Gateway技术构建交链孢菌JH505 cDNA文库

Gateway(R)技术构建Cdna文库,利用λ噬菌体的位点特异性重组,避免使用限制性内酶切割Cdna,能够解决常规方法构建Cdna文库的技术缺陷.首次应用Gateway(R)技术构建交链孢菌Cdna文库,经检测Cdna入门文库的滴度达到1×107cfu/Ml,文库总容量为9×107cfu,平均插入片段为1510bp.通过LR重组把入门文库转换为表达文库,表达文库的滴度为1.58×106cfu/Ml,文库总容量为6.32×106cfu,平均插入片段大小为1680bp.表达文库的构建为进一步克隆植物激活蛋白基因打下了基础.     

An Alternative Approach in Gateway® Cloning when the Bacterial Antibiotic Selection Cassettes of the Entry Clone and Destination Vector are the Same

The Gateway^® recombination technology has revolutionized the method of gene cloning for functional analyses and high-throughput ORFeome projects. In general, Gateway cloning is highly efficient because after LR recombination and bacterial transformation, only cells containing the recombinant destination clone are selected on an antibiotic selection plate. However, when the antibiotic resistance gene for bacterial selection is the same in the entry and destination vectors, the direct selection of recombinant destination clones on an antibiotic plate is difficult. Here, we demonstrate an efficient and comprehensive approach to obtain positive destination clones directly on an antibiotic selection plate in this situation. The strategy involves polymerase chain reaction (PCR)-mediated amplification of the entry clone using entry vector-specific primers that bind outside the attL sequences and the subsequent use of this purified PCR product for LR recombination with the destination vector. Our results suggest that cloning of linear DNA fragments into circular destination vectors through LR recombination is an efficient method for inserts up to 7 kb in size. Using this approach, the yield of colony PCR positive destination clones was 100 % for genes of various sizes tested in our experiments.     

A vector for directional cloning and expression of polymerase chain reaction products in Escherichia coli

This paper describes the construction of a modified vector for the cloning and expression of protein-encoding genes in Escherichia coli. The vector, pfXblue, is derived from the system originally developed by Nagai and Th?gerson [Nature 309 (1984) 810-812], but contains a modified multiple cloning site (MCS) from M13mp18 to allow directional insertion of foreign coding sequences. The MCS is located within the M13mp18 lacZ' gene and thus allows blue/white screening of colonies for inserts. The inserted gene is expressed as a fusion protein, which, when cleaved by the coagulation factor Xa protease, yields the mature product. This vector was successfully used for the production of a mitochondrial [2Fe-2S]ferredoxin using polymerase chain reaction products generated from a chick kidney cDNA library.     

Isolation and characterization of beta- and gamma-crystallin genes from rat genomic cosmid libraries

Two libraries, together containing about 10(6) colonies, have been constructed by cloning different size fractions of a partial Sau3A digest of rat genomic DNA in the cosmid vector pTM. Upon screening with two cDNA clones, one containing alpha A2-crystallin and one containing beta B1-crystallin sequences, 14 cosmid clones were isolated which were beta B1-crystallin-specific; none was found which contained alpha A2-crystallin sequences. The inserts of the beta B1 clones, which range from 35 to 45 kb in length, contain overlapping DNA segments covering more than 60 kb of rat genomic DNA. The composite BamHI restriction map of this region shows a single beta B1-crystallin gene, which is interrupted by several intronic sequences. Five recombinants hybridizing with two different rat lens gamma-crystallin cDNA clones were also isolated from these libraries. Four of these contain 31- to 41-kb inserts, whereas the fifth recombinant contains a 12.2-kb insert. Hybridization analysis with 5' and 3'-specific cDNA fragments indicates that altogether these inserts contain six gamma-crystallin genes, three of which are located on one insert of only 31 kb.     

Method for systematic targeted isolation of homologous cDNA fragments in a multiplex format

In this study, a two-step method for systematic multiplex cloning of homologous cDNAs from related species was developed. The first step, called MUCH (multiplex cloning of homologous genes), is cloning of partial but authentic cDNA fragments of homologous cDNAs by hybridization to arrayed cRNA probes of specified genes on a nylon membrane, followed by PCR amplification of the hybridized fragments. The second step is PCR-based screening of a library that contains longer cDNA inserts based on the sequences obtained in the first step. To evaluate this method, we tried to isolate mouse counterparts of 53 human large cDNAs by MUCH and could successfully isolate 32 mouse counterpart cDNAs from a single library. Complete sequencing of two mouse cDNAs isolated by PCR-based screening further demonstrated that this method enabled us to isolate multiple homologous cDNAs in parallel. We thus expect that this method could be applied to high-throughput cloning of homologous cDNAs in related species.     

T载体介导的基于attL核心区LR反应的简化快速Gateway克隆系统

Gateway克隆技术已得到广泛的应用。该技术先通过BP反应将目标片段连到带有完整attL特异识别位点的入门载体,然后与终载体通过LR反应得到表达载体。Gateway克隆方法与传统的酶切连接方法相比有快速简单等优点。但是,BP和LR酶都非常昂贵。本研究首先对3个常用Gateway载体的atts特异位点序列比对发现,attL序列核心交换位点“core attL”的21~22 bp长的碱基是保守和必要的。由此,设计含有core-attL序列的引物,通过PCR克隆得到DNA片段并连入pMD18-T载体,然后进行LR反应,可成功得到目标表达载体,并在保守的位点上正确重组。本研究还对其中一个带有绿色荧光蛋白基因的表达载体转化至烟草,能够正常表达该蛋白质。结果表明,通过将含有attL核心位点基因片段连接到pMD18-T载体上,可以省略BP反应而将目标片段连接到终载体上,节约了反应时间和成本。     

High efficiency single step production of expression plasmids from cDNA clones using the Flexi Vector cloning system

The success of structural genomics and proteomics initiatives is dependent on the availability of target genes in vectors suitable for protein production. Here, we compare two high-throughput methods for producing expression vectors from plasmid-derived cDNA fragments. Expression vectors were constructed for compatibility with the Gateway recombination cloning system and the Flexi Vector restriction-based cloning system. Cloning protocols for each system were conducted in parallel for 96 different target genes from PCR through the production of sequence-verified expression clones. The short nucleotide sequences required to prepare the target open reading frames for Flexi Vector cloning allowed a single-step PCR protocol, resulting in fewer mutations relative to the Gateway protocol. Furthermore, through initial cloning of the target open reading frames directly into an expression vector, the Flexi Vector system gave time and cost savings compared to the protocol required for the Gateway system. Within the Flexi Vector system, genes were transferred between four different expression vectors. The efficiency of gene transfer between Flexi Vectors depended on including a region of sequence identity adjacent to one of the restriction sites. With the proper construction in the flanking sequence of the vector, gene transfer efficiencies of 95-98% were demonstrated.     

A Gateway MultiSite recombination cloning toolkit

The generation of DNA constructs is often a rate-limiting step in conducting biological experiments. Recombination cloning of single DNA fragments using the Gateway system provided an advance over traditional restriction enzyme cloning due to increases in efficiency and reliability. Here we introduce a series of entry clones and a destination vector for use in two, three, and four fragment Gateway MultiSite recombination cloning whose advantages include increased flexibility and versatility. In contrast to Gateway single-fragment cloning approaches where variations are typically incorporated into model system-specific destination vectors, our Gateway MultiSite cloning strategy incorporates variations in easily generated entry clones that are model system-independent. In particular, we present entry clones containing insertions of GAL4, QF, UAS, QUAS, eGFP, and mCherry, among others, and demonstrate their in vivo functionality in Drosophila by using them to generate expression clones including GAL4 and QF drivers for various trp ion channel family members, UAS and QUAS excitatory and inhibitory light-gated ion channels, and QUAS red and green fluorescent synaptic vesicle markers. We thus establish a starter toolkit of modular Gateway MultiSite entry clones potentially adaptable to any model system. An inventory of entry clones and destination vectors for Gateway MultiSite cloning has also been established (www.gatewaymultisite.org).     

A Modular, Positive Selection Bacterial Artificial Chromosome Vector with Multiple Cloning Sites

To construct large-insert libraries for the sequencing, mapping, and functional studies of complex genomes, we have constructed a new modular bacterial artificial chromosome (BAC) vector, pBACe3.6 (GenBank Accession No. U80929). This vector contains multiple cloning sites located within the sacB gene, allowing positive selection for recombinant clones on sucrose-containing medium. A recognition site for the PI-SceI nuclease has also been included, which permits linearization of recombinant DNA irrespective of the characteristics of the insert sequences. An attTn7 sequence present in pBACe3.6 permits retrofitting of BAC clones by Tn7-mediated insertion of desirable sequence elements into the vector portion. The ability to retrofit BAC clones will be useful for functional analysis of genes carried on the cloned inserts. The pBACe3.6 vector has been used for the construction of many genomic libraries currently serving as resources for large-scale mapping and sequencing.     

A Modified MultiSite Gateway Cloning Strategy for Consolidation of Genes in Plants

The genome information is offering opportunities to manipulate genes, polygenic characters and multiple traits in plants. Although a number of approaches have been developed to manipulate traits in plants, technical hurdles make the process difficult. Gene cloning vectors that facilitate the fusion, overexpression or down regulation of genes in plant cells are being used with various degree of success. In this study, we modified gateway MultiSite cloning vectors and developed a hybrid cloning strategy which combines advantages of both traditional cloning and gateway recombination cloning. We developed Gateway entry (pGATE) vectors containing attL sites flanking multiple cloning sites and plant expression vector (pKM12GW) with specific recombination sites carrying different plant and bacterial selection markers. We constructed a plant expression vector carrying a reporter gene (GUS), two Bt cry genes in a predetermined pattern by a single round of LR recombination reaction after restriction endonuclease-mediated cloning of target genes into pGATE vectors. All the three transgenes were co-expressed in Arabidopsis as evidenced by gene expression, histochemical assay and insect bioassay. The pGATE vectors can be used as simple cloning vectors as there are rare restriction endonuclease sites inserted in the vector. The modified multisite vector system developed is ideal for stacking genes and pathway engineering in plants.     

利用核定位信号筛选系统初步筛选小鼠胚胎核定位蛋白基因

在已建立的核定位信号 (nuclearlocalizationsignal,NLS)筛选系统的基础上 ,对这一系统进行了改进并对改进的系统进行了验证。将小鼠 1 1天胚胎cDNA文库插入改进后的筛选载体的多克隆位点 ,转化酵母宿主菌。然后将约 1 0 4 个酵母克隆接种于选择性平板上进行筛选 ,得到了 2 2个可在选择性培养基上生长的克隆。分析了其中 1 8个克隆的DNA序列 ,见到 1 3个克隆含有以正确读框融合的编码NLS的基因片段。取其中 3个克隆的插入片段与绿色荧光蛋白基因融合后在哺乳类细胞内表达 ,证明了其在哺乳类细胞中的核定位功能。研究证明 ,构建的核定位信号筛选系统 ,能够有效地从cDNA文库中筛选核定位蛋白的基因     

An improved Escherichia coli expression vector for the construction and identification of full-length cDNA clones

An Escherichia coli expression vector designed for the efficient synthesis and identification of a full-length cDNA clone is constructed. The vector allows the synthesis of double-stranded cDNAs downstream from the tandem lac control regions employing the vector-primer and linker procedure of Okayama and Berg [Mol. Cell Biol. 2 (1982) 161-170]. Full-length cDNA clones carrying the 5'-noncoding region in addition to the entire coding and 3'-noncoding regions can be expressed in E. coli cells without fusing their coding region to that of E. coli proteins; these clones are identified by colony immunoassay. The entire cDNA insert can be easily excised from the plasmid, since the multiple cloning sites in the vector are duplicated at both ends of the cDNA insert during its synthesis.     

利用TA克隆的方法简便构建入门克隆

Gateway技术是一种通用型克隆方法,其基于λ噬菌体位点特异性重组,将目的DNA快速克隆到各种与Gateway技术兼容的目的载体上,不需要进行酶切和连接反应。但存在获得入门克隆过程中相关反应酶制剂价格昂贵,且药品订购时间较长等问题。通过对入门载体pDONR207的改造,使之产生3’端具有单个T 末端的线性化的入门载体,采用TA克隆的方法替代BP反应,从而简便、经济和快速地获得入门克隆。利用改造后的Gateway技术构建拟南芥SOS2基因的原核表达载体和真核表达载体,通过原核表达和原生质体瞬时表达证明通过此方法构建的表达载体在原核细胞和真核细胞中都得到了很好的表达。     

Construction of a Plant Transformation-ready Expression cDNA Library for Thellungiella halophila Using Recombination Cloning

Salt cress （Thellungiella halophila）, a close relative of the model plant Arabidopsis thaliana L., is an extremophile that is adapted to harsh saline environments. To mine salt-tolerance genes from this species, we constructed an entry cDNA library from the salt cress plant treated with salt-stress by using a modified cDNA synthesis and an improved recombinationassisted cDNA library construction method that is completely free of manipulations involving restriction enzymes and DNA ligase. This cDNA library construction procedure is significantly simplified and the quality of the cDNA library is improved. This entry cDNA library was subsequently shuttled into the destination binary vector pCB406 designed for plant transformation and expression via recombination-assisted cloning. The library is plant transformation ready and is used to transform Arabidopsis on a large scale in order to create a large collection of transgenic lines for functional gene mining.     

Construction of two Gateway vectors for gene expression in fungi

We report the construction of two Gateway fungal expression vectors pCBGW and pGWBF. The pCBGW was generated by introducing an expression cassette, which consists of a Gateway recombinant cassette (attR1-Cmr-ccdB-attR2) under the control of fungal promoter PgpdA and a terminator TtrpC, into the multiple cloning site of fungal vector pCB1004. The pGWBF is a binary vector, which was generated from the plant expression vector pGWB2 by replacing the CaMV35S promoter with PgpdA. The pGWBF can be transformed into fungi efficiently with Agrobacterium-mediated transformation. The applicability of two newly constructed vectors was tested by generating the destination vectors pGWBF-GFP and pCBGW-GFP and examining the expression of GFP gene in Trichoderma viride and Gibberella fujikuroi, respectively. Combining with the advantage of Gateway cloning technology, pCBGW and pGWBF will be useful in fungi for large-scale investigation of gene functions by constructing the interested gene destination/expression vectors in a high-throughput way.     

Development of a versatile expression plasmid construction system for Aspergillus oryzae and its application to visualization of mitochondria

We report here a development of the MultiSite Gateway(TM)-based versatile plasmid construction system applicable for the rapid and efficient preparation of Aspergillus oryzae expression plasmids. This system allows the simultaneous connection of the three DNA fragments inserted in entry clones along with a destination vector in a defined order and orientation. We prepared a variety of entry clones and destination vectors containing promoters, genes encoding carrier-proteins and fusion tags, and selectable markers, which makes it possible to generate 80 expression plasmids for each target protein. Using this system, plasmids for expression of the EGFP fused with the mitochondrial-targeting signal of citrate synthase (AoCit1) were generated. Tubular structures of mitochondria were visualized in the transformants expressing the AoCit1-EGFP fusion protein. This plasmid construction system allows us to prepare a large number of expression plasmids without laborious DNA manipulations, which would facilitate molecular biological studies on A. oryzae.