CRISPR/Cas9在放线菌合成生物学研究中的应用和发展

放线菌是活性天然产物和抗生素药物的重要来源。利用合成生物学高效地开发其中丰富的天然产物资源,将为加速新药开发奠定坚实的基础。CRISPR/Cas9作为一种多功能基因编辑系统,因其便捷高效而被广泛应用于真核生物的遗传操作。但在原核生物尤其是放线菌中的应用仍处于起步阶段,机遇和挑战并存。本综述总结了目前CRISPR/Cas9系统在放线菌基因编辑和调控,以及活性天然产物的产量提升、生物合成机制解析和资源开发等方面的研究进展。同时,也对该系统在应用中面临的包括重组修复效率低,以及靶向切割效率不足等关键挑战进行了分析,并提出了相应的优化解决方法。随着CRISPR/Cas9在放线菌应用中的不断完善和发展,将极大地推动放线菌的合成生物学研究,促进其中天然产物资源的有效挖掘和应用开发。     

CRISPR/Cas9 and Genome Editing in Drosophila

Recent advances in our ability to design DNA binding factors with specificity for desired sequences have resulted in a revolution in genetic engineering, enabling directed changes to the genome to be made relatively easily. Traditional techniques for generating genetic mutations in most organisms have relied on selection from large pools of randomly induced mutations for those of particular interest, or time-consuming gene targeting by homologous recombination. Drosophila melanogaster has always been at the forefront of genetic analysis, and application of these new genome editing techniques to this organism will revolutionise our approach to performing analysis of gene function in the future. We discuss the recent techniques that apply the CRISPR/Cas9 system to Drosophila, highlight potential uses for this technology and speculate upon the future of genome engineering in this model organism.     

新一代基因组编辑系统CRISPR/Cpf1

CRISPR/Cas系统几乎存在于所有的细菌和古菌中,是用来抵御外来病毒和噬菌体入侵的获得性免疫防御机制。2012年起CRISPR/Cas9被改造为基因编辑工具,并衍生出一系列高效、便捷的基因编辑工具,迅速在基础理论、基因诊断和临床治疗等研究领域中得到广泛应用。然而,CRISPR/Cas9也存在细胞毒性、脱靶效应和基因插入困难等一些亟待解决的问题,在一定程度上限制了CRISPR/Cas9的应用。Cpf1是2015年报道的一种新型CRISPR效应蛋白,具有许多与Cas9不同的特性,有利于克服CRISPR/Cas9应用中的一些限制。本文综述了近两年来对CRISPR/Cpf1的研究进展和应用,并对其应用前景和发展方向进行了展望。     

Defining endogenous barcoding sites for CRISPR/Cas9-based cell lineage tracing in zebrafish

There is a growing interest in developing experimental methods for tracking the developmental cell lineages of a complex organism.The recently developed CRISPR/Cas9-based barcoding method is,although highly promising,difficult to scale up because it relies on exogenous barcoding sequences that are engineered into the genome.In this study,we characterized 78 high-quality endogenous sites in the zebrafish genome that can be used as CRISPR/Cas9-based barcoding sites.The 78 sites are all highly expressed in most of the cell types according to single-cell RNA sequencing(scRNA-seq)data.Hence,the barcoding information of the 78 endogenous sites is recovered by the available scRNA-seq platforms,enabling simultaneous characterization of cell type and cell lineage information.     

Organization of functional domains in the docking protein p130Cas

The docking protein p130Cas becomes phosphorylated upon cell adhesion to extracellular matrix proteins, and is thought to play an essential role in cell transformation. Cas transmits signals through interactions with the Src-homology 3 (SH3) and Src-homology 2 domains of FAK or v-Crk signaling molecules, or with 14-3-3 protein, as well as phosphatases PTP1B and PTP-PEST. The large (130kDa), multi-domain Cas molecule contains an SH3 domain, a Src-binding domain, a serine-rich protein interaction region, and a C-terminal region that participates in protein interactions implicated in antiestrogen resistance in breast cancer. In this study, as part of a long-term goal to examine the protein interactions of Cas by X-ray crystallography and nuclear magnetic resonance spectroscopy, molecular constructs were designed to express two adjacent domains, the serine-rich domain and the Src-binding domain, that each participate in intermolecular contacts dependent on protein phosphorylation. The protein products are soluble, homogeneous, monodisperse, and highly suitable for structural studies to define the role of Cas in integrin-mediated cell signaling.     

CRISPR/Cas9介导的二穗短柄草bdfls2敲除突变体的获得

FLS2是一类在植物中保守存在的可识别细菌鞭毛蛋白并激活位于植物先天免疫反应第一层面的重要的植物模式识别受体(pattern recognition receptors,PRRs).为了进一步研究草坪草植物的先天免疫,本研究以冷季型草坪草模式植物二穗短柄草(Brachypodium distachyon)为材料,利用C...     

An Archaeal Immune System Can Detect Multiple Protospacer Adjacent Motifs (PAMs) to Target Invader DNA

The clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated (Cas) system provides adaptive and heritable immunity against foreign genetic elements in most archaea and many bacteria. Although this system is widespread and diverse with many subtypes, only a few species have been investigated to elucidate the precise mechanisms for the defense of viruses or plasmids. Approximately 90% of all sequenced archaea encode CRISPR/Cas systems, but their molecular details have so far only been examined in three archaeal species: Sulfolobus solfataricus, Sulfolobus islandicus, and Pyrococcus furiosus. Here, we analyzed the CRISPR/Cas system of Haloferax volcanii using a plasmid-based invader assay. Haloferax encodes a type I-B CRISPR/Cas system with eight Cas proteins and three CRISPR loci for which the identity of protospacer adjacent motifs (PAMs) was unknown until now. We identified six different PAM sequences that are required upstream of the protospacer to permit target DNA recognition. This is only the second archaeon for which PAM sequences have been determined, and the first CRISPR group with such a high number of PAM sequences. Cells could survive the plasmid challenge if their CRISPR/Cas system was altered or defective, e.g. by deletion of the cas gene cassette. Experimental PAM data were supplemented with bioinformatics data on Haloferax and Haloquadratum.     

A palmitoyltransferase Approximated gene Bm-app regulates wing development in Bombyx mori

The silkworm Bombyx mori is an important lepidopteran model insect in which many kinds of natural mutants have been identified.However,molecular mechanisms of most of these mutants remain to be explored.Here we report the identification of a gene Bm-app is responsible for the silkworm minute wing(mw)mutation which exhibits exceedingly small wings during pupal and adult stages.Compared with the wild type silkworm,relative messenger RNA expression of Bm-app is significantly decreased in the ul 1 mutant strain which shows mw phenotype.A 10 bp insertion in the putative promoter region of the Bm-app gene in mw mutant strain was identified and the dual luciferase assay revealed that this insertion decreased Bm-app promoter activity.Furthermore,clustered regularly interspaced short palindromic repeats/RNA-guided Cas9 nucleases-mediated depletion of the Bm-app induced similar wing defects which appeared in the mw mutant,demonstrating that Bm-app controls wing development in B.mori.Bm-app encodes a palmitoyltransferase and is responsible for the palmitoylation of selected cytoplasmic proteins,indicating that it is required for cell mitosis and growth during wing development.We also discuss the possibility that Bm-app regulates wing development through the Hippo signaling pathway in B.mori.