Development of new transformation-competent artificial chromosome vectors and rice genomic libraries for efficient gene cloning

The transformation-competent artificial chromosome vector (TAC) system has been shown to be very useful for efficient gene isolation in Arabidopsis thaliana (Proc. Natl. Acad. Sci. USA 96 (1998) 6535). To adapt the vector system for gene isolation in crops, two new TAC vectors and rice genomic libraries were developed. The new vectors pYLTAC17 and pYLTAC27 use the Bar gene and Hpt gene driven by the rice Act1 promoter as the plant selectable markers, respectively, and are suitable for transformation of rice and other grasses. Two representative genomic libraries (I and II) of an Indica rice variety Minghui63, a fertility restorer line for hybrid rice, were constructed with pYLTAC17 using different size classes of partially digested DNA fragments. Library I and library II consisted of 34,560 and 1.2 x 10(5) clones, with average insert sizes of approximately 77 and 39 kb, respectively. The genome coverage of the libraries I and II was estimated to be about 5 and 11 haploid genome equivalents, respectively. Clones of the library I were stored individually in ninety 384-well plates, and those of the library II were collected as bulked pools each containing 30-50 clones and stored in eight 384-well plates. A number of probes were used to hybridize high-density colony filters of the library I prepared by an improved replicating method and each detected 2-9 positive clones. A method for rapid screening of the library II by pooled colony hybridization was developed. A TAC clone having an 80 kb rice DNA insert was successfully transferred into rice genome via Agrobacterium-mediated transformation. The new vectors and the genomic libraries should be useful for gene cloning and genetic engineering in rice and other crops.     

Construction,characterization, and screening of a transformation-competent artificial chromosome library of peach

As a genome model of fruit trees, peach (Prunus persica [L.] Batch) has advantages for studying structural and functional genomics. Okubo, a traditional peach variety used as a parent in Asian peach breeding, displays economically valuable agronomic traits. To develop an efficient platform for peach gene cloning and genomic research, a large-insert genomic DNA library of Okubo was constructed in a transformation-competent artificial chromosome (TAC) vector, pYLTAC7, which can accept and stably maintain large genomic DNA fragments in bothEscherichia coli andAgrobacterium tumefaciens. The TAC library contains 41,472 recombinant clones with an average insert size of approximately 42 kb, and it is equivalent to 6 haploid peach genomes. The TAC library was stored in 2 ways: one copy as frozen cultures in 108 pieces of 384-well plates and another copy as bulked pools in 36 pieces of 96-well plates, each well containing 12 individual clones. The lack of hybridization signal to chloroplast and mitochondrial genes indicated that the TAC library had no significant cytoplast organelle DNA contamination. TAC clones were stable inE. coli cells until generation 100 and stable in bothE. coli andA. tumefaciens. Twenty-one clones containing the polygalacturonase-inhibiting protein (PGIP) gene were detected by using pooled PCR in the TAC library. Positive clones can be used for peach PGIP gene cloning and functional analysis. The library is well suited for gene cloning and genetic engineering in peach.     

Development of an efficient maintenance and screening system for large-insert genomic DNA libraries of hexaploid wheat in a transformation-competent artificial chromosome (TAC) vector

Three large-insert genomic DNA libraries of common wheat, Triticum aestivum cv. Chinese Spring, were constructed in a newly developed transformation-competent artificial chromosome (TAC) vector, pYLTAC17, which accepts and maintains large genomic DNA fragments stably in both Escherichia coli and Agrobacterium tumefaciens. The vector contains the cis sequence required for Agrobacterium-mediated gene transfer into grasses. The average insert sizes of the three genomic libraries were approximately 46, 65 and 120 kbp, covering three haploid genome equivalents. Genomic libraries were stored as frozen cultures in a 96-well format, each well containing approximately 300-600 colonies (12 plates for small library, four for medium-size library and four for large library). In each of the libraries, approximately 80% of the colonies harbored genomic DNA inserts of >50 kbp. TAC clones containing gene(s) of interest were identified by the pooled PCR technique. Once the target TAC clones were isolated, they could be immediately transferred into grass genomes with the Agrobacterium system. Five clones containing the thionin type I genes (single copy per genome), corresponding to each of the three genomes (A, B and D), were successfully selected by the pooled PCR method, in addition to an STS marker (aWG464; single copy per genome) and CAB (a multigene family). TAC libraries constructed as described here can be used to isolate genomic clones containing target genes, and to carry out genome walking for positional cloning.     

用克隆池PCR法筛选小麦-簇毛麦易位系6VS/6AL基因组TAC文库获得抗病基因候选克隆

用根据抗病基因保守区设计的一对简并性引物,从小麦－簇毛麦易位系6VS／6AL cDNA中PCR扩增获得一个具有抗病基因核苷酸结合位点（Nucleotide binding site,NBS）结构特点的DNA片段克隆N7。从小麦－簇毛麦易位系6VS／6AL基因组TAC（Transformation-competent artificial chromosome,TAC）文库的22块96孔板提取所有2112个克隆池（每个池含约1000个克隆）的质粒,再根据N7的核苷酸序列设计一对特异引物,用克隆池PCR（pooled PCR)法经分级筛选从文库中获得一个阳性克隆。以N7为探针,通过Southern杂交证实了该TAC克隆为真正含有抗病候选基因的克隆。研究结果表明克隆池PCR法对克隆数目巨大的基因组文库的筛选很有效。     

Construction of tomato genomic DNA libraries in a binary-BAC (BIBAC) vector

This is the first report of large insert genomic DNA libraries constructed in a binary-BAC (BIBAC) vector. Genomic DNA libraries containing approximately 4.6 haploid nuclear genomic equivalents were constructed for Lycopersicon esculentum (cv. Mogeor) and Lycopersicon pennellii (LA716) in the BIBAC2 vector. The L. esculentum library has an average insert size of 125 kb and is comprised of 42 272 individual colonies stored as frozen cultures in a 384-well format (108 plates). The L. pennellii library has an average insert size of 90 kb and is comprised of 53 760 individual clones (140 384-well plates). In each of the libraries, it is estimated that 90% of the colonies contain genomic DNA inserts. The composition of the L. esculentum and L. pennellii libraries was determined by analyzing a series of randomly selected clones. The L. esculentum library was surveyed for clones containing chloroplast DNA (1.4%), mitochondrial DNA (0.012%) and repetitive DNA motifs. BIBAC clones that may contain a gene of interest can be identified from these libraries by colony hybridization with homologous or heterologous probes or by PCR pooling techniques. Once identified, BIBAC genomic DNA library clones are immediately suitable for Agrobacterium tumefaciens-mediated plant transformation.     

小麦—簇毛表6VS／6AL易位系可转化人工染色体（TAC）文库的构建

可转化人工染色体（Ｔｒａｎｓｆｏｒｍａｔｉｏｎ ｃｏｍｐｅｔｅｎｔ Ａｒｔｉｆｉｃｉａｌ Ｃｈｒｏｍｏｓｏｍｅ,ＴＡＣ）是具有克隆和转移大片段基因能力的新型载体,是植被基因克隆和转化的有效工具。为了克隆泪科抗白粉病基因和其它基因,本研究用ＴＣＡ载体ｐＹＬＴＡＣ１７构建了带有抗白粉病基因Ｐｍ２１的小麦＝簇毛麦６ＶＳ／６ＡＬ易位系的基因组ＤＮＡ文库。该文库包含２１０万个克隆平均插入征段３５ｌｂ,相当于     

Construction and characterisation of a gridded chicken cosmid library with four-fold genomic coverage

Gridded genomic libraries are crucial for the positional candidate gene approach. For this purpose we constructed a gridded genomic library from a female chicken using the vector sCos 1. About 110 000 cosmid clones were grown and replicated in 384-well plates. An average insert size of 39 kb was calculated from the analysis of 68 randomly selected clones. No chimerism could be observed from 31 in situ hybridisations. One replica of the library (number 125) has been transferred to the Resource Centre/Primary Database (RZPD) of the German Human Genome Project (DHGP). The whole library was gridded onto four nylon filters at high density for efficient identification of cosmid clones by colony hybridisation. Twenty-two probes were used for screening the library and each of them gave at least one positive signal. This result is in good agreement with a four-fold coverage of the genome as estimated from the insert length and number of recombinant clones. This library provides a powerful tool for rapid physical mapping and complex analysis of the chicken genome.     

Construction and characterization of a gridded cattle BAC library

A bovine genomic large-insert bacterial artificial chromosome (BAC) library has been constructed from leukocytes of a Holstein-Friesian male. Size fractionated DpnII-digested genomic DNA was ligated to the dephosphorylated BamH1 ends of a pBACe3.6 vector. Approximately 8.3 x 10(4) individual BAC clones were picked into 384-well plates. Two-hundred and sixty-seven randomly chosen clones were characterized by pulsed-field gel electrophoresis (PFGE). The average insert size was 104 kb with a frequency of clones without inserts of 5.5%. Thirty-four BAC clones were mapped by fluorescence in situ hybridization (FISH) to cattle chromosomes. Three showed signals at more than one location, one of them on the centromeric regions of all autosomes, indicating that the clone contains centromeric repeats. A subset of these BAC clones was used for the development of sequence tagged sites. Both subcloning and direct sequencing of the BACs were used for generating sequence tagged site information. The clones from the library were gridded onto high-density membranes, and PCR superpools were produced from the same set of clones. Membranes and superpools are available through the Resource Centre of the German Human Genome Project in Berlin (http:// www.rzpd.de).     

Construction and application of a bacterial artificial chromosome (BAC) library of<Emphasis Type="Italic"> Prunus armeniaca</Emphasis> L. for the identification of clones linked to the self-incompatibility locus

To facilitate gene discovery in the Rosaceae, a bacterial artificial chromosome (BAC) library was constructed using high-molecular-weight (HMW) DNA from apricot leaves ( Prunus armeniaca L.). The library contains 101,376 clones (264, 384-well plates) with an average insert size of 64 kb, equivalent to 22-fold genome coverage. In the first application of this library, high-density filters were screened for self-incompatibility genes using apricot DNA probes. Eight positive BAC clones were detected and fingerprinted to determine clone relationships and assemble contigs. These results demonstrate the suitability of this library for gene identification and physical mapping of the apricot genome.Communicated by R. Hagemann     

Construction and Characterization of a Bacterial Artificial Chromosome (BAC) Library of Pacific White Shrimp, Litopenaeus vannamei

The pacific white shrimp (Litopenaeus vannamei) is one of the most economically important marine aquaculture species in the world. To facilitate gene cloning and characterization, genome analysis, physical mapping, and molecular selection breeding of marine shrimp, we have developed the techniques to isolate high-quality megabase-sized DNA from hemocyte nuclear DNA of female shrimp and constructed a bacterial artificial chromosome (BAC) genomic library for the species. The library was constructed in the Hind III site of the vector pECBAC1, consisting of 101,760 clones arrayed in 265 384-well microtiter plates, with an average insert size of 101 kb, and covering the genome approximately fivefold. To characterize the library, 92,160 clones were spotted onto high-density nylon filters for hybridization screening. A set of 18 pairs of overgo probes designed from eight cDNA sequences of L. vannamei genes were used in hybridization screening, and 35 positive clones were identified. These results suggest that the shrimp BAC libraries will provide a useful resource for screening of genomic regions of interest candidate genes, gene families, or large-sized synthetic DNA region and promote future works on comparative genomics, physical mapping, and large-scale genome sequencing in the species.     

Construction and Characterization of a 10-fold Genome Equivalent Rat P1-Derived Artificial Chromosome Library

A rat PAC library was constructed in the vector pPAC4 from genomic DNA isolated from female Brown Norway rats. This library consists of 215,409 clones arrayed in 614 384-well microtiter plates. An average insert size of 143 kb was estimated from 217 randomly isolated clones, thus representing approximately 10-fold genome coverage. This coverage provides a very high probability that the library contains a unique sequence in genome screening. Tests on randomly selected clones demonstrated that they are very stable, with only 4 of 130 clones showing restriction digest fragment alterations after 80 generations of serial growth. FISH analysis using 70 randomly chosen PACs revealed no significant chimeric clones. About 7% of the clones analyzed contained repetitive sequences related to centromeric regions that hybridized to some but not all centromeres. DNA plate pools and superpools were made, and high-density filters each containing an array of 8 plates in duplicate were prepared. Library screening on these superpools and appropriate filters with 10 single-locus rat markers revealed an average of 8 positive clones, in agreement with the estimated high genomic coverage of this library and representation of the rat genome. This library provides a new resource for rat genome analysis, in particular the identification of genes involved in models of multifactorial disease. The library and high-density filters are currently available to the scientific community.     

Construction and Characterization of Two Bacterial Artificial Chromosome Libraries of Zhikong Scallop, Chlamys farreri Jones et Preston, and Identification of BAC Clones Containing the Genes Involved in Its Innate Immune System

Large-insert bacterial artificial chromosome (BAC) libraries are necessary for advanced genetics and genomics research. To facilitate gene cloning and characterization, genome analysis, and physical mapping of scallop, two BAC libraries were constructed from nuclear DNA of Zhikong scallop, Chlamys farreri Jones et Preston. The libraries were constructed in the BamHI and MboI sites of the vector pECBAC1, respectively. The BamHI library consists of 73,728 clones, and approximately 99% of the clones contain scallop nuclear DNA inserts with an average size of 110 kb, covering 8.0x haploid genome equivalents. Similarly, the MboI library consists of 7680 clones, with an average insert of 145 kb and no insert-empty clones, thus providing a genome coverage of 1.1x. The combined libraries collectively contain a total of 81,408 BAC clones arrayed in 212 384-well microtiter plates, representing 9.1x haploid genome equivalents and having a probability of greater than 99% of discovering at least one positive clone with a single-copy sequence. High-density clone filters prepared from a subset of the two libraries were screened with nine pairs of Overgos designed from the cDNA or DNA sequences of six genes involved in the innate immune system of mollusks. Positive clones were identified for every gene, with an average of 5.3 BAC clones per gene probe. These results suggest that the two scallop BAC libraries provide useful tools for gene cloning, genome physical mapping, and large-scale sequencing in the species.     

Development of a new transformation-competent artificial chromosome (TAC) vector and construction of tomato and rice TAC libraries

Recent research has shown that BIBAC (binary bacterial artificial chromosome) and TAC (transformation-competent artificial chromosome) vector systems are very useful tools for map-based cloning of agronomically important genes in plant species. We have developed a new TAC vector that is suitable for both dicot and monocot transformation. Using this new TAC vector, we constructed large-insert genomic libraries of tomato and rice. The tomato library contains 96,996 clones (28.3-38.5 kb insert size) and has 3.18 haploid genome equivalents. The rice TAC library has 32.7 kb average insert size and has 9.24 haploid genome equivalents. The quality of these two libraries was tested using PCR to verify genome coverage. Individual clones were characterized to confirm insert integrity by Southern analysis, end sequencing and genetic mapping. To investigate the potential application of these TAC libraries in map-based cloning, TAC constructs containing a 45 kb fragment were introduced into the rice genome via Agrobacterium-mediated transformation. Molecular analysis indicates that the 45 kb fragment was successfully transferred into the rice genome. Although rearrangements of the introduced DNA were detected, 50% of regenerated plants contained at least one intact copy of the 45 kb clone and associated vector sequences. These libraries provide us with a valuable resource to rapidly isolate important genes in tomato and rice.     

Construction and utility of 10-kb libraries for efficient clone-gap closure for rice genome sequencing

Rice is an important crop and a model system for monocot genomics, and is a target for whole genome sequencing by the International Rice Genome Sequencing Project (IRGSP). The IRGSP is using a clone by clone approach to sequence rice based on minimum tiles of BAC or PAC clones. For chromosomes 10 and 3 we are using an integrated physical map based on two fingerprinted and end-sequenced BAC libraries to identifying a minimum tiling path of clones. In this study we constructed and tested two rice genomic libraries with an average insert size of 10 kb (10-kb library) to support the gap closure and finishing phases of the rice genome sequencing project. The HaeIII library contains 166,752 clones covering approximately 4.6x rice genome equivalents with an average insert size of 10.5 kb. The Sau3AI library contains 138,960 clones covering 4.2x genome equivalents with an average insert size of 11.6 kb. Both libraries were gridded in duplicate onto 11 high-density filters in a 5 x 5 pattern to facilitate screening by hybridization. The libraries contain an unbiased coverage of the rice genome with less than 5% contamination by clones containing organelle DNA or no insert. An efficient method was developed, consisting of pooled overgo hybridization, the selection of 10-kb gap spanning clones using end sequences, transposon sequencing and utilization of in silico draft sequence, to close relatively small gaps between sequenced BAC clones. Using this method we were able to close a majority of the gaps (up to approximately 50 kb) identified during the finishing phase of chromosome-10 sequencing. This method represents a useful way to close clone gaps and thus to complete the entire rice genome.     

Construction and Identification of Bacterial Artificial Chromosome Library for 0-613-2R in Upland Cotton

A bacterial artificial chromosome （BAC） library containing a large genomlc DNA insert is an important tool for genome physical mapping, map-based cloning, and genome sequencing. To Isolate genes via a map-based cloning strategy and to perform physical mapping of the cotton genome, a high-quality BAC library containing large cotton DNA Inserts Is needed. We have developed a BAC library of the restoring line 0-613-2R for Isolating the fertility restorer （Rf1） gene and genomic research in cotton （Gossypium hirsutum L.）. The BAC library contains 97 825 clones stored In 255 pieces of a 384-well mlcrotiter plate. Random samples of BACs digested with the Notl enzyme Indicated that the average Insert size Is approximately 130 kb, with a range of 80-275 kb, and 95.7% of the BAC clones in the library have an average insert size larger than 100 kb. Based on a cotton genome size of 2 250 Mb, library coverage is 5.7 × haploid genome equivalents. Four clones were selected randomly from the library to determine the stability of the BAC clones. There were no different fingerprints for 0 and 100 generations of each clone digested with Notl and Hlndiii enzymes. Thus, the atabiiity of a single BAC clone can be sustained at iesat for 100 generations. Eight simple sequence repeat （SSR） markers flanking the Rf; gene were chosen to screen the BAC library by pool using PCR method and 25 positive clones were identified with 3.1 positive clones per SSR marker.     

可转化人工染色体(TAC)文库载体DNA的制备

对可转化人工染色体(TAC)pYLTAC747NH/sacB文库载体DNA的制备条件进行了较系统的模索和研究.结果表明,该文库载体经碱裂解法提取、QIAGEN Plasmid Mini kit纯化后,可获得较纯净的载体DNA.对其闭环载体DNA分别用不同酶量的Hinid Ⅲ酶切处理,经琼脂糖凝胶电泳检测得出其最佳Hind Ⅲ完全酶切条件为2 U Hind Ⅲ/μg闭环载体DNA、37℃酶切30 min;分别用0.5 MBU和1 MBU HK脱磷酶/μg对其线性载体DNA进行脱磷处理,经电泳和载体自连产物电转化检测表明其适宜的完全脱磷条件为1 MBU HK脱磷酶/μg线性载体DNA,30℃脱磷1 h;将所制备的线性载体DNA与λ DNA/Hind Ⅲ酶切片段进行连接,连接产物转化频率较高,其电转化大肠杆菌DH10B感受态细胞频率可达到9.6×10s.     

稻曲病菌UV-2菌株细菌人工染色体文库构建及分析

【目的】稻曲病(Rice false smut)是由稻曲病菌[Villosiclava virens (Cooke) Tak.]引起的严重危害水稻的真菌病害。构建稻曲病菌UV-2的大片段DNA细菌人工染色体(Bacterial artificial chromosome, BAC)文库, 为致病相关基因的鉴定及在图位克隆、比较基因组学等方面的研究奠定基础。【方法】以幼嫩菌丝为材料制备大分子基因组DNA包埋块, 用Hind III部分酶解后经脉冲凝胶电泳筛选, 回收大片段DNA并与pIndigoBAC536-S 载体连接, 连接产物转化大肠杆菌菌株DH10B T1 Phage-Resistant 细胞后进行蓝白斑筛选, 白色菌落捡入384孔板置于?80 °C低温保存。【结果】成功构建UV-2菌株的高质量、高覆盖度的BAC文库, 该文库共含10 368个克隆, 平均插入片段为124.4 kb, 空载率小于1%, 约覆盖该菌基因组的36.8倍。【结论】克服了真菌大分子基因组DNA制备难控制的技术难题, 建立了首个稻曲病菌的BAC文库。该文库已作为一种公共基因组资源向研究者开放(http://GResource.hzau.edu.cn)。     

Construction of a porcine YAC library and mapping of the cardiac muscle ryanodine receptor gene to Chromosome 14q22–q23

Large-scale physical mapping of the porcine genome has been limited because up to now no suitable genomic libraries for this purpose have been available. Therefore, we have constructed a yeast artificial chromosome (YAC) library from porcine lymphocytes. The library was cloned in the amplifiable vector pCGS966. A total of 10080 YAC clones was obtained and has been ordered into 105 96-well microtiter plates. An average insert size of 300 kb was calculated from the analysis of 78 randomly selected clones, giving a onefold coverage of the porcine genome. To analyze the complexity, we have screened the library for five different genes and isolated four different clones containing parts of three of these genes. One YAC clone harboring parts of the porcine cardiac muscle ryanodine receptor (RYR2) gene allowed us to assign this locus to Chromosome (Chr) 14q22-q23. The data were confirmed by PCR analysis of a rodent-porcine hybrid cell panel.     

Construction of Two BAC Libraries from Half-Smooth Tongue Sole Cynoglossus semilaevis and Identification of Clones Containing Candidate Sex-Determination Genes

Half-smooth tongue sole (Cynoglossus semilaevis) is an increasingly important aquaculture species in China. It is also a tractable model to study sex chromosome evolution and to further elucidate the mechanism of sex determination in teleosts. Two bacterial artificial chromosome (BAC) libraries for C. semilaevis, with large, high-quality inserts and deep coverage, were constructed in the BamHI and HindIII sites of the vector pECBAC1. The two libraries contain a total of 55,296 BAC clones arrayed in 144 384-well microtiter plates and correspond to 13.36 haploid genome equivalents. The combined libraries have a greater than 99% probability of containing any single-copy sequence. Screening high-density arrays of the libraries with probes for female-specific markers and sex-related genes generated between 4–46 primary positive clones per probe. Thus, the two BAC libraries of C. semilaevis provided a readily useable platform for genomics research, illustrated by the isolation of sex determination gene(s).