Cre/lox位点特异性重组系统在高等真核生物中的研究进展

来自于P1噬菌体的Cre/lox系统通过位点特异性重组可以迅速而有效地实现各种生理环境下的基因定点插入、删除、替换和倒位等操作。Cre/lox系统作为目前基因打靶技术的核心工具,已被广泛应用于拟南芥、水稻、小鼠、果蝇、斑马鱼等高等真核模式生物。文章较为全面地介绍了Cre/lox系统的基本概况及其在高等真核生物中的应用,讨论了Cre/lox系统在研究中存在的主要问题和今后的发展方向,为利用该系统在不同高等生物中进行基因操作提供有用的参考。     

Cre/lox位点特异性重组系统在高等真核生物中的研究进展

来自于P1噬菌体的Cre/lox系统通过位点特异性重组可以迅速而有效地实现各种生理环境下的基因定点插入、删除、替换和倒位等操作。Cre/lox系统作为目前基因打靶技术的核心工具, 已被广泛应用于拟南芥、水稻、小鼠、果蝇、斑马鱼等高等真核模式生物。文章较为全面地介绍了Cre/lox系统的基本概况及其在高等真核生物中的应用, 讨论了Cre/lox系统在研究中存在的主要问题和今后的发展方向, 为利用该系统在不同高等生物中进行基因操作提供有用的参考。     

High-frequency linkage of co-expressing T-DNA in transgenic Arabidopsis thaliana transformed by vacuum-infiltration of Agrobacterium tumefaciens

The efficiency of co-expression and linkage of distinct T-DNAs present in separate Agrobacterium tumefaciens was analysed in Arabidopsis thaliana transformed by the vacuum infiltration method. Co-expression was monitored by the synthesis of three bacterial proteins involved in the production of polyhydroxybutyrate (PHB) in the plastids. Out of 80 kanamycin- resistant transgenic plants analysed, 13 plants were co-transformed with the two distinct T-DNAs and produced PHB. Of those, 7 lines had a kanamycin-resistance segregation ratio consistent with the presence of a single functional insert. Genetic linkage between the distinct T-DNAs was demonstrated for all 13 PHB-producing lines, while physical linkage between the distinct T-DNAs was shown for 12 out of 13 lines. T-DNAs were frequently linked in an inverted orientation about the left borders. Transformation of A. thaliana by the co-infiltration of two A. tumefaciens containing distinct T-DNAs is, thus, an efficient approach for the integration and expression of several transgenes at a single locus. This approach will facilitate the creation and study of novel metabolic pathways requiring the expression of numerous transgenes. Received: 7 May 1999 / Accepted: 28 July 1999     

去除选择标记基因的Cre/lox重组系统在植物中的应用

获得无选择标记基因的转基因植物越来越受到研究者的重视。目前,应用得较广泛的去除选择标记基因的方法有共转化法和位点特异性重组法,其中位点特异性重组系统中Cre/lox重组系统研究最多。以下介绍了Cre/lox位点特异性重组系统的原理、特点及其近几年在植物中的应用,针对本实验室在这一领域的研究情况,重点阐述了Cre/lox系统的应用前景。随着植物反应器研究领域的不断壮大,去除筛选标记基因是植物反应器研究的必然趋势。     

Positive-negative selection and T-DNA stability in Arabidopsis transformation

We have analysed the application of positive-negative selection for the selection of homologous recombination interactions between the chromosome and a T-DNA molecule after transformation of plant cells. Two different genomic loci in a cell suspension of Arabidopsis thaliana were chosen to study gene targeting events. One was the chalcone synthase (CHS) gene present as a single copy and the second an hemizygous chromosomally inserted T-DNA containing the hpt gene, conferring resistance to hygromycin, flanked by CHS sequences. The target lines were transformed with replacement-type T-DNA vectors which contained a positive selectable marker flanked by the regions of the CHS gene and a negative selectable marker to counter-select random insertions. As negative marker we used the Escherichia coli codA gene encoding cytosine deaminase, conferring upon the cells sensitivity to 5-flourocytosine (5-FC). Doubly selected transformants represent 1–4% of the primary transformed cells. Targeting events were not found at the chalcone synthase locus nor at the artificial hpt locus in a total of 4379 doubly selected calli, corresponding to at least 109475 individual primary transformants. We show by PCR and Southern analysis that the 5-FC resistance in the majority of these cells is associated with substantial deletions of the T-DNA molecule from the right-border end.     

The T-DNA integration pattern in Arabidopsis transformants is highly determined by the transformed target cell

Transgenic loci obtained after Agrobacterium tumefaciens -mediated transformation can be simple, but fairly often they contain multiple T-DNA copies integrated into the plant genome. To understand the origin of complex T-DNA loci, floral-dip and root transformation experiments were carried out in Arabidopsis thaliana with mixtures of A. tumefaciens strains, each harboring one or two different T-DNA vectors. Upon floral-dip transformation, 6–30% of the transformants were co-transformed by multiple T-DNAs originating from different bacteria and 20–36% by different T-DNAs from one strain. However, these co-transformation frequencies were too low to explain the presence of on average 4–6 T-DNA copies in these transformants, suggesting that, upon floral-dip transformation, T-DNA replication frequently occurs before or during integration after the transfer of single T-DNA copies. Upon root transformation, the co-transformation frequencies of T-DNAs originating from different bacteria were similar or slightly higher (between 10 and 60%) than those obtained after floral-dip transformation, whereas the co-transformation frequencies of different T-DNAs from one strain were comparable (24–31%). Root transformants generally harbor only one to three T-DNA copies, and thus co-transformation of different T-DNAs can explain the T-DNA copy number in many transformants, but T-DNA replication is postulated to occur in most multicopy root transformants. In conclusion, the comparable co-transformation frequencies and differences in complexity of the T-DNA loci after floral-dip and root transformations indicate that the T-DNA copy number is highly determined by the transformation-competent target cells.     

Multiple pathways for Cre/lox-mediated recombination in plastids

Plastid transformation technology involves the insertion by homologous recombination and subsequent amplification of plastid transgenes to approximately 10 000 genome copies per leaf cell. Selection of transformed genomes is achieved using a selectable antibiotic resistance marker that has no subsequent role in the transformed line. We report here a feasibility study in the model plant tobacco, to test the heterologous Cre/lox recombination system for antibiotic marker gene removal from plastids. To study its efficiency, a green fluorescent protein reporter gene activation assay was utilized that allowed visual observation of marker excision after delivery of Cre to plastids. Using a combination of in vivo fluorescence activation and molecular assays, we show that transgene excision occurs completely from all plastid genomes early in plant development. Selectable marker-free transplastomic plants are obtained in the first seed generation, indicating a potential application of the Cre/lox system in plastid transformation technology. In addition to the predicted transgene excision event, two alternative pathways of Cre-mediated recombination were also observed. In one alternative pathway, the presence of Cre in plastids stimulated homologous recombination between a 117 bp transgene expression element and its cognate sequence in the plastid genome. The other alternative pathway uncovered a plastid genome 'hot spot' of recombination composed of multiple direct repeats of a 5 bp sequence motif, which recombined with lox independent of sequence homology. Both recombination pathways result in plastid genome deletions. However, the resultant plastid mutations are silent, and their study provides the first insights into tRNA accumulation and trans-splicing events in higher plant plastids.     

Cre/ lox site-specific recombination controls the excision of a transgene from the rice genome

The Cre/lox site-specific recombination controls the excision of a target DNA segment by recombination between two lox sites flanking it, mediated by the Cre recombinase. We have studied the functional expression of the Cre/lox system to excise a transgene from the rice genome. We developed transgenic plants carrying the target gene, hygromycin phosphotransferase (hpt) flanked by two lox sites and transgenic plants harboring the Cre gene. Each lox plant was crossed with each Cre plant reciprocally. In the Cre/lox hybrid plants, the Cre recombinase mediates recombination between two lox sites, resulting in excision of the hpt gene. The recombination event could be detected because it places the CaMV 35S promoter of the hpt gene adjacent to a promoterless gusA gene; as a result the gusA gene is activated and its expression could be visualized. In 73 Cre/lox hybrid plants from various crosses of T0 transgenic plants, 19 expressed GUS, and in 132 Cre/lox hybrid plants from crosses of T2 transgenic plants, 77 showed GUS expression. Molecular data proved the excision event occurred in all the GUS⁺ plants. Recombination occurred with high efficiency at the early germinal stage, or randomly during somatic development stages. Received. 2 April 2001 / Accepted: 29 June 2001     

Cre/lox位点特异重组系统在植物基因工程中的应用

Cre/lox位点特异重组系统是植物基因工程中的重要工具,利用其可以在转基因植物中对目的基因实现精确删除和定点整合。概述Cre/lox系统的基本结构及作用方式,并以基因删除和定点整合为重点,详细介绍该系统在这两方面的应用。     

Cre/lox系统介导的位点特异性重组技术及其应用

Ｃｒｅ／ｌｏｘ系统是源于Ｐ１噬菌体的一个ＤＮＡ重组体系,它能导致在特定的ＤＮＡ序列（ｌｏｘＰ位点）处发生定点重组。该系统以将外源基因定点整合到染色体上或将特定ＤＮＡ片段删除;这种定位重组系统在遗传操作中发挥了重要的作用。     

利用Cre/lox重组系统获得无选择标记的SKTI抗虫转基因烟草

将置于两个同向lox位点之间的Bar基因表达盒与大豆胰蛋白酶抑制剂SKTI基因表达盒融合后获得相应植物表达载体,转化烟草Wisconsin 38后获得对棉铃虫具有明显抗性的SKTI转基因植株。SKTI转基因植株通过叶盘二次转化法导入Cre基因,对再生植株叶盘进行Basta的抗性检测,检测Bar基因的删除情况。结果表明:绝大多数再生植株对应叶盘在含8 mg/L PPT的筛选培养基上无法再生,Bar基因被删除的效率在38%~100%之间。对Bar基因删除区域进行PCR及克隆测序后发现Bar基因表达盒被精确删除。对Bar基因删除植株开花自交获得的分离后代进行NPTⅡ抗性检测,5株NPTⅡ敏感植株分子检测显示均只含有SKTI基因而无Cre基因存在,为无选择标记基因的SKTI转基因植株。     

Cre/lox介导剔除转双价抗虫sck+cryIAc基因籼稻恢复系明恢86材料的选择标记基因

Cre/lox系统通过其Cre重组酶对lox序列进行切割和重新连接,介导lox序列发生特异性重组.利用重组报告基因系统Pactin-lox-hpt-lox-gusA,对Cre/lox系统在水稻(Oryzasativa L.)中介导转基因的剔除进行了研究.Pactin-lox-hpt-lox-gusA系统中选择标记hpt基因侧翼含两个同向lox位点,并位于水稻actinl启动子和gusA基因之间.当hpt在Cre酶作用下被剔除时,actinl启动子可以和gusA基因融合在一起从而驱动GUS表达.通过农杆菌介导获得了分别转cre基因、Pactin-lox-hpt-lox-gusA结构和双价抗虫基因lox-hpt-lox-sck-cryIAc结构的水稻.利用有性杂交方法将cre基因导入到转化lox结构的植株中.在4个转Pactin-lox-hpt-lox-gusA T0植株×转cre T0植株所配组合的30个杂交F1植株中,12个植株表达GUS活性,9个表现潮霉素敏感,表明hpt基因被剔除.研究进一步通过Cre/lox介导剔除转双价抗虫sck cryIAc基因籼稻恢复系明恢86材料基因组中的选择标记hpt基因.在9个转lox-hpt-lox-sck-cryIAcT2代纯合植株×转creT2代纯合植株所配组合的77个杂交F1植株中,56个植株表现潮霉素敏感.分子分析证实在这些对潮霉素敏感的植株中hpt基因已经被剔除.     

Impaired expression of importin/karyopherin beta1 leads to post-implantation lethality

Importin beta1 (Impbeta)/karyopherin beta1 (Kpnb1) mediates the nuclear import of a large variety of substrates. This study aimed to investigate the requirement for the Kpnb1 gene in mouse development, using a gene trap line, B6-CB-Ayu8108(GtgeoIMEG) (Ayu8108(geo)), in which the trap vector was inserted into the promoter region of the Kpnb1 gene, but in reverse orientation of the Kpnb1 gene. Ayu8108(geo/geo) homozygous embryos could develop to the blastocyst stage, but died before embryonic day 5.5, and expression of the Kpnb1 gene in homozygous blastocysts was undetectable. We also replaced the betageo gene with Impbeta cDNA through Cre-mediated recombination to rescue Impbeta expression. Homozygous mice for the rescued allele Ayu8108(Impbeta/Impbeta) were born and developed normally. These results demonstrated that the cause of post-implantation lethality of Ayu8108(geo/geo) homozygous embryos was impaired expression of the Kpnb1 gene, indicating indispensable roles of Impbeta1 in early development of mice.     

利用Cre/lox重组系统建立反义基因工程雄性不育恢复系

利用Cre/lox重组系统中的Cre重组酶能特异性识别并介导两个同向lox位点之间DNA序列发生重组删除的特点,将TA29驱动下的反义豌豆卷须肌动蛋白基因置于两个同向lox位点之间并与Bar基因连锁,转化烟草Wisconsin 38后获得抗除草剂Basta的转基因植株.将Cre基因导入烟草Wisconsin 38建立雄性不育工程恢复系.反义Actin转基因植株与Cre转基因植株杂交获得F1,通过Cre重组酶将F1中的反义肌动蛋白基因表达盒删除实现育性的恢复.结果显示:来自豌豆卷须的肌动蛋白基因在Wisconsin 38烟草绒毡层中反义表达但未能导致明显的雄性不育,转基因植株在花器官形态、花粉形状、活力、结实、结籽等方面与野生型植株间无明显的差异.而获得的烟草Cre转基因工程恢复系除少量植株出现叶片褪绿、结果少等异常外,绝大多数植株形态结构及开花结果习性与野生型一致;其中3个Cre转基因工程恢复系与Actin反义肌动蛋白转基因植株TAA-3杂交后,杂交后代中的绝大多数反义肌动蛋白基因表达盒均被精确删除,表明将Cre/lox重组系统用于建立基于反义基因工程雄性不育的恢复系是可行的.     

动物基因组定点整合转基因技术研究进展

传统转基因技术,如显微注射、转座子、慢病毒转染等将目的基因插入基因组内的整合方式是随机的,这些随机整合对后期转基因动物品系组建和育种带来诸多不利,因此有研究人员提出了定点整合转基因技术。目前该技术的定点整合效率非常低,主要取决于两个方面：一是靶位点产生DNA双链断裂(double-strand break, DSB)的效率;二是断裂后的靶位点与携带同源臂及外源基因的供体质粒发生同源重组的效率,其中同源重组修复(homologous recombination repair, HDR)是基因组定点整合最为依赖的修复机制。靶位点产生DSB后,机体的DNA修复既可能发生HDR,也可能发生非同源末端连接(nonhomologous end joining, NHEJ),并且两者之间存在竞争关系,因此激活HDR或抑制NEHJ都可提高定点整合转基因的效率。本文结合影响定点整合的因素,对提高定点整合效率最新探索方面进行了综述。     

T-DNA integration patterns in transgenic tobacco plants

To investigate the various integration patterns of T-DNA generated by infection withAgrobacterium, we developed a vector (pRCV2) for the effective T-DNA tagging and applied it to tobacco (Nicotiana tabacum cv. Havana SR1). pRCV2 was constructed for isolating not only intact T-DNA inserts containing both side borders of T-DNA, but also for partial T-DNA inserts that comprise only the right or left side. We also designed PCR confirmation primer sets that can amplify in several important regions within pRCV2 to detect various unpredictable integration patterns. These can also be used for the direct inverse PCR. Leaf disks of tobacco were transformed withAgrobacterium tumefaciens LBA4404 harboring pRCV2. PCR and Southern analysis revealed the expected 584 bp product for thehpt gene as well as one of 600 bp for thegus gene in all transformants; one or two copies were identified for these integrated genes. Flanking plant genomic DNA sequences from the transgenic tobacco were obtained via plasmid rescue and then sequenced. Abnormal integration patterns in the tobacco genome were found in many transgenic lines. Of the 17 lines examined, 11 contained intact vector backbone; a somewhat larger deletion of the left T-DNA portion was encountered in 4 lines. Because nicking sites at the right border showed irregular patterns when the T-DNA was integrated, it was difficult to predict the junction regions between the vector and the flanking plant DNA.     

Ku80 plays a role in non-homologous recombination but is not required for T-DNA integration in Arabidopsis

Chromosomal breaks are repaired by homologous recombination (HR) or non-homologous end joining (NHEJ) mechanisms. The Ku70/Ku80 heterodimer binds DNA ends and plays roles in NHEJ and telomere maintenance in organisms ranging from yeast to humans. We have previously identified a ku80 mutant of the model plant Arabidopsis thaliana and shown the role of Ku80 in telomere homeostasis in plant cells. We show here that this mutant is hypersensitive to the DNA-damaging agent methyl methane sulphonate and has a reduced capacity to carry out NHEJ recombination. To understand the interplay between HR and NHEJ in plants, we measured HR in the absence of Ku80. We find that the frequency of intrachromosomal HR is not affected by the absence of Ku80. Previous work has clearly implicated the Ku heterodimer in Agrobacterium-mediated T-DNA transformation of yeast. Surprisingly, ku80 mutant plants show no defect in the efficiency of T-DNA transformation of plants with Agrobacterium, showing that an alternative pathway must exist in plants.