与Cas9 mRNA一并注射受精卵。通过PCR检测及测序,得到1只敲除片段为89 711 bp的基因修饰小鼠,且同时敲除FcγR2b基因5’端,FcγR3基因3’端及FcγR4基因。而且还利用软件预测了8个脱靶可能性最高的位点,并对首建鼠基因组的上述8个脱靶位点全部测序确认。结果结果显示未在预测脱靶位点附近发现小片段插入或缺失。结论建立了利用CRISPR/Cas9基因编辑技术敲除基因组超大片段的技术,该技术结合BAC转基因技术,将为建立含有复杂基因族的人源化小鼠提供新的途径。 相似文献
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CRISPR/Cas9的发现为多种生物的基因编辑提供了强有力的工具。然而,该系统在提供靶向性基因修饰的同时,会产生一些不需要的突变,即脱靶现象。为提高CRISPR/Cas9的特异性,我们将野生型FokI核酸内切酶的功能结构域与催化功能区失活的Cas9蛋白(dCas9)进行融合,形成融合蛋白用于降低脱靶效应。FokⅠ是一种依赖于二聚化才能行使内切酶活性的核酸酶,在本研究中,通过将FokⅠ功能结构融合到dCas9的N端,构建表达质粒pST1374-dCas9-FokⅠ。我们前期研究中,发现一个sgRNA在介导Cas9编辑Dnmt1基因建立条件敲除大鼠时,存在显著的脱靶现象。以此为基础,我们利用dCas9-FokⅠ/sgRNA系统编辑大鼠Dnmt1基因,研究该系统是否能够进行基因编辑以及是否能够提高基因编辑特异性。将转录好的dCas9-FokⅠ mRNA和sgRNA显微注射到SD大鼠的受精卵中,用于产生基因编辑大鼠。通过显微注射以及胚胎移植,最终获得43只F0代大鼠,其中两只在靶点位置包含突变,突变效率达4.5%。对脱靶情况进行分析,结果显示,无脱靶现象存在。综上,表明dCas9-FokⅠ/sgRNA可以应用于编辑大鼠基因,并能显著提高特异性。尽管dCas9-FokⅠ/sgRNA系统相比于Cas9/sgRNA系统,基因编辑效率有所下降,但是该技术的发展为基因治疗提供了可供选择的潜在工具。 相似文献
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Zhou Hong Zhou Michael Li Daisy Manthey Joseph Lioutikova Ekaterina Wang Hong Zeng Xiao 《BMC genomics》2017,18(9):826-38
Background
The beauty and power of the genome editing mechanism, CRISPR Cas9 endonuclease system, lies in the fact that it is RNA-programmable such that Cas9 can be guided to any genomic loci complementary to a 20-nt RNA, single guide RNA (sgRNA), to cleave double stranded DNA, allowing the introduction of wanted mutations. Unfortunately, it has been reported repeatedly that the sgRNA can also guide Cas9 to off-target sites where the DNA sequence is homologous to sgRNA.Results
Using human genome and Streptococcus pyogenes Cas9 (SpCas9) as an example, this article mathematically analyzed the probabilities of off-target homologies of sgRNAs and discovered that for large genome size such as human genome, potential off-target homologies are inevitable for sgRNA selection. A highly efficient computationl algorithm was developed for whole genome sgRNA design and off-target homology searches. By means of a dynamically constructed sequence-indexed database and a simplified sequence alignment method, this algorithm achieves very high efficiency while guaranteeing the identification of all existing potential off-target homologies. Via this algorithm, 1,876,775 sgRNAs were designed for the 19,153 human mRNA genes and only two sgRNAs were found to be free of off-target homology.Conclusions
By means of the novel and efficient sgRNA homology search algorithm introduced in this article, genome wide sgRNA design and off-target analysis were conducted and the results confirmed the mathematical analysis that for a sgRNA sequence, it is almost impossible to escape potential off-target homologies. Future innovations on the CRISPR Cas9 gene editing technology need to focus on how to eliminate the Cas9 off-target activity.12.
Optimized paired‐sgRNA/Cas9 cloning and expression cassette triggers high‐efficiency multiplex genome editing in kiwifruit 
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下载免费PDF全文 Zupeng Wang Shuaibin Wang Dawei Li Qiong Zhang Li Li Caihong Zhong Yifei Liu Hongwen Huang 《Plant biotechnology journal》2018,16(8):1424-1433
Kiwifruit is an important fruit crop; however, technologies for its functional genomic and molecular improvement are limited. The clustered regulatory interspaced short palindromic repeats (CRISPR)/CRISPR‐associated protein (Cas) system has been successfully applied to genetic improvement in many crops, but its editing capability is variable depending on the different combinations of the synthetic guide RNA (sgRNA) and Cas9 protein expression devices. Optimizing conditions for its use within a particular species is therefore needed to achieve highly efficient genome editing. In this study, we developed a new cloning strategy for generating paired‐sgRNA/Cas9 vectors containing four sgRNAs targeting the kiwifruit phytoene desaturase gene (AcPDS). Comparing to the previous method of paired‐sgRNA cloning, our strategy only requires the synthesis of two gRNA‐containing primers which largely reduces the cost. We further compared efficiencies of paired‐sgRNA/Cas9 vectors containing different sgRNA expression devices, including both the polycistronic tRNA‐sgRNA cassette (PTG) and the traditional CRISPR expression cassette. We found the mutagenesis frequency of the PTG/Cas9 system was 10‐fold higher than that of the CRISPR/Cas9 system, coinciding with the relative expressions of sgRNAs in two different expression cassettes. In particular, we identified large chromosomal fragment deletions induced by the paired‐sgRNAs of the PTG/Cas9 system. Finally, as expected, we found both systems can successfully induce the albino phenotype of kiwifruit plantlets regenerated from the G418‐resistance callus lines. We conclude that the PTG/Cas9 system is a more powerful system than the traditional CRISPR/Cas9 system for kiwifruit genome editing, which provides valuable clues for optimizing CRISPR/Cas9 editing system in other plants. 相似文献
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The CRISPR/Cas9 system has been proven as a revolutionary genome engineering tool. In most cases, single guide RNA (sgRNA) targeting sites have been designed as GN19NGG or GGN18NGG, because of restriction of the initiation nucleotide for RNA Pol III promoters. Here, we demonstrate that the U6 promoter from a lepidopteran model insect, Bombyx mori, effectively expressed the sgRNA initiated with any nucleotide bases (adenine, thymine, guanine or cytosine), which further expands the CRISPR targeting space. A detailed expansion index in the genome was analysed when N20NGG was set as the CRISPR targeting site instead of GN19NGG, and revealed a significant increase of suitable targets, with the highest increase occurring on the Z sex chromosome. Transfection of different types of N20NGG sgRNAs targeting the enhanced green fluorescent protein (EGFP) combined with Cas9, significantly reduced EGFP expression in the BmN cells. An endogenous gene, BmBLOS2, was also disrupted by using various types of N20NGG sgRNAs, and the cleavage efficiency of N20NGG sgRNAs with different initial nucleotides and GC contents was evaluated in vitro. Furthermore, transgenic silkworms expressing Cas9 and sgRNAs targeting the BmBLOS2 gene were generated with many types of mutagenesis. The typical transparent skin phenotype in knock-out silkworms was stable and inheritable, suggesting that N20NGG sgRNAs function sufficiently in vivo. Our findings represent a renewal of CRISPR/Cas9 target design and will greatly facilitate insect functional genetics research. 相似文献
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从喂养方式、喂养过程、营养成分、护理重点等多方面综述新生儿短肠综合征肠内营养的研究进展,并结合患儿的实际病情以及实验室检查结果等指标,提出对患儿进行持续性的肠内营养支持的具体做法:(1)在现实情况允许的条件下,保证用母乳喂养患儿,无法提供母乳的情况下合理配比奶粉,并根据实际需要添加一些纤维和脂类的补充剂,保障患儿健康发育;(2)在给予肠内营养的过程中全程无菌化处理,调节适宜的温度,合理选择药物;(3)应用大规模对照试验方式,通过大数据对比总结出持续肠内营养对短肠综合征患儿的影响,为儿科护理工作提供科学依据。 相似文献
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CRISPcut: A novel tool for designing optimal sgRNAs for CRISPR/Cas9 based experiments in human cells
The ability to direct the CRISPR/Cas9 nuclease to a unique target site within a genome would have broad use in targeted genome engineering. However, CRISPR RNA is reported to bind to other genomic locations that differ from the intended target site by a few nucleotides, demonstrating significant off-target activity. We have developed the CRISPcut tool that screens the off-targets using various parameters and predicts the ideal genomic target for –guide RNAs in human cell lines. sgRNAs for four different types of Cas9 nucleases can be designed with an option for the user to work with different PAM sequences. Direct experimental measurement of genome-wide DNA accessibility is incorporated that effectively restricts the prediction of CRISPR targets to open chromatin. An option to predict target sites for paired CRISPR nickases is also provided. The tool has been validated using a dataset of experimentally used sgRNA and their identified off-targets.URL: http://web.iitd.ac.in/crispcut 相似文献