Development of a Negative Selectable Marker for Entamoeba histolytica

Entamoeba histolytica is the causative agent of amebiasis and infects up to 10% of the world''s population. The molecular techniques that have enabled the up- and down-regulation of gene expression rely on the transfection of stably maintained plasmids. While these have increased our understanding of Entamoeba virulence factors, the capacity to integrate exogenous DNA into genome, which would allow reverse genetics experiments, would be a significant advantage in the study of this parasite. The challenges presented by this organism include inability to select for homologous recombination events and difficulty to cure episomal plasmid DNA from transfected trophozoites. The later results in a high background of exogenous DNA, a major problem in the identification of trophozoites in which a bona fide genomic integration event has occurred. We report the development of a negative selection system based upon transgenic expression of a yeast cytosine deaminase and uracil phosphoribosyl transferase chimera (FCU1) and selection with prodrug 5-fluorocytosine (5-FC). The FCU1 enzyme converts non-toxic 5-FC into toxic 5-fluorouracil and 5-fluorouridine-5''-monophosphate. E. histolytica lines expressing FCU1 were found to be 30 fold more sensitive to the prodrug compared to the control strain.Download video file.^{(38M, mov)}     

一种新的用于删除选择标记基因的Cre／lox系统

设计了一种新的诱导型Cre/lox系统,并在转基因烟草(NicotianatabacumL.)中进行了验证。在诱导剂的作用下,位于同向lox位点之间的选择标记基因(hpt)和重组酶基因(Cre)在烟草愈伤组织中被删除。在该系统中,Cre基因在玉米乙酰苯胺类化合物诱导启动子(In5-2)的控制下表达。对转基因后代的分子检测结果表明,不论是否加入了诱导剂,目的基因(gus)均被整合到烟草基因组中;在诱导剂处理的48株转基因烟草T0代中,45株的hpt基因被删除了。该系统只使用一个载体,克服了二次转化系统带来的问题。     

一种新的用于删除选择标记基因的Cre/lox系统

设计了一种新的诱导型Cre/lox系统,并在转基因烟草(Nicotianatabacum L.)中进行了验证.在诱导剂的作用下,位于同向lox位点之间的选择标记基因(hpt)和重组酶基因(Cre)在烟草愈伤组织中被删除.在该系统中,Cre基因在玉米乙酰苯胺类化合物诱导启动子(In5-2)的控制下表达.对转基因后代的分子检测结果表明,不论是否加入了诱导剂,目的基因(gus)均被整合到烟草基因组中;在诱导剂处理的48株转基因烟草To代中,45株的hpt基因被删除了.该系统只使用一个载体,克服了二次转化系统带来的问题.     

转基因植物中标记基因的剔除

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.     

A Sulfonylurea Herbicide Resistance Gene from Arabidopsis thaliana as a New Selectable Marker for Production of Fertile Transgenic Rice Plants

A mutant acetolactate synthase (ALS) gene, csr1-1, isolated from sulfonylurea herbicide-resistant Arabidopsis thaliana, was placed under control of a cauliflower mosaic virus 35S promoter (35S). Rice protoplasts were transformed with the 35S/ALS chimeric gene and regenerated into fertile transgenic rice (Oryza sativa) plants. The 35S/ALS gene was expressed effectively as demonstrated by northern blot hybridization analysis, and conferred to transformed calli at least 200-fold greater chlorsulfuron resistance than nontransformed control calli. Effective selection of 35S/ALS-transformed protoplasts was achieved at extremely low chlorsulfuron concentrations of 10 nm. The results demonstrated that the 35S/ALS gene is an alternative selectable marker for rice protoplast transformation and fertile transgenic rice production. The results also suggest that the mutant form of Arabidopsis ALS enzyme operates normally in rice cells. Thus, the mechanism of protein transport to chloroplast and ALS inhibition by chlorsulfuron is apparently conserved among plant species as diverse as Arabidopsis (dicotyledon) and rice (monocotyledon).     

Construction of a Homologous Selectable Marker Gene for Lentinula edodes Transformation

We cloned a gene for the iron sulfur protein (Ip) subunit from an edible mushroom, Lentinula edodes, and introduced a point mutation that confers carboxin resistance into it. The mutant gene successfully transformed L. edodes with high efficiency (9 transformants/2.5 μg vector DNA). Restriction enzyme-mediated integration (REMI) increased the transformation efficiency by about two-fold.     

反馈抑制不敏感邻氨基苯甲酸合成酶基因作为筛选标记基因用于大豆遗传转化研究

目前广泛采用的抗菌素或抗除草剂基因作为植物转化筛选标记基因可能带来转基因逃逸,因此寻找能够用于植物转化的来源于植物本身的筛选基因是解决这一问题的方法之一。通过从烟草中克隆的邻氨基苯甲酸合成酶基因(ASA2)作为筛选标记基因,并采用氨基酸的类似物5—甲基色氨酸为筛选剂,进行了农杆菌介导的大豆成熟胚尖转化研究。Southern杂交结果表明ASA2基因成功整合到大豆基因组,Northern杂交也显示该基因在转化大豆叶片中表达。HPLC检测转化大豆叶片游离色氨酸的含量比野生型要高59％～123％。PCR检测转化子1代结果显示转化基因通过孟德尔规律稳定遗传。这些结果表明反馈抑制不敏感ASA2基因可以作为筛选标记基因用于大豆遗传转化。同时也证实来源于一种植物(烟草)编码的邻氨基苯甲酸α—亚基能够与另一种植物(大豆)编码该酶的β—亚基结合形成具有完整活性的邻氨基苯甲酸合成酶。对ASA2基因作为一种新的植物转化筛选标记基因的优缺点进行了讨论。     

A Potential Food-Grade Cloning Vector for Streptococcus thermophilus That Uses Cadmium Resistance as the Selectable Marker

A potential food-grade cloning vector, pND919, was constructed and transformed into S. thermophilus ST3-1, a plasmid-free strain. The vector contains DNAs from two different food-approved organisms, Streptococcus thermophilus and Lactococcus lactis. The 5.0-kb pND919 is a derivative of the cloning vector pND918 (9.3 kb) and was constructed by deletion of the 4.3-kb region of pND918 which contained DNA from non-food-approved organisms. pND919 carries a heterologous native cadmium resistance selectable marker from L. lactis M71 and expresses the Cd^r phenotype in S. thermophilus transformants. With the S. thermophilus replicon derived from the shuttle vector pND913, pND919 is able to replicate in the two S. thermophilus industrial strains tested, ST3-1 and ST4-1. Its relatively high retention rate in S. thermophilus further indicates its usefulness as a potential food-grade cloning vector. To our knowledge, this is the first report of a replicative potential food-grade vector for the industrially important organism S. thermophilus.     

DHDPS突变基因作为转基因植物筛选标记的研究

从烟草（Nicotiana tabacum L.cv ）中克隆得到赖氨酸合成过程中的关键酶基因二氢吡啶二羧酸合酶（dihydrodipicolinate synthase, DHDPS）基因（dhdps）,对其进行体外分子改造,以解除末端产物对它的反馈抑制。将突变基因用做转基因植物的筛选标记转化烟草,用赖氨酸类似物（S-2-氨基乙基-L-半胱氨酸,AEC）作为筛选剂,成功筛选到了PCR阳性植株。Real-time PCR结果表明,PCR阳性植株中dhdps基因的转录水平显著高于对照,但植株表型异常。     

盐藻肌动蛋白基因启动子驱动的bar基因表达作为核转化筛选标记

运用基因组步行方法克隆盐藻肌动蛋白基因5′上游调控序列,发现相对于ATG上游-573和-424bp的位置上分别有75bp长的两个重复序列。没有典型的TATA盒,但有两个TATA样结构、一个CCAAT结构和一个与GCTC(G／C)AAGGC一致的序列。以700bp的盐藻肌动蛋白基因启动子区序列驱动bar基因的表达作为转化盐藻的筛选标记。转化的藻细胞暗光恢复24h后,在含0．5μg／mL除草剂的培养基中常规培养生长1周,然后将细胞平铺于含0．5μg／mL除草剂的固体培养基上继续筛选培养。约20d后从固体培养板上挑选出5个藻落并作了进一步培养和分析。结果显示,5个转化藻中携带bar嵌合基因的整合位点均位于核基因组内。Southern blotting分析表明,仅有一个转化藻整合单拷贝的bar基因,而另外4个转化藻株则包含多个拷贝bar基因片段,提示盐藻核基因转化主要是外源基因的随机整合,外源基因在转化盐藻中的整合拷贝数并不影响其除草剂抗性。RT-PCR方法证明了bar基因在转化藻中的转录。5个转化藻在含除草剂的液体培养基中维持生长了至少7个月,表明核基因转化的稳定性。     

利用pmi标记基因筛选培育转EaDREB2B基因甘蔗

利用已构建的植物表达载体prd29a-dreb-hyg,通过酶切连接到含有磷酸甘露糖异构酶基因（pmi）的表达质粒pZMLR14上,构建植物表达载体pDREB-PMI。利用基因枪轰击转化甘蔗愈伤,经过甘露糖筛选,共获51株抗性苗,转化再生频率为4.25%。对转基因植株进行分子检测,结果表明有8株为阳性转基因无性系。氯酚红试验表明标记磷酸甘露糖异构酶基因在转基因株系中均有表达。对转基因T₁代甘蔗植株进行分子检测,结果表明EaDREB2B基因在转基因甘蔗无性系T₁代中稳定遗传。该结果为进一步研究EaDREB2B基因在甘蔗抗旱方面的作用奠定了基础。     

Marker Gene Controversy in Transgenic Plants

Biosafety implications of selectable marker genes that are integrated into the transgenic plants are discussed. In the laboratory, selectable marker genes are used at two stages to distinguish transformed cells out of a large population of nontransformed cells: 1) initial assembly of gene cassettes is generally done in E. coli on easily manipulatable plasmid vectors that contain the selectable marker genes which often code for antibiotic inactivating enzymes, and 2) Then the gene cassettes are inserted into the plant genome by various transformation methods. For selection of transformed plant cells, antibiotic and herbicide resistance genes are widely used. Consequently, transgenic plants can end up with DNA sequences of selectable markers that are functional in E. coli and plants. The potential for horizontal gene transfer of selectable markers from transgenic plants to other organisms both in the environment and in the intestine of humans and animals is evaluated. Mechanisms and consequences of the transfer of marker genes from plants to other organisms is examined. Strategies to avoid marker genes in plants are discussed. It is possible to avoid the use of controversial selectable markers in the construction of transgenic plants.     

An Efficient Method of Selectable Marker Gene Excision by Xer Recombination for Gene Replacement in Bacterial Chromosomes

A simple, effective method of unlabeled, stable gene insertion into bacterial chromosomes has been developed. This utilizes an insertion cassette consisting of an antibiotic resistance gene flanked by dif sites and regions homologous to the chromosomal target locus. dif is the recognition sequence for the native Xer site-specific recombinases responsible for chromosome and plasmid dimer resolution: XerC/XerD in Escherichia coli and RipX/CodV in Bacillus subtilis. Following integration of the insertion cassette into the chromosomal target locus by homologous recombination, these recombinases act to resolve the two directly repeated dif sites to a single site, thus excising the antibiotic resistance gene. Previous approaches have required the inclusion of exogenous site-specific recombinases or transposases in trans; our strategy demonstrates that this is unnecessary, since an effective recombination system is already present in bacteria. The high recombination frequency makes the inclusion of a counter-selectable marker gene unnecessary.     

以新霉素抗性基因突变体为筛选标志的真核表达载体的构建

新霉素抗性基因(neo)是真核表达载体的常用筛选标志neo基因编码新霉素磷酸转移酶Ⅱ（NPT Ⅱ）,能催化G418、卡那霉素等多种氨基糖苷抗生素分子磷酸化而使之失去抗菌活性。通过对真核表达载体的筛选标志基因neo进行定点突变,以降低NPTⅡ的活性,然后用含neo突变体的真核表达载体pmDNA构建荧光素酶表达质粒,稳定转染CHO-K1细胞,发现表达荧光素酶的阳性细胞比例达到95%,其中高表达细胞集落的筛选率明显高于对照组。     

用于丝状真菌的苯菌灵标记基因benA表达载体的构建

为了构建适用于丝状真菌遗传转化的表达载体,在质粒pAN52-1的高效组成型三磷酸甘油醛脱氢酶基因启动子PgpdA和色氨酸C基因终止子TtrpC之间加入内切酶NotⅠ和ClaⅠ两个位点,构成质粒pAN52-2;把质粒pAN52-2中从启动子PgpdA到终止子TtrpC的基因片段通过PstⅠ和XbaⅠ酶切位点导入到pUC19载体上,并且应用PCR的方法在启动子Pg-pdA的前端引入HindⅢ酶切位点,构成质粒pUCPT-2;通过PCR,在苯菌灵抗性基因benA两端分别加入内切酶NotⅠ和ClaⅠ酶切位点,并克隆到pGEM-T载体上,得到质粒pGEM-Ben;用NotⅠ分别酶切质粒pUCPT-2与pGEM-Ben,连接苯菌灵抗性基因benA到pUCPT-2上,得到了pUCPT-Ben载体。经PCR、酶切和核苷酸序列检测,证实了PgpdA-benA-TtrpC表达元件连接成功,即得到了苯菌灵抗性基因高效表达载体。     

Cre-loxP重组系统删除内源性选择标记基因的效能评价

选择标记的使用和残留可引起消费者对转基因生物环境安全和产品安全的担忧,建立消除选择标记的有效对策甚为必要.本研究的目标是评价Cre-LoxP重组系统删除内源性选择标记基因的效能,为猪安全转基因研究提供实验依据和技术支撑.本文所用的打靶载体ΔMSTN含有LoxP位点锚定的选择标记表达框(LoxP-CMV-NeoR-IRES-EGFP-LoxP). 经电穿孔将该打靶载体导入猪肾PK15细胞,经G418筛选,获得稳定整合该载体、EGFP表达均一的单克隆细胞系. 将Cre重组酶表达载体pTurbo-Cre导入该细胞系,借助流式分选（FACS）、终点PCR、荧光定量PCR、TA克隆与测序等手段,证明Cre-LoxP重组系统可在猪细胞内高效介导内源性选择标记基因的删除反应,EGFP水平的删除效率达到46.1 %,DNA水平的删除效率则达到97 %.本文的研究结果为消除选择标记的安全隐患提供了可靠的解决方案,为建立猪安全转基因技术提供了重要的科学依据.     

转基因植物选择标记基因及其安全性问题

就目前使用的选择标记基因和提高选择标记基因安全性的策略进行了评述.     

Removal of the Selectable Marker Gene from Transgenic Tobacco Plants by Expression of Cre Recombinase from a Tobacco Mosaic Virus Vector through Agroinfection

Selection markers are often indispensable during the process of plant transformation, but dispensable once transgenic plants have been established. The Cre/lox site-specific recombination system has been employed to eliminate selectable marker genes from transgenic plants. Here we describe the use of a movement function-improved Tobacco Mosaic Virus (TMV) vector, m30B, to express Cre recombinase for elimination of the selectable marker gene nptII from transgenic tobacco plants. The transgenic tobacco plants were produced by Agrobacterium-mediated transformation with a specially designed binary vector pGNG which contained in its T-DNA region a sequence complex of 35S promoter-lox-the gfp coding sequence-rbcS terminator-Nos promoter-nptII-Nos terminator-lox-the gus coding region-Nos terminator. The expression of the recombinant viral vector m30B:Cre in plant cells was achieved by placing the viral vector under the control of the 35S promoter and through agroinoculation. After co-cultivating the pGNG-leaf discs with agro35S-m30B:Cre followed by shoot regeneration without any selection, plants devoid of the lox-flanked sequences including nptII were obtained with an efficiency of about 34% as revealed by histochemical GUS assay of the regenerants. Three of 11 GUS expressing regenerants, derived from two independent transgenic lines containing single copy of the pGNG T-DNA, proved to be free of the lox-flanked sequences by Southern blot analysis. Excision of the lox-flanked sequences in the three plants could be attributed to transient expression of Cre from the viral vector at the early stage of co-cultivation, since the cre sequence could not be detected in the viral RNA molecules accumulated in the plants, nor in their genomic DNA. The parental marker-free genotype was inherited in their selfed progeny, and all of the progeny were virus-free, apparently because TMV is not seed-transmissible. Therefore, expression of Cre from a TMV-based vector could be used to eliminate selectable marker genes from transgenic tobacco plants without sexual crossing and segregation, and this strategy could be extended to other TMV-infected plant species and applicable to other compatible virus–host plant systems.