Genome editing with the CRISPR‐Cas system: an art,ethics and global regulatory perspective

Over the last three decades, the development of new genome editing techniques, such as ODM, TALENs, ZFNs and the CRISPR‐Cas system, has led to significant progress in the field of plant and animal breeding. The CRISPR‐Cas system is the most versatile genome editing tool discovered in the history of molecular biology because it can be used to alter diverse genomes (e.g. genomes from both plants and animals) including human genomes with unprecedented ease, accuracy and high efficiency. The recent development and scope of CRISPR‐Cas system have raised new regulatory challenges around the world due to moral, ethical, safety and technical concerns associated with its applications in pre‐clinical and clinical research, biomedicine and agriculture. Here, we review the art, applications and potential risks of CRISPR‐Cas system in genome editing. We also highlight the patent and ethical issues of this technology along with regulatory frameworks established by various nations to regulate CRISPR‐Cas‐modified organisms/products.     

CRISPR/Cas9的应用及脱靶效应研究进展

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。     

CRISPR/Cas9高通量筛选技术与肿瘤治疗

成簇规律间隔短回文重复(clustered regularly interspaced short palindromic repeats, CRISPR),是细菌或古菌在与噬菌体长期生存进化获得的一种免疫系统. 根据Cas蛋白(CRISPR-associated protein)的不同,CRISPR系统可分为3种. 其中II型CRISPR/Cas9已被改造成为一种有效的基因编辑工具,并运用于多种物种基因的改造. 作为1种基因编辑的手段,CRISPR/Cas9技术通过诱导DNA双链断裂损伤,进一步干扰基因的表达. 与传统的基因编辑技术相比,CRISPR/Cas9技术显示出效率高、成本低和易操作等特点. 与此同时,二代测序技术的发展促进全基因组的解析. CRISPR技术结合高通量二代测序手段的使用,在肿瘤的治疗领域中已发挥出了独特的优势. 本文就近年来CRISPR/Cas9高通量筛选技术的发展,及其在肿瘤治疗过程中的应用进行综述.     

CRISPR/Cas9:基因编辑的新时代

基因编辑技术是通过核酸内切酶对基因组DNA进行定向改造的技术,可以实现对特定DNA碱基的缺失、替换等,常用的四种基因编辑工具分别是:巨型核酸酶、锌指核酸酶、转录激活因子样效应物核酸酶以及CRISPR/Cas9系统.其中CRISPR/Cas9系统作为一种新型的基因组编辑技术具有组成简单、特异性好、切割效率高的优点.该文对...     

新生儿短肠综合征的肠内营养研究进展

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。     

Applications of TALENs and CRISPR/Cas9 in Human Cells and Their Potentials for Gene Therapy

The newly developed TALENs and emerging CRISPR/Cas9 have spurred interests in the field of genome engineering because of their ease of customization and high-efficient site-specific cleavages. Although these novel technologies have been successfully used in many types of cells, it is of great importance to apply them in human-derived cells to further observe and evaluate their clinical potentials in gene therapy. Here, we review the working mechanism of TALEN and CRISPR/Cas9, their effectiveness and specificity in human cells, and current methods to enhance efficiency and reduce off-target effects. Besides, CCR5 gene was chosen as a target example to illustrate their clinical potentials. Finally, some questions are raised for future research and for researchers to consider when making a proper choice bases on different purposes.