piggyBac转座系统在哺乳动物及其细胞中的研究进展

piggyBac（PB）转座系统来源于昆虫鳞翅目,属于真核生物的第二类转座系统,主要采取＂剪切粘帖＂机制发生转座。PB系统转座效率高,宿主范围广,广泛应用于昆虫等低等生物的基因转移及突变筛选。近年来,研究发现PB系统在哺乳动物及其细胞中也具有高效的转座活性,已在动物基因组功能研究、基因转移及诱导多能干细胞等领域得到了广泛应用。本文就PB系统近年来在哺乳动物及其细胞中的研究进展、应用前景及存在问题进行了综述。     

Ac／Ds转座系统在水稻转化群体中的转座活性及转座子插入位点旁侧序列的分析

利用本实验室构建的转Ac(Ac TPase)及Ds(Dissociation)的水稻(Oryza sativa L.)转化群体,配置了Ae×Ds的杂交组合354个。检测了转基因植株的T-DNA插入位点右侧旁邻序列,研究了Ac/Ds转座系统在水稻转化群体中的转座活性。结果表明,有些转化植株T-DNA插入位点相同或相距很近,插入位点互不相同的占65.4％。检测到T-DNA可插入到编码蛋白的基因中。在Ac×Ds的F2代中,Ds因子的转座频率为22.7％。对Ac×Ds杂交子代中Ds因子旁侧序列的分析,进一步表明了Ds因子在水稻基因组中的转座活性,除了从原插入位点解离并转座到新的位点之外,还有复制——转座和小完全切离等现象。获得的旁侧序列中,有些序列与GenBank中的数据没有同源性,目前有2个DNA片段在GenBank登录。探讨了构建转座子水稻突变体库进行水稻功能基因组学研究的策略。     

“睡美人”转座系统研究进展

“睡美人 (SleepingBeauty ,SB)”转座系统是Tc1/mariner转座因子超家族中的一员 ,是目前唯一取材于脊椎动物的具有活性的转座系统 .对近年来有关“睡美人”的研究进展作一个综述 ,并针对存在的问题提出相应的解决方案 .     

大肠杆菌转座因子在遗传分析中的应用

转座因子是一种不能独立完成自我复制,但是却能在细胞内,由一种复制子移动到另一种复制子的遗传因子。在原核生物中常见的转座因子有:插入顺序、转座子和噬菌体μ。     

Ac/Ds转座系统在水稻转化群体中的转座活性及转座子插入位点旁侧序列的分析

利用本实验室构建的转Ac(AcTPase)及Ds(Dissociation)的水稻(Oryza sativa L.)转化群体,配置了Ac×Ds的杂交组合354个.检测了转基因植株的T-DNA插入位点右侧旁邻序列,研究了Ac/Ds转座系统在水稻转化群体中的转座活性.结果表明,有些转化植株T-DNA插入位点相同或相距很近,插入位点互不相同的占65.4%.检测到T-DNA可插入到编码蛋白的基因中.在Ac×Ds的F2代中,Ds因子的转座频率为22.7%.对Ac×Ds杂交子代中Ds因子旁侧序列的分析,进一步表明了Ds因子在水稻基因组中的转座活性,除了从原插入位点解离并转座到新的位点之外,还有复制--转座和不完全切离等现象.获得的旁侧序列中,有些序列与GenBank中的数据没有同源性,目前有2个DNA片段在GenBank登录.探讨了构建转座子水稻突变体库进行水稻功能基因组学研究的策略.     

CRISPR相关转座元件的研究及应用进展

CRISPR-Cas的基因编辑能力引发了人们对该系统的研究热潮。除了实现基因的敲除和插入,CRISPR-Cas系统还可以被应用于基因簇重组、单碱基编辑和基因转录调控,推动了生物工程领域的发展。然而,有限的同源重组效率使CRISPR-Cas系统的应用受到了一定的限制。与CRISPR-Cas系统相比,移动遗传元件(mobile genetic elements,MGE)在转座酶的调控下,不需要依赖同源重组即可将指定DNA片段定向插入到细胞染色体中。近几年,人们发现了具有转座机制的CRISPR相关的转座元件,它可以介导DNA靶向整合,同时其出色的重编程能力为该领域的研究带来了新的发展。本文主要介绍近年来CRISPR-Cas系统相关转座元件的研究方向和应用进展,以及人工融合的dCas9-transposase系统的应用策略。文中还提出了CRISPR相关转座元件未来的应用前景和潜在挑战,为基因编辑工具的发展方向提供了参考意见。     

转座因子IS10一个新的插入靶位点的序列分析

转座因子在生物体内广泛存在,它在研究基因的重组机理以及生物染色体的进化方面有着重要意义。IS10是细菌中的一种转座因子,它既能单独作为插入序列,也能作为Tn10的一部分进行转座。利用含sacB基因的质粒pXT3sacB,获得了由转座因子IS10插入而导致sacB基因失活的突变体。通过对插入突变体质粒DNA的序列测定（GenBank登记号为AY580883．1）,结果表明IS10两端分别包括22bp倒置重复区CTGAGAGATCCCCTCATAATTT和AAATCATTAGGGGATTCATCAG,这与前人的报道一致;而IS10两端的插入靶位点序列为TGCTTGGTT,该9bp靶位点序列与前人报道的序列NGCTNAGCN不同。根据文献资料,本研究中的靶位点序列是首次报道。此外,通过Southern blot杂交分析,插入sacB基因中的IS10来源于宿主大肠杆菌DH5α染色体DNA,并且IS10在DH5α染色体中为两个拷贝。此外,本研究利用sacB基因捕获到转座因子IS10,该方法为研究其他插入序列提供了一个有益的体系。     

利用转座系统在葡糖杆菌中表达山梨糖脱氢酶

目的：利用Mini—Tn5转座系统在葡糖杆菌中表达山梨糖脱氢酶（SDH）。方法：分离得到从山梨醇产糖的快生型小菌Y25K2,利用PCR方法扩增并分析快生型小菌的16SrDNA;构建pUT-mini—Tn5-Tet转座载体,将SDH基因（sdh）插入该载体,利用接合转移,将sdh整合至快生型小菌Y25K2的染色体,通过Western印迹检测SDH的表达。结果：16SrDNA鉴定结果初步表明快生型小菌为葡糖杆菌;构建得到pUT-mini—Tn5-Tet-sdh,将sdh整合至快生型菌Y25K2基因组,并检测到其在快生型小菌Y25K2中的表达。结论：利用Mini—Tn5转座系统在葡糖杆菌中表达了山梨糖脱氢酶。     

piggyBac转座子及其在转基因昆虫中的应用

piggyBac是一种从粉纹夜蛾Trichoplusiani.中分离到的、具有TTAA插入位点特异性的DNA转座子。piggyBac可在昆虫基因组中准确切离,转化频率较高,并且不受宿主因子的限制,是目前转基因昆虫研究中应用最广的转座子载体。近年来的研究发现,piggyBac类转座子广泛分布于昆虫和其他生物基因组中。文章从piggyBac的结构、转座特性、在转基因昆虫中的应用以及piggyBac类转座子的分布等几个方面综述了piggyBac的研究进展。     

piggyBac转座子AgoPLE1.1在黑腹果蝇种系转化中的应用

[目的]通过检测黑腹果蝇 DDrosophiila melanogaster中piggyBac(PB)转座子AgoPLE1.1的转化活性,明确AgoPLE1.1开发为昆虫转基因载体的潜力.[方法]构建AgoPLE1.1转座酶辅助质粒pAgoHsp和带有红色荧光标记的供体质粒pXLAgo-PUbDsRed,辅助质粒和供体...     

绵羊高效转基因通用型piggyBac转座子载体构建及功能验证

piggyBac (PB)是一种能在多种动物细胞中进行转座的DNA转座子,作为一种转基因工具已被广泛应用于各种哺乳动物转基因研究中。针对不同物种对PB转座子进行改造,是提升其通用性的必要手段。为构建基于绵羊细胞进行转基因操作的通用型PB转座子载体,本研究对PB转座酶(PBase)基因进行绵羊密码子偏好性优化并将其克隆到pBNW-TP1载体中,成功构建了PB转座子载体pBNW-TP2。将pBNW-TP2转染到绵羊成纤维细胞和乳腺上皮细胞中,利用G418筛选获取稳定转染细胞株;利用Tail-PCR检测稳定转染细胞株的PB转座位点,对细胞阳性克隆进行亚甲蓝染色;利用非配对t检验确认其转座效率。结果表明,pBNW-TP2成功介导了绵羊成纤维细胞和乳腺上皮细胞转基因阳性细胞株的生产;PB转座位点检测表明pBNW-TP2能特异性整合到绵羊基因组TTAA位点,其整合位点倾向于功能基因间;亚甲蓝染色统计分析结果提示pBNW-TP2介导的转基因效率显著提升。本研究成功构建了绵羊通用型PB转座子载体pBNW-TP2,并在绵羊体细胞中对其特性进行验证和分析,为PB转座子在绵羊体细胞中开展转基因相关研究提供了科学依据。     

Multigene expression in stable CHO cell pools generated with the piggyBac transposon system

Heterogenous populations of recombinant cells (cell pools) stably expressing 1–4 transgenes were generated from Chinese hamster overy (CHO) cells with the piggyBac (PB) transposon system. The cell pools produced different combinations of three model proteins—enhanced green fluorescent protein (EGFP), secreted alkaline phosphatase (SEAP), and a monoclonal IgG1 antibody. Each transgene was present on a separate PB donor plasmid with either the same or a different selection gene. In both cases, we obtained PB‐derived cell pools with higher recombinant protein yields than from cell pools generated by conventional gene delivery. In PB‐derived cell pools generated using a single selection agent, both protein production and the number of integrated copies of each transgene declined as the number of transfected transgenes increased. However, the total number of integrated transgenes was similar regardless of the number of different transgenes transfected. For PB‐derived cell pools generated by selection of each transgene with a different selection agent, the total number of integrated transgenes increased with the number of transfected transgenes. The results suggest that the generation of cell pools producing multiple recombinant proteins is feasible and that the method is more efficient when each individual transgene is selected with a different marker. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:1308–1317, 2016     

Evolution of the Xenopus piggyBac transposon family TxpB: domesticated and untamed strategies of transposon subfamilies

A new family, termed TxpB, of DNA transposons belonging to the piggyBac superfamily was found in 3 Xenopus species (Xenopus tropicalis, Xenopus laevis, and Xenopus borealis). Two TxpB subfamilies of Kobuta and Uribo1 were found in all the 3 species, and another subfamily termed Uribo2 was found in X. tropicalis. Molecular phylogenetic analyses of their open reading frames (ORFs) revealed that TxpB transposons have been maintained for over 100 Myr. Both the Uribo1 and the Uribo2 ORFs were present as multiple copies in each genome, and some of them were framed by terminal inverted repeat sequences. In contrast, all the Kobuta ORFs were present as a single copy in each genome and exhibited high evolutionary conservation, suggesting domestication of Kobuta genes by the host. Genomic insertion polymorphisms of the Uribo1 and Uribo2 transposons (nonautonomous type) were observed in a single species of X. tropicalis, indicating recent transposition events. Transfection experiments in cell culture revealed that an expression vector construct for the intact Uribo2 ORF caused precise excision of a nonautonomous Uribo2 element from the target vector construct but that for the Kobuta ORF did not. The present results support our viewpoint that some Uribo2 members are naturally active autonomous transposons, whereas Kobuta members may be domesticated by hosts.     

Excision and transposition of piggyBac transposable element in tobacco budworm embryos

The TTAA-specific lepidopteran transposon piggyBac has already proved useful as a gene-transfer vector for efficient transformation of a wide variety of insects. Transposable element excision and transposition assays are useful indicators of an element's ability to be mobilized in vivo and, thus, potentially serve as a transforming vector. Here, we report that this transposon is capable of excision and transposition in tobacco budworm embryos with relatively low frequency.     

Dual modes of CRISPR-associated transposon homing

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Characterization of Growth and Reproduction Performance,Transgene Integration,Expression, and Transmission Patterns in Transgenic Pigs Produced by piggyBac Transposition-Mediated Gene Transfer

Previously we successfully produced a group of EGFP-expressing founder transgenic pigs by a newly developed efficient and simple pig transgenesis method based on cytoplasmic injection of piggyBac plasmids. In this study, we investigated the growth and reproduction performance and characterized the transgene insertion, transmission, and expression patterns in transgenic pigs generated by piggyBac transposition. Results showed that transgene has no injurious effect on the growth and reproduction of transgenic pigs. Multiple copies of monogenic EGFP transgene were inserted at noncoding sequences of host genome, and passed from founder transgenic pigs to their transgenic offspring in segregation or linkage manner. The EGFP transgene was ubiquitously expressed in transgenic pigs, and its expression intensity was associated with transgene copy number but not related to its promoter DNA methylation level. To the best of our knowledge, this is first study that fully described the growth and reproduction performance, transgene insertion, expression, and transmission profiles in transgenic pigs produced by piggyBac system. It not only demonstrates that piggyBac transposition-mediated gene transfer is an effective and favorable approach for pig transgenesis, but also provides scientific information for understanding the transgene insertion, expression and transmission patterns in transgenic animals produced by piggyBac transposition.     

"睡美人"转座子的研究进展

“睡美人( Sleeping Beauty, SB) ”转座系统是Tc1/mariner 转座子超家族中的一员,已经失活了一千多万年。1997年,Ivics 等根据积累的系统发生数据,利用生物信息学的方法, 对其进行分子重建, 终于唤醒了其转座活性。近年来对“睡美人”转座系统的转座效率和转座机理进行的研究,已证明SB转座子在基因筛选,转基因及基因治疗等领域具有广阔的应用前景。文章重点论述了SB转座子在结构及其优化、转座机制和应用等方面的进展,同时对其研究中出现的各种问题进行了总结并提出了一些解决方案。