基因组编辑脱靶研究进展

近年各种基因组编辑技术的成功研发为人类疾病的治疗与预防谱写了新的篇章,这些技术对应的基因组编辑工具主要包括锌指核酸酶(ZFNs)、转录激活子样效应因子核酸酶(TALENs)和最近发现的规律成簇间隔短回文重复(CRISPR)/Cas系统。这些工具相应的脱靶问题目前是制约基因组编辑技术介导人类疾病治疗的重要瓶颈。本文将分别从基因组编辑工具的介绍、脱靶的现状、解决优化的方案和检测方法进行总结与探讨,通过比较,进一步了解基因组编辑工具的优缺点及相关脱靶检测方法的适用性。     

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     

Comparative whole genome analysis of six diagnostic brucellaphages

Whole genome sequencing of six diagnostic brucellaphages, Tbilisi (Tb), Firenze (Fz), Weybridge (Wb), S708, Berkeley (Bk) and R/C, was followed with genomic comparisons including recently described genomes of the Tb phage from Mexico (Tb_M) and Pr phage to elucidate genomic diversity and candidate host range determinants. Comparative whole genome analysis revealed high sequence homogeneity among these brucellaphage genomes and resolved three genetic groups consistent with defined host range phenotypes. Group I was composed of Tb and Fz phages that are predominantly lytic for Brucella abortus and Brucella neotomae; Group II included Bk, R/C, and Pr phages that are lytic mainly for B. abortus, Brucella melitensis and Brucella suis; Group III was composed of Wb and S708 phages that are lytic for B. suis, B. abortus and B. neotomae. We found that the putative phage collar protein is a variable locus with features that may be contributing to the host specificities exhibited by different brucellaphage groups. The presence of several candidate host range determinants is illustrated herein for future dissection of the differential host specificity observed among these phages.     

Virulence related sequences; insights provided by comparative genomics of Streptococcus uberis of differing virulence

Background

Streptococcus uberis, a Gram-positive, catalase-negative member of the family Streptococcaceae is an important environmental pathogen responsible for a significant proportion of subclinical and clinical bovine intramammary infections. Currently, the genome of only a single reference strain (0140J) has been described. Here we present a comparative analysis of complete draft genome sequences of an additional twelve S. uberis strains.

Results

Pan and core genome analysis revealed the core genome common to all strains to be 1,550 genes in 1,509 orthologous clusters, complemented by 115-246 accessory genes present in one or more S. uberis strains but absent in the reference strain 0140J. Most of the previously predicted virulent genes were present in the core genome of all 13 strains but gene gain/loss was observed between the isolates in CDS associated with clustered regularly interspaced short palindromic repeats (CRISPRs), prophage and bacteriocin production. Experimental challenge experiments confirmed strain EF20 as non-virulent; only able to infect in a transient manner that did not result in clinical mastitis. Comparison of the genome sequence of EF20 with the validated virulent strain 0140J identified genes associated with virulence, however these did not relate clearly with clinical/non-clinical status of infection.

Conclusion

The gain/loss of mobile genetic elements such as CRISPRs and prophage are a potential driving force for evolutionary change. This first “whole-genome” comparison of strains isolated from clinical vs non-clinical intramammary infections including the type virulent vs non-virulent strains did not identify simple gene gain/loss rules that readily explain, or be confidently associated with, differences in virulence. This suggests that a more complex dynamic determines infection potential and clinical outcome not simply gene content.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1512-6) contains supplementary material, which is available to authorized users.     

CRISPR家族新成员：CRISPR-Cpf1

近年来,基因组编辑技术得到了飞速发展,该技术正在基础生物学研究、医学、生物技术等多个领域引起一场新的变革.Cpf1,作为CRISPR系统的新成员,极大地扩展了基因编辑靶位点的选择范围,同时其介导的多基因编辑具有明显的优势.另外,较短的crRNA序列也使Cpf1更容易产业化.本文将从Cpf1的结构和编辑特点、应用进展、目前面临的问题及展望等方面进行介绍和总结.