Construction of a bacterial artificial chromosome (BAC) library and identification of overlapping BAC clones with chromosome 4-specific RFLP markers in rice

 To facilitate construction of physical map of the rice genome, a bacterial artificial chromosome (BAC) library of IR64 genomic DNA was constructed. It consists of 18 432 clones and contains 3.28 rice genomic equivalents. The insert size ranged from 37 to 364 kb with an average of 107 kb. We used 31 RFLP markers on chromosome 4 to screen the library by colony hybridization. Sixty eight positive clones were identified with 2.2 positive clones per RFLP marker. The positive clones were analyzed to generate 29 contigs whose sizes ranged from 50 to 384 kb with an average of 145.6 kb. Chromosome walking was initiated for ten contigs linked to resistance genes. Thirty eight BAC clones were obtained and two contigs were integrated. Altogether, they covered 5.65 Mb (15.1%) of chromosome 4. These contigs may be used as landmarks for physical mapping of chromosome 4, and as starting points for chromosome walking towards the map-based cloning of disease resistance genes which were located nearby. Received: 15 November 1996 / Accepted: 24 January 1997     

Analysis of papaya BAC end sequences reveals first insights into the organization of a fruit tree genome

Papaya (Carica papaya L.) is a major tree fruit crop of tropical and subtropical regions with an estimated genome size of 372 Mbp. We present the analysis of 4.7% of the papaya genome based on BAC end sequences (BESs) representing 17 million high-quality bases. Microsatellites discovered in 5,452 BESs and flanking primer sequences are available to papaya breeding programs at . Sixteen percent of BESs contain plant repeat elements, the vast majority (83.3%) of which are class I retrotransposons. Several novel papaya-specific repeats were identified. Approximately 19.1% of the BESs have homology to Arabidopsis cDNA. Increasing numbers of completely sequenced plant genomes and BES projects enable novel approaches to comparative plant genomics. Paired BESs of Carica, Arabidopsis, Populus, Brassica and Lycopersicon were mapped onto the completed genomes of Arabidopsis and Populus. In general the level of microsynteny was highest between closely related organisms. However, papaya revealed a higher degree of apparent synteny with the more distantly related poplar than with the more closely related Arabidopsis. This, as well as significant colinearity observed between peach and poplar genome sequences, support recent observations of frequent genome rearrangements in the Arabidopsis lineage and suggest that the poplar genome sequence may be more useful for elucidating the papaya and other rosid genomes. These insights will play a critical role in selecting species and sequencing strategies that will optimally represent crop genomes in sequence databases.Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.Chun Wan J. Lai and Qingyi Yu have contributed equally to this work.     

Generation of a soybean BAC library, and identification of DNA sequences tightly linked to the Rps1-k disease resistance gene

 A soybean bacterial artificial chromosome (BAC) library, comprising approximately 45 000 clones, was constructed from high-molecular-weight nuclear DNA of cultivar Williams 82, which carries the Rps1-k gene for resistance against Phytophthora sojae. The library is stored in 130 pools with about 350 clones per pool. Completeness of the library was evaluated for 21 random sequences including four markers linked to the Rps1 locus and 16 cDNAs. We identified pools containing BACs for all sequences except for one cDNA. Additionally, when screened for possible contaminating BAC clones carrying chloroplast genes, no sequences homologous to two barley chloroplast genes were found. The estimated average insert size of the BAC clones was about 105 kb. The library comprises about four genome equivalents of soybean DNA. Therefore, this gives a probability of 0.98 of finding a specific sequence from this library. This library should be a useful resource for the positional cloning of Rps1-k, and other soybean genes. We have also evaluated the feasibility of an RFLP-based screening procedure for the isolation of BAC clones specific for markers that are members of repetitive sequence families, and are linked to the Rps1-k gene. We show that BAC clones isolated for two genetically linked marker loci, Tgmr and TC1-2, are physically linked. Application of this method in expediting the map-based cloning of a gene, especially from an organism, such as soybean, maize and wheat, with a complex genome is discussed. Received: 12 May 1998/Accepted: 24 August 1998     

A bacterial artificial chromosome library for soybean and identification of clones near a major cyst nematode resistance gene

 We constructed a bacterial artificial chromosome (BAC) library for soybean (Glycine max) consisting of approximately 30 000 clones with an average insert size of 120 kilobase pairs. The library was successfully screened with restriction fragment length polymorphism (RFLP) and microsatellite markers tightly linked to a major resistance gene for the cyst nematode, Heterodera glycines. Since many soybean RFLPs hybridize to duplicate loci, BACs homologous to duplicate RFLP loci were distinguished by digestion with the restriction enzyme originally used to map the RFLP, followed by a comparison of the hybridizing fragments. Linkage mapping of BAC clones identified with markers linked to the cyst nematode resistance gene demonstrated that these clones were located at the expected chromosomal positions and that there were no indications of chimeras within the genomic inserts. Received: 3 July 1997/Accepted: 26 August 1997     

Construction of a BAC library of pearl millet, Pennisetum glaucum

A bacterial artificial chromosome (BAC) library was constructed using nuclear DNA from pearl millet (Pennisetum glaucum), and used as a resource for the isolation of microsatellite sequences. The library contains a total of 159,100 clones with an average insert size of 90 kb, and corresponds to 5.8 haploid genome equivalents. The BAC library was pooled for screening by the polymerase chain reaction (PCR) as well as robotically gridded on high-density filters. PCR-based screening of a subset of the library (4.7 haploid genome equivalents) using five sequence-tagged site (STS) and six microsatellite markers identified between 2 and 11 positives superpools (5.4 on average). The frequency of BAC clones carrying inserts of chloroplast DNA was estimated to be less than 1% by hybridisation with a rice chloroplast probe. Received: 30 January 2000 / Accepted: 16 October 2000     

Construction of a yeast artificial chromosome library of pepper (Capsicum annuum L.) and identification of clones from the Bs2 resistance locus

A yeast artificial chromosome (YAC) library was constructed using high-molecular-weight DNA isolated from pepper (Capsicum annuum L.) leaf protoplasts. Insert DNA was prepared by partial digestion using EcoRI and subjected to electrophoretic fractionation before in-gel ligation to the pJS97/98 YAC vector. Prior to transformation of yeast spheroplasts, ligation products were subjected to a second electrophoretic size selection. The library consists of about 19 000 clones with an average insert size of 500 kb, thus representing approximately three haploid genome equivalents. Three PCR-based markers tightly linked to the pepper Bs2 resistance gene were used to assess the utility of this library for positional cloning. Three YAC clones containing pepper genomic DNA from the Bs2 resistance locus were isolated from the library. The clones ranged in size from 270 kb to 1.2 Mb and should prove useful for the cloning of the Bs2 gene. Received: 15 January 1999 / Accepted: 11 May 1999     

Two large-insert soybean genomic libraries constructed in a binary vector: applications in chromosome walking and genome wide physical mapping

Large DNA insert libraries in binary T-DNA vectors can assist in the isolation of the gene(s) underlying a quantitative trait locus (QTL). Binary vectors facilitate the transfer of large-insert DNA fragments containing a QTL from E. coli to Agrobacterium sp. and then to plants. We constructed two soybean large-insert libraries from cv. Forrest in the pCLD04541 (V41) binary vector after partial digestion of genomic high-molecular-weight DNA with BamHI or HindIII. The libraries contain 76,800 clones with an average insert size of 125 kb, and therefore represent 9.5-fold haploid genome equivalents. Colony hybridization using a chloroplast-specific probe infers that the libraries contain less than 0.5% clones of chloroplast DNA origin. These two libraries have provided clones for physical mapping of the soybean genome and for isolation of a number of disease resistance genes. One microsatellite marker was identified from the clone that hybridized to the Bng122 RFLP probe. The sequence-tagged site was used for genetic mapping and marker-assisted selection for genes underlying resistance to the soybean cyst nematode and sudden death syndrome. Received: 7 May 1999 / Accepted: 18 February 2000     

Construction of a bacterial artificial chromosome (BAC) library for citrus and identification of BAC contigs containing resistance gene candidates

A BAC library was constructed from the genomic DNA of an intergeneric Citrus and Poncirus hybrid. The library consists of 24,576 clones with an average insert size of 115 kb, representing approximately seven haploid genome equivalents and is able to give a greater than 99% probability of isolating single-copy citrus DNA sequences from this library. High-density colony hybridization-based library screening was performed using DNA markers linked to the citrus tristeza virus (CTV) resistance gene and citrus disease resistance gene candidate (RGC) sequences. Between four and eight clones were isolated with each of the CTV resistance gene-linked markers, which agrees with the library’s predicted genome coverage. Three hundred and twenty-two clones were identified using 13 previously cloned citrus RGC sequences as probes in library screening. One to four fragments in each BAC were shown to hybridize with RGC sequences. One hundred and nine of the RGC BAC clones were fingerprinted using a sequencing gel-based procedure. From the fingerprints, 25 contigs were assembled, each having a size of 120–250 kb and consisting of 2–11 clones. These results indicate that the library is a useful resource for BAC contig construction and molecular isolation of disease resistance genes. Received: 22 May 2000 / Accepted: 25 September 2000     

Construction of a BAC contig containing the xa5 locus in rice

 The recessive gene xa5 confers resistance to bacterial blight in rice. To generate a physical map of the xa5 locus, three RFLP markers RG556, RG207 and RZ390, closely linked to xa5, were used to screen a rice bacterial artificial chromosome (BAC) library. The identified overlapping BAC clones formed two small contigs which were extended to both sides by chromosome walking. The final physical map consisted of 14 BAC clones and covered 550 kb. Genetic analysis with an F₂ population showed that two RFLP markers 28N22R and 40F20R, derived from the BAC clones in the contig, flanked the xa5 locus. To further delimit the location of the xa5 locus, RFLP markers RG556 and RG207 were converted to sequence tagged sites and used to perform genetic analysis. The results indicated that the xa5 locus was most likely located between RG207 and RG556. Among the BAC clones in the contig, one clone, 44B4, hybridized to both RG207 and RG556. This suggests that BAC clone 44B4 carried the xa5 locus. Received: 12 January 1998 / Accepted: 27 May 1998     

Construction and characterization of a bovine BAC library with four genome-equivalent coverage

A bovine artificial chromosome (BAC) library of 105 984 clones has been constructed in the vector pBeloBAC11 and organized in 3-dimension pools and high density membranes for screening by PCR and hybridization. The average insert size, determined after analysis of 388 clones, was estimated at 120 kb corresponding to a four genome coverage. Given the fact that a male was used to construct the library, the probability of finding any given autosomal and X or Y locus is respectively 0.98 and 0.86. The library was screened for 164 microsatellite markers and an average of 3.9 superpools was positive for each PCR system. None of the 50 or so BAC clones analysed by FISH was chimeric. This BAC library increases the international genome coverage for cattle to around 28 genome equivalents and extends the coverage of the ruminant genomes available at the Inra resource center to 15 genome equivalents.     

Construction and characterization of a sheep BAC library of three genome equivalents

A sheep BAC library of over three genome equivalents was constructed and arrayed in superpools and row, column, and plate pools. The library contains 90,000 clones distributed in 39 superpools. The average insert size was estimated at 123 kb. The library was screened by PCR with 77 primer pairs corresponding to ovine microsatellites distributed throughout the genome. The probability of finding a random sequence in the library could be estimated at 0.96. Received: 2 November 1998 / Accepted: 29 January 1999     

Insight into Trichoderma reesei's genome content, organization and evolution revealed through BAC library characterization

Trichoderma reesei is an important industrial fungus known for its ability to efficiently secrete large quantities of protein as well as its wide variety of biomass degrading enzymes. Past research on this fungus has primarily focused on extending its protein production capabilities, leaving the structure of its 33 Mb genome essentially a mystery. To begin to address these deficiencies and further our knowledge of T. reesei's secretion and cellulolytic potential, we have created a genomic framework for this fungus. We constructed a BAC library containing 9216 clones with an average insert size of 125 kb which provides a coverage of 28 genome equivalents. BAC ends were sequenced and annotated using publicly available software which identified a number of genes not seen in previously sequenced EST datasets. Little evidence was found for repetitive sequence in T. reesei with the exception of several copies of an element with similarity to the Podospora anserina transposon, PAT. Hybridization of 34 genes involved in biomass degradation revealed five groups of co-located genes in the genome. BAC clones were fingerprinted and analyzed using fingerprinted contigs (FPC) software resulting in 334 contigs covering 28 megabases of the genome. The assembly of these FPC contigs was verified by congruence with hybridization results.     

Construction and characterization of a BAC library for the molecular dissection of a single wild beet centromere and sugar beet (Beta vulgaris) genome analysis.

We have constructed a sugar beet bacterial artificial chromosome (BAC) library of the chromosome mutant PRO1. This Beta vulgaris mutant carries a single chromosome fragment of 6-9 Mbp that is derived from the wild beet Beta procumbens and is transmitted efficiently in meiosis and mitosis. The library consists of 50,304 clones, with an average insert size of 125 kb. Filter hybridizations revealed that approximately 3.1% of the clones contain mitochondrial or chloroplast DNA. Based on a haploid genome size of 758 Mbp, the library represents eight genome equivalents. Thus, there is a greater than 99.96% probability that any sequence of the PROI genome can be found in the library. Approximately 0.2% of the clones hybridized with centromeric sequences of the PRO1 minichromosome. Using the identified BAC clones in fluorescence in situ hybridization experiments with PRO1 and B. procumbens chromosome spreads, their wild-beet origin and centromeric localization were demonstrated. Comparative Southern hybridization of pulsed-field separated PROI DNA and BAC inserts indicate that the centromeric region of the minichromosome is represented by overlapping clones in the library. Therefore, the PRO1 BAC library provides a useful tool for the characterization of a single plant centromere and is a valuable resource for sugar beet genome analysis.     

Construction and characterization of a bacterial artificial chromosome library of peach

A peach [Prunus persica (L.) Batch] bacterial artificial chromosome (BAC) library of var. Jingyu was constructed. Jingyu is a traditional variety, that displays many of the important agronomic characters of stone fruits. Since peach leaves are rich in polysaccharides, high-molecular-weight (HMW) DNA was extracted from leaf nuclei using a protocol adapted to peach. The HMW DNA embedded in agarose plugs was partially digested by HindIII. After size-selection by pulsed field gel electrophoresis, the selected DNA fragments were ligated to pBeloBAC11 and transformed into E. coli DH10B cells by electroporation. In total 20,736 recombinant clones were obtained. The BAC library has an average insert size of 95 kb and represents approximately 6.7 peach haploid genome equivalents. The BAC clones were stable in E. coli cell after 100 generations. The lack of hybridization to chloroplast and mitochondrial genes demonstrated that the library is predominantly composed of nuclear DNA. The library was screened with two molecular markers, W4 and P20, that are linked to white flesh and nectarine genes of peach, respectively. Ten positive clones were detected. Their fingerprints will be used to determine clone relationships and assemble contigs. This library should be well-suited for the map-based cloning of peach genes and genome physical mapping. Received: 18 January 2000 / Accepted: 29 May 2000     

Construction of a composite sorghum genome map and comparison with sugarcane, a related complex polyploid

 A sorghum composite linkage map was constructed with two recombinant inbred line populations using heterologous probes already mapped on maize and sugarcane. This map includes 199 loci revealed by 188 probes and distributed on 13 linkage groups. A comparison based on 84 common probes was performed between the sorghum composite map and a map of a sugarcane (Saccharum spp.) cultivar being developed and presently comprising 10 tentative linkage groups. A straight synteny was observed for 2 pairs of linkage groups; in two cases, 1 sorghum linkage group corresponded to 2 or 3 sugarcane linkage groups, respectively; in two cases 1 sugarcane link- age group corresponded to 2 separate sorghum linkage groups; for 2 sorghum linkage groups, no complete correspondance was found in the sugarcane genome. In most cases loci appeared to be colinear between homoeologous chromosomal segments in sorghum and sugarcane. These results are discussed in relation to published data on sorghum genomic maps, with specific reference to the genetic organization of sugarcane cultivars, and they, illustrate how investigations on relatively simple diploid genomes as sorghum will facilitate the mapping of related polyploid species such as sugarcane. Received: 12 August 1996 / Accepted: 30 August 1996     

High-resolution structural analysis of biolistic transgene integration into the genome of wheat

Transformation of plant genomes by biolistic methods has become routine over the past decade. However, relatively little is known about how transgenes are physically integrated into the host genome. Using a high-resolution physical mapping technique, fluorescence in situ hybridization on extended DNA fibers (fiber-FISH), 13 independent transgenic wheat lines were analyzed to determine the structural arrangement of stably inherited transgenes in host-plant chromosomes. Twelve transgenic lines were transformed with a single plasmid and one line was co-transformed with two separate plasmids, which co-segregated genetically. Three basic integration patterns were observed from the fiber-FISH experiments: Type I, large tandemly repeated integration; Type II, large tandem integrations interspersed with unknown DNA; and Type III, small insertions, possibly interspersed with unknown DNA. Metaphase FISH showed that the integration of transgenes was in both hetero- and euchromatic, as well as proximal, interstitial and distal, regions of the chromosomes. In the transgenic plants, the type of promotor used, rather than the chromosomal site of transgene integration, was most critical for transgene expression. The integration of the transgenes was not associated with detectable chromosomal rearrangements. Received: 25 August 2000 / Accepted: 31 October 2000     

A male and hermaphrodite specific RAPD marker for papaya ( Carica papayaL.)

The random amplified polymorphic DNA (RAPD) technique was used to determine the sex of a dioecious species, Carica papaya L., with three sex types, male, female and hermaphrodite. A 450 bp marker fragment, named PSDM(Papaya Sex Determination Marker), exists in all male and hermaphrodite plants but not in the female plants so far analyzed. The DNA sequence of PSDM exhibited no significant similarity to previously reported sequences. A sequence-characterized amplified region (SCAR) marker, SCARps, was developed from PSDM to determine the sex of papaya. Southern hybridization, using PSDM as a probe, showed that PSDM exists in the male and hermaphrodite genomes, but not in the female genome. This result strongly suggests that PSDM is located on the chromosome region that is specific to the male and the hermaphrodite. SCARps is a suitable marker for the precise and rapid diagnosis of sex in papaya. Received: 1 February 2001 / Accepted: 22 May 2001     

Construction and characterisation of a large DNA insert library from the D genome of wheat

 A large DNA fragment library consisting of 144 000 clones with an average insert size of 119 kb was constructed from nuclear DNA isolated from root and leaf tissue from Triticum tauschii (syn. Aegilops tauschii), the D-genome progenitor of wheat. The library was made in a binary vector that had previously been shown to stably maintain large inserts of foreign DNA in Escherichia coli. The use of root nuclei reduced considerably the proportion of the library containing clones derived from chloroplast DNA. Several experimental parameters were investigated and optimised, leading to a high cloning efficiency. Only three ligations were needed to construct the library which was estimated to be equivalent to 3.7 haploid genomes. The accuracy of this estimation was demonstrated by screening this library with three well-defined probes. One probe containing a glutenin gene sequence identified 5 clones covering at least 230 kb of the Glu-D1 locus and contained the two tightly linked high-molecular-weight glutenin genes Glu-D1x and -D1y. Each of the other two single-copy probes derived from the Cre3 cereal cyst nematode resistance gene locus hybridised with 4 clones containing gene sequences encoding nucleotide binding sites and a leucine-rich region. This is the first representative large-insert DNA library for wheat, and the results indicated that large molecules of wheat DNA can be efficiently cloned, stably maintained and manipulated in a bacterial system. Received: 28 August 1998 / Accepted: 28 November 1998     

Linkage mapping and genome length in eastern white pine (Pinus strobus L.)

 Haploid linkage analysis of eastern white pine, Pinus strobus L., was carried out using mainly RAPD markers and microsatellite, or simple-sequence-repeat, markers. Ninety one loci mapped to 12 linkage groups of three or more markers. The resulting framework genome map, the first for a soft pine species, contained 69 markers. The map covered 58% of the estimated genome length of 2071 cM(K), with a 95% confidence interval of 1828–2242 cM(K). A systematic comparison of linkage data from eastern white pine, longleaf pine (P. palustris Mill.) and maritime pine (P. pinaster Ait.), gave genome-length estimates for all three species very close to either 2000 cM(K) or 2600 cM(H), depending on whether the Kosambi(K) or Haldane(H) map functions, respectively, were employed. Differences among previous pine genome-length estimates were attributed to the divergent criteria used in the methods of estimation, and indicate the need for the adoption of uniform criteria when performing genome-length estimates. Current data suggest that members of the two pine subgenera, which diverged during the late Mesozoic era, have highly conserved rates of recombination. Received: 5 January 1997/Accepted: 24 January 1997     

Construction and characterisation of a yeast artificial chromosome library containing three haploid maize genome equivalents

We have constructed a yeast artificial chromosome (YAC) library using high-molecular-weight DNA prepared from agarose-embedded leaf protoplasts of the maize inbred line UE95. This library contains 79 000 clones with an average insert size of 145 kb and should therefore represent approximately three haploid genome equivalents. The library is organised as an ordered array in duplicate microtitre plates. Forty-one pools of DNA from 1920 individual clones have been prepared for rapid screening of the library by the polymerase chain reaction (PCR). Using this approach, together with conventional colony hybridisation, we have been able to identify between one and eight positive clones for every probe used.