共查询到18条相似文献,搜索用时 156 毫秒
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由于关系到转基因植物的产业化前景,安全型转基因植物培育越来越受到公众的关注。在植物遗传转化体系中,绝大多数选择标记基因来源于细菌,对人类健康和环境安全存在潜在风险,因此无选择标记转基因植物培育受到科研工作者的高度重视。本文综述了安全型转基因植物的培育途径,包括共转化系统、位点特异性重组系统、转座子系统、同源重组系统、不依赖于组织培养的简易转化技术及再生相关基因利用等技术,探讨了各种途径的优缺点,以期推动安全型转基因植物培育和转基因植物产业化进程。 相似文献
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植物转基因育种的分析与研究 总被引:2,自引:0,他引:2
自1983年培育出第一株转基因植物——转基因烟草以来,转基因育种研究已取得飞速发展。应用转基因技术培育了一批抗除草剂、抗虫、抗病、抗逆和优质的转基因材料,有些已实现产业化。就近年来转基因研究在转化技术体系、转化效率和筛选鉴定方面作一概述,就热点问题,如如何培育安全型无选择标记转基因植物和提高外源基因稳定性、表达量等进行分析,并就有关问题提出建议。 相似文献
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无选择标记转基因植物的培育 总被引:10,自引:1,他引:9
植物转基因研究中通常都要使用选择标记基因来筛选转化细胞并获得转基因植株。但是当转基因植株育成后,选择标记基因就失去了存在的意义。为了消除由选择标记基因引起的安全性隐患,人们发展了一些培育无选择标记转基因植物的策略。这些策略主要包括共转化、位点特异性重组和转座子转座等。去除选择标记基因将促进公众对转基因作物的接受。评述了无选择标记转基因植物的研究进展。 相似文献
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转基因植物中标记基因的剔除 总被引:5,自引:0,他引:5
在目前的植物转化系统中,要求在关注基因或目的基因转入细胞时,同时有标记基因存在.标记基因主要是抗生素或除草剂的抗性基因.借标记基因的表达可以将转化细胞从大量的未转化细胞中筛选出来,但标记基因的继续存在,特别是在转基因食品中,是人们广泛关注的问题.培育无标记基因的转基因植株已成为植物生物工程研究中的新课题.该文介绍了剔除标记基因的两种方法:分离剔除和重组剔除,并对近年来这两种方法在培育无标记基因的转基因植物中的应用和进展作了介绍. 相似文献
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利用FLP/frt重组系统产生无选择标记的转基因烟草植株 总被引:3,自引:0,他引:3
在植物转基因植株产生过程中,对转化细胞进行抗性筛选是通用程序,转化细胞的抗性一般是抗生素抗性或除草剂抗性,将赋予转化细胞抗性的选择标记基因删除是提高转基因植物生物安全性的重要措施。来自于啤酒酵母的FLP/frt位点特异性重组系统可有效删除同向定点重组位点frt之间的基因。通过多步骤重组,建立了可在植物中广泛应用的FLP/frt位点特异性重组系统。该系统包括含有frt位点的植物表达载体pCAMBIA1300-betA-frt-als-frt和含有由热诱导启动子hsp启动的FLP重组酶基因的植物表达载体pCAMBIA1300-hsp-FLP-hpt。利用二次转化的方式将二者先后转入烟草植株,热激处理后,热诱导型启动子hsp调控的重组酶FLP基因的表达催化位于选择标记基因als两侧同向frt位点间的重组反应,有效地删除了选择标记基因als。41%的经热激处理的二次转化植株发生了选择标记基因的删除,表明该系统在获得无选择标记基因的转基因植株中有很好的应用价值。 相似文献
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无选择标记基因植物转化系统研究进展 总被引:6,自引:0,他引:6
陈颖 《中国生物工程杂志》2001,21(2):4-7
在转基因植物中,将选择标记基因去掉,将提高转基因植物的食用安全性和对环境的安全性,更易为广大消费者所接受,也有利于对同一个植物品种进行多次转基因操作。科学工作者已经在建立无选择标记基因转化系统方面作了大量尝试,获得了无标记基因的转基因植物(MFTPs:MarkerFreeTransgenicPlants)。本文将这方面的研究进展介绍给大家,以推动植物生物技术产业化进程。 相似文献
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无选择标记基因植物转化系统研究进展 总被引:7,自引:0,他引:7
在转基因植物中,将选择标记基因去掉,将提高转基因植物的食用安全性和对环境的安全性,更易为广大消费者所接受,也有利于对同一个植物品种进行多次转基因操作。科学工作者已经在建立无选择标记基因转化系统方面作了大量尝试,获得了无标记基因的转基因植物(MFTPs:Marker-Free Transgenic Plants)。本文将这方面的研究进展介绍给大家,以推动植物生物技术产业化进程。 相似文献
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在植物转基因植株产生过程中,对转化细胞进行抗性筛选是通用程序,转化细胞的抗性一般是抗生素抗性或除草剂抗性,将赋予转化细胞抗性的选择标记基因删除是提高转基因植物生物安全性的重要措施。来自于啤酒酵母的FLP/frt位点特异性重组系统可有效删除同向定点重组位点frt之间的基因。通过多步骤重组,建立了可在植物中广泛应用的FLP/frt位点特异性重组系统。该系统包括含有frt位点的植物表达载体pCAMBIA1300-betA-frt-als-frt和含有由热诱导启动子hsp启动的FLP重组酶基因的植物表达载体pCAMBIA1300-hsp-FLP-hpt。利用二次转化的方式将二者先后转入烟草植株,热激处理后,热诱导型启动子hsp调控的重组酶FLP基因的表达催化位于选择标记基因als两侧同向frt位点间的重组反应,有效地删除了选择标记基因als。41%的经热激处理的二次转化植株发生了选择标记基因的删除,表明该系统在获得无选择标记基因的转基因植株中有很好的应用价值。 相似文献
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Selectable marker genes that usually encode antibiotic or herbicide resistances are widely used for the selection of transgenic plants, but they become unnecessary and undesirable after transformation selection. An important strategy to improve the transgenic plants' biosafety is to eliminate the marker genes after successful selection. In the FLP/frt site-specific system of 2-μm plasmid from Saccharomyces cerevisiae, the FLP enzyme efficiently catalyzes recombination between two directly repeated FLP recombination target (frt) sites, eliminating the sequence between them. By controlled expression of the FLP recombinase and specific allocation of the frt sites within transgenic constructs, the system can be applied to eliminate the marker genes after selection. Through a series of procedures, the plant FLP/frt site-specific recombination system was constructed, which included the frt-containing vector pCAMBIA1300-betA-frt-als-frt and the FLP expression vector pCAMBIA1300-hsp-FLP-hpt. The FLP recombinase gene was introduced into transgenic (betA-frt-als-frt) tobacco plants by re-transformation. In re-transgenic plants, after heat-shock treatment, the marker gene als flanked by two identical orientation frt sites could be excised by the inducible expression of FLP recombinase under the control of hsp promoter. Excision of the als gene was found in 41 % re-transgenic tobacco plants, which indicated that this system could make a great contribution obtaining the marker-free transgenic plants. 相似文献
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Evaluation of selection strategies alternative to <Emphasis Type="Italic">nptII</Emphasis> in genetic transformation of citrus 总被引:1,自引:1,他引:0
The neomycin phosphotransferase (nptII) selection system has proved successful in citrus transformation; however, it may be recommendable to replace it given the pressure exerted against antibiotic-resistance selectable marker genes in transgenic plants. The present work investigates three different selection alternatives, comparing them to nptII selection in two citrus genotypes, Carrizo citrange and Pineapple sweet orange. The first method used the beta-glucuronidase (uidA) reporter marker gene for selection; the second attempted to generate marker-free plants by transforming explants with a multi-auto-transformation (MAT) vector, combining an inducible R/RS-specific recombination system with transgenic-shoot selection through expression of isopentenyl transferase (ipt) and indoleacetamide hydrolase/tryptophan monooxygenase (iaaM/H) marker genes; while the third exploited the phosphomannose isomerase (PMI)/mannose conditional positive selection system. Firstly, GUS screening of all regenerated shoots in kanamycin-free medium gave 4.3% transformation efficiency for both genotypes. Secondly, workable transformation efficiencies were also achieved with the MAT system, 7.2% for citrange and 6.7% for sweet orange. This system affords an additional advantage as it enables selectable marker genes to be used during the in vitro culture phase and later removed from the transgenic plants by inducible recombination and site-specific excision. Thirdly, the highest transformation rates were obtained with the PMI/mannose system, 30% for citrange and 13% for sweet orange, which indicates that this marker is also an excellent candidate for citrus transformation. 相似文献
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Public concerns about the issue of the environmental safety of genetically modified plants have led to a demand for technologies allowing the production of transgenic plants without selectable (antibiotic resistance) markers. We describe the development of an effective transformation system for generating such marker-free transgenic plants, without the need for repeated transformation or sexual crossing. This system combines an inducible site-specific recombinase for the precise elimination of undesired, introduced DNA sequences with a bifunctional selectable marker gene used for the initial positive selection of transgenic tissue and subsequent negative selection for fully marker-free plants. The described system can be generally applied to existing transformation protocols, and was tested in strawberry using a model vector in which site-specific recombination leads to a functional combination of a cauliflower mosaic virus 35S promoter and a GUS encoding sequence, thereby enabling the histochemical monitoring of recombination events. Fully marker-free transgenic strawberry plants were obtained following two different selection/regeneration strategies. 相似文献
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培育具有安全选择标记或无选择标记的转基因植物 总被引:10,自引:1,他引:9
转基因植物中选择标记的安全性已成为植物基因工程研究的热点之一。从两个方面可以解决转基因植物中的选择标记问题。一是选用安全的正向选择标记,主要是与糖代谢和激素代谢相关的基因。二是构建能去除选择标记基因的转化系统,主要有共转化系统、双T-DNA边界载体系统、位点特异性重组系统和转座子系统等。这些植物基因工程的方法将有助于培育安全的转基因植物。
Abstract:The bio-safety of selective markers in transgenic plants has been a hot spot in the field of plant genetic engineering.To solve the problem of selective markers in the transgenic plants,two means of producing transgenic plants have been developed.One is the utilization of bio-safe positive selective markers which are genes mainly related to metabolism of auxins and carbohydrates.The other is the establishment of transformation systems allowing marker genes to be eliminated from the transgenic plants,which include co-ransformation,double T-DNA border vectors,site-specific recombination and transposition.All these approaches of plant genetic engineering will benefit breeding transgenic plants with bio-safety. 相似文献
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转基因植物中的标记基因研究新进展 总被引:7,自引:0,他引:7
文章综述了转基因植物中标记基因研究的新进展,主要包括以下3个方面:第一是采用共转化、位点特异性重组和转座子等技术对传统抗性标记基因进行消除,以利于对同一作物进行多次转基因操作;第二是完善各种已应用的以糖类代谢酶基因、耐胁迫酶类基因和绿色荧光蛋白基因等为安全标记基因的转化体系,并大力研究、开发潜在的汞离子还原酶基因、叶绿体合成关键酶基因等作为安全标记基因;第三是着力发展无标记基因、无载体骨架的简单高效转化体系。此外,还展望了安全标记的应用前景。 相似文献
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The presence of marker genes conferring antibiotic resistance in transgenic plants represents a serious obstacle for their
public acceptance and future commercialization. In addition, their elimination may allow gene stacking by the same selection
strategy. In apricot, selection using the selectable marker gene nptII, that confers resistance to aminoglycoside antibiotics, is relatively effective. An attractive alternative is offered by
the MAT system (multi-auto-transformation), which combines the ipt gene for positive selection with the recombinase system R/RS for removal of marker genes from transgenic cells after transformation. Transformation with an MAT vector has been attempted
in the apricot cultivar ‘Helena’. Regeneration from infected leaves with Agrobacterium harboring a plasmid containing the ipt gene was significantly higher than that from non-transformed controls in a non-selective medium. In addition, transformation
efficiencies were much higher than those previously reported using antibiotic selection, probably due to the integration of
the regeneration-promoting ipt gene. However, the lack of an ipt expression-induced differential phenotype in apricot made difficult in detecting the marker genes excision and plants had
to be evaluated at different times. PCR analysis showed that cassette excision start occurring after 6 months approximately
and 1 year in culture was necessary for complete elimination of the cassette in all the transgenic lines. Excision was confirmed
by Southern blot analysis. We report here for the first time in a temperate fruit tree that the MAT vector system improves
regeneration and transformation efficiency and would allow complete elimination of marker genes from transgenic apricot plants
by site-specific recombination. 相似文献
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. Agrobacterium-mediated transformation is highly dependent upon competency of the target plant tissues. It is important to develop the capacity of transformed cells to include cell proliferation and differentiation. A system which results in cell proliferation and differentiation only of transformed cells is highly desirable for plant transformation. We report here a new GST-MAT vector system (MATIMH), in which the ipt gene combined with iaaM/H genes was used as the selectable marker gene and the GST-II promoter was used as the promoter of the R gene in a site-specific recombination system. In tobacco transformation, the combination of the ipt gene and the iaaM/H genes can result in the production of both auxin and cytokinin in transformed tissues and induce regeneration of transgenic shoots exhibiting an ipt-shooty phenotype more efficiently than the ipt gene alone. When we transformed 20 tobacco leaf discs with the MATIMH vector, marker-free transgenic plants were produced from five (41.6%) out of 12 ipt-shooty lines. These results indicated that the combination of the iaaM/H genes and the ipt gene can more efficiently produce both transgenic plants and marker-free transgenic plants. 相似文献
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Marker-free transgenic plants 总被引:16,自引:0,他引:16
Selectable marker genes are widely used for the efficient transformation of crop plants. In most cases, selection is based on antibiotic or herbicide resistance. Due mainly to consumer concerns, a suite of strategies (site-specific recombination, homologous recombination, transposition and co-transformation) have been developed to eliminate the marker gene from the nuclear or chloroplast genome after selection. Current efforts concentrate on systems where marker genes are eliminated efficiently soon after transformation. Alternatively, transgenic plants are produced by the use of marker genes that do not rely on antibiotic or herbicide resistance but instead promote regeneration after transformation. Here, the merits and shortcomings of different approaches and possible directions for their future development are discussed. 相似文献