Construction of random sheared fosmid library from Chinese cabbage and its use for Brassica rapa genome sequencing project

As a part of the Multinational Genome Sequencing Project of Brassica rapa, linkage group R9 and R3 were sequenced using a bacterial artificial chromosome (BAC) by BAC strategy. The current physical contigs are expected to cover approximately 90% euchromatins of both chromosomes. As the project progresses, BAC selection for sequence extension becomes more limited because BAC libraries are restriction enzyme-specific. To support the project, a random sheared fosmid library was constructed. The library consists of 97536 clones with average insert size of approximately 40 kb corresponding to seven genome equivalents, assuming a Chinese cabbage genome size of 550 Mb. The library was screened with primers designed at the end of sequences of nine points of scaffold gaps where BAC clones cannot be selected to extend the physical contigs. The selected positive clones were end-sequenced to check the overlap between the fosmid clones and the adjacent BAC clones.Nine fosmid clones were selected and fully sequenced. The sequences revealed two completed gap filling and seven sequence extensions, which can be used for further selection of BAC clones confirming that the fosmid library will facilitate the sequence completion of B. rapa.     

Comparative analysis of BAC and whole genome shotgun sequences from an Anopheles gambiae region related to Plasmodium encapsulation

The only natural mechanism of malaria transmission in sub-Saharan Africa is the mosquito, generally Anopheles gambiae. Blocking malaria parasite transmission by stopping the development of Plasmodium in the insect vector would provide a useful alternative to the current methods of malaria control. Toward this end, it is important to understand the molecular basis of the malaria parasite refractory phenotype in An. gambiae mosquito strains. We have selected and sequenced six bacterial artificial chromosome (BAC) clones from the Pen-1 region that is the major quantitative trait locus involved in Plasmodium encapsulation. The sequence and the annotation of five overlapping BAC clones plus one adjacent, but not contiguous clone, totaling 585kb of genomic sequence from the centromeric end of the Pen-1 region of the PEST strain were compared to that of the genome sequence of the same strain produced by the whole genome shotgun technique. This project identified 23 putative mosquito genes plus putative copies of the retrotransposable elements BEL12 and TRANSIBN1_AG in the six BAC clones. Nineteen of the predicted genes are most similar to their Drosophila melanogaster homologs while one is more closely related to vertebrate genes. Comparison of these new BAC sequences plus previously published BAC sequences to the cognate region of the assembled genome sequence identified three retrotransposons present in one sequence version but not the other. One of these elements, Indy, has not been previously described. These observations provide evidence for the recent active transposition of these elements and demonstrate the plasticity of the Anopheles genome. The BAC sequences strongly support the public whole genome shotgun assembly and automatic annotation while also demonstrating the benefit of complementary genome sequences and of human curation. Importantly, the data demonstrate the differences in the genome sequence of an individual mosquito compared to that of a hypothetical, average genome sequence generated by whole genome shotgun assembly.     

Construction and preliminary characterization of a river buffalo bacterial artificial chromosome library

River buffalo genome analyses have advanced significantly in the last decade, and the genome sequence of Bubalus bubalis will be available shortly. Nonetheless, large-insert DNA library resources such as bacterial artificial chromosomes (BAC) are still required for validation and accurate assembly of the genome sequence. We constructed a river buffalo BAC library containing 52,224 clones with an average insert size of 97 kb, representing 1.7 × coverage of the genome. This genomic resource for river buffalo will facilitate further studies in this economically important species allowing for instance, whole genome physical mapping and isolation of genes and gene clusters, contributing to the elucidation of gene organization and identification of regulatory elements.     

The snail (Biomphalaria glabrata) genome project

In 2001, ideas for a snail genome project were discussed at the American Society of Parasitologists meeting (New Mexico) and a snail genome consortium was subsequently established (the first consortium meeting was held in 2005). A proposal for sequencing the snail genome was submitted to the National Human Genome Research Institute, and Biomphalaria glabrata was prioritized as a non-mammalian sequencing target in 2004. The sequencing of the genome of this medically important snail is now underway.     

苏云金芽胞杆菌大质粒pBMB165的克隆与分析

以pBeloBAC11为载体,成功构建了苏云金芽胞杆菌YBT-1765的基因组人工染色体(BAC)文库和质粒BAC文库.根据已克隆的包含复制子ori165在内的3.6kb片段中编码复制蛋白Rep165的核苷酸序列设计探针,通过染色体步移方式,对质粒文库和基因组文库进行筛选,得到13个覆盖YBT-1765菌株中质粒pBMB165不同区域的克隆子.通过Hind Ⅲ和BamH Ⅰ酶切分析,建立了质粒pBMB165的物理图谱和线状重叠连锁图,并测算出该质粒的大小为82kb.根据部分核苷酸序列初步统计了pBMB165上转座因子的存在机率.YBT-1765菌株基因组文库的构建和物理图谱的绘制为克隆苏云金芽胞杆菌大质粒提供了一套可行的方案,成功解决了大质粒难克隆的问题.     

A comprehensive BAC resource

The Human Genome Project has generated extensive map and sequence data for a large number of Bacterial Artificial Chromosome (BAC) clones. In order to maximize the efficient use of the data and to minimize the redundant work for the research community, The Institute for Genomic Research (TIGR) comprehensive BAC resource (cBACr) (http://www.tigr.org/tdb/BacResource/BAC_resourc e_intro. html) was built as an expansion of the TIGR human BAC ends database. This resource collects, integrates and reports the information on library, maps, sequence, annotation and functions for each human and mouse BAC. The current database contains 635 016 human BACs and 265 617 mouse BACs that were characterized by various approaches, among which 22 705 human clones and 1000 mouse clones have sequence and annotation data.     

The mitochondrial genome of Biomphalaria glabrata (Gastropoda: Basommatophora), intermediate host of Schistosoma mansoni

The complete mitochondrial (Mt) genome of the gastropod Biomphalaria glabrata, a major intermediate host for the human parasite Schistosoma mansoni, was sequenced. The circular genome, the first determined from a basommatophoran snail, is AT rich (74.6%) and the smallest Mt genome (13,670 nucleotides [nt]) characterized from mollusks to date. Sequences from 2 B. glabrata strains, M-line and 1742, differed by only 18 nt. Phylogenetic analysis of 16S and ND1 sequences confirmed the Brazilian ancestry of both B. glabrata strains. Gene predictions indicated 22 transfer RNA, 12S and 16S ribosomal RNA (rRNA), and 13 protein-encoding genes, as is typical for metazoans. Of the mollusk Mt genomes currently known, the gene order was most similar to that of stylommatophoran gastropods, concordant with the monophyly of pulmonate gastropods. Screening of GenBank (expressed sequence tags database [dbEST]) with the Mt sequence identified 108 entries from B. glabrata as Mt-derived sequences, including 12S and 16S rRNA sequences. Moreover, 11 sequences originating from the Mt genome of B. glabrata were identified among EST entries ascribed to intramolluskan stages of S. mansoni. The availability of this Mt sequence will facilitate further molecular investigations into the biology of Biomphalaria sp. and interactions between this intermediate host and intramolluskan stages of S. mansoni.     

Toward unraveling the structure of Brassica rapa genome

Genomic research in any organism encompasses understanding structure of the target genome and genes, their function, and evolution. Brassica rapa , which is phylogenetically related to Arabidopsis thaliana , is an important species with respect to its uses as vegetable, oil, and fodder. The availability of suitable genetic and genomic resources is a prerequisite to undertake genomic research in B. rapa . We have developed reference mapping populations of Chinese cabbage ( B. rapa ssp. pekinensis ) comprising 78 doubled haploid lines and over 250 recombinant inbred lines. Two Bacterial Artificial Chromosome (BAC) libraries, generated by restriction enzymes Hin dIII (KBrH) and Bam HI (KBrB), comprise 56 592 and 50 688 clones, respectively. We have also constructed 22 cDNA libraries from different plant tissues consisting of 104 914 clones with an average length of 575 bp. Initial BAC-end sequence analysis of 1473 clones of the KBrH library led us to understand the structure of B. rapa genome with respect to extent of genic sequences and their annotation, and relative abundance of different types of repetitive DNAs. Full-length sequence analysis of BAC clones revealed extensive triplication of B. rapa DNA segments coupled with variable gene losses within the segments. The formulation of the 'Multinational Brassica Genome Project' has laid the foundation to sequence the complete genome of B. rapa ssp. pekinensis by the international Brassica research community. It has been proposed to undertake BAC-to-BAC sequencing of genetically mapped seed BACs. In recent years, development of bioinformatics tools in Brassica has given a boost to structural genomics research in Brassica species. The research undertaken with the availability of various genomic resources in the public domain has added to our understanding of the structure of B. rapa .     

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.     

Human BAC ends quality assessment and sequence analyses

End sequences from bacterial artificial chromosomes (BACs) provide highly specific sequence markers in large-scale sequencing projects. To date, we have generated >300,000 end sequences from >186,000 human BAC clones with an average read length of >460 bp for a total of 141 Mb covering approximately 4.7% of the genome. Over 60% of the clones have BAC end sequences (BESs) from both ends representing more than fivefold coverage of the human genome by the paired-end clones. Our quality assessments and sequence analyses indicate that BESs from human BAC libraries developed at The California Institute of Technology (CalTech) and Roswell Park Cancer Institute have similar properties. The analyses have highlighted differences in insert size for different segments of the CalTech library. Problems with the fidelity of tracking of sequence data back to physical clones have been observed in some subsets of the overall BES dataset. The annotation results of BESs for the contents of available genomic sequences, sequence tagged sites, expressed sequence tags, protein encoding regions, and repeats indicate that this resource will be valuable in many areas of genome research.     

A bacterial artificial chromosome library for the Chinese alligator (Alligator sinensis)

Chinese alligator (Alligator sinensis) is a rare and endangered species endemic to China. To better understand genetic details of the Chinese alligator genomic structure, a highly redundant bacterial artificial chromosome (BAC) library was constructed. This library consists of 216,238 clones with an average insert size of about 90kb, indicating that the library contains 6.8-fold genome equivalents. Subsequently, we constructed a 516kb contig map for the Chinese alligator olfactory receptor (OR) genes, which spans nine BAC clones, and subjected the BACs to full sequencing. The sequence analysis revealed that this contig contained 16 OR functional genes and meanwhile demonstrated that the nine BACs, which constituted the contig, overlapped correctly, proving the usability of this genome library. As a result, this BAC library could provide a useful platform for physical mapping, genome sequencing or complex analysis of targeted genomic regions for this rare species.     

Comparative physical mapping of segments of the genome of Brassica oleracea var. alboglabra that are homoeologous to sequenced regions of chromosomes 4 and 5 of Arabidopsis thaliana

Due to their relatedness to Arabidopsis thaliana (Arabidopsis), the cultivated Brassica species represent the first group of crops with which to evaluate comparative genomics approaches to understanding biological processes and manipulating traits. We have constructed a high-quality binary BAC library (JBo) from genomic DNA of Brassica oleracea var. alboglabra, in order to underpin such investigations. Using the Arabidopsis genome sequence and clones from the JBo library, we have analysed aspects of gene conservation and microsynteny between a 222 kb region of the genome of Arabidopsis and homoeologous segments of the genome of B. oleracea. All 19 predicted genes tested were found to hybridize to clones in the JBo library, indicating a high level of gene conservation. Further analyses and physical mapping with the BAC clones identified allowed us to construct clone contig maps and analyse in detail the gene content and organization in the set of paralogous segments identified in the genome of B. oleracea. Extensive divergence of gene content was observed, both between the B. oleracea paralogous segments and between them and their homoeologous segment within the genome of Arabidopsis. However, the genes present show highly conserved collinearity with their orthologues in the genome of Arabidopsis. We have identified one example of a Brassica gene in a non-collinear position and one rearrangement. Some of the genes not present in the discernible homoeologous regions appear to be located elsewhere in the B. oleracea genome. The implications of our findings for comparative map-based cloning of genes from crop species are discussed.     

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 of a bacterial artificial chromosome library for the Rongchang pig breed and its use for the identification of genes involved in intramuscular fat deposition

In a search for genes affecting intramuscular fat deposition, we constructed a bacterial artificial chromosome (BAC) library for the whole genome of Rongchang pig, a domestic Chinese swine breed. The library consisted of approximately 192,000 clones, with an averaged insert size of 116 kb. Frequency of non-insert clone of the BAC library was no higher than 1.8%, based on estimation of 220 BAC clones randomly selected. We estimated the coverage of the library to be more than seven porcine genome equivalents. Subsequent screening of the BAC library with a three-step PCR procedure resulted in identification of seven candidate genes that were potentially involved in intramuscular fat deposition. The number of positive BAC clones ranged from 2 to 4 for each of the seven genes. One positive clone, containing the lipin1 gene, was fully sequenced by shotgun method to generate 118,041 bp porcine genomic sequences. The BAC clone contained complete DNA sequence of porcine lipin1 gene including all the exons and introns. Our results indicate that this BAC library is a useful tool for gene identification and help to serve as an important resource for future porcine genomic study.     

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 Japanese BAC library Yamato-2 (JY2): a set of 330K clone resources of damage-minimized DNA taken from a genetically established Japanese individual

A bacterial artificial chromosome (BAC) library referred to as Yamato-2 (JY2), was constructed from a Japanese individual and contained 330,000 clones. Library construction was based on 2 concepts: Japanese pedigree and non-immortalization. Genomic DNA was extracted from white blood cells from umbilical cord blood of a Japanese male individual. Four traits of the sample, (1) amelogenin DNA, (2) short tandem repeat (STR), (3) mitochondrial DNA (mtDNA), and (4) HLA-allele typing, were investigated to verify attribution of the donor. One of the samples with quite good Japanese characteristics was named JY2 and used as a resource for construction of a BAC library. Amelogenin DNA indicated male. STR indicated Mongoloid. MtDNA suggested haplogroup B, which is different from any other diploid whose sequence has been reported. The HLA gene was classified into east-Asian specific haplotype. These results revealed that JY2 was obtained from a Japanese male. We sequenced both ends of 185,012 BAC clones. By using the BLAST search, BAC end sequences (BESs) were mapped on the human reference sequence provided by NCBI. Inserts of individual BAC clones were mapped with both ends properly placed. As a result, 103,647 BAC clones were successfully mapped. The average insert size of BAC calculated from the mapping information was 130?kb. Coverage and redundancy of the reference sequence by successfully mapped BAC clones were 96.4% and 3.9-fold, respectively. This library will be especially suitable as a Japanese standard genome resource. The availability of an accurate library is indispensable for diagnostics or drug-design based on genome information, and JY2 will provide an accurate sequence of the Japanese genome as an important addition to the human genome.