Fosmid Library Construction and Initial Analysis of End Sequences in Zhikong Scallop (<Emphasis Type="Italic">Chlamys farreri</Emphasis>)

Zhikong scallop (Chlamys farreri Jones et Preston, 1904) is one of the most commercially important bivalves in China, but research on its genome is underdeveloped. In this study, we constructed the first Zhikong scallop fosmid library, and analyzed the fosmid end sequences to provide a preliminary assessment of the genome. The library consists of 133,851 clones with an average insert size of about 40 kb, amounting to 4.3 genome equivalents. Fosmid stability assays indicate that Zhikong scallop DNA was stable during propagation in the fosmid system. Library screening with two genes and seven microsatellite markers yielded between two and eight positive clones, and none of those tested was absent from the library. End-sequencing of 480 individual clones generated 828 sequences after trimming, with an average sequence length of 624 bp. BLASTN searches of the nr and EST databases of GenBank and BLASTX searches of the nr database resulted in 213 (25.72%) and 44 (5.31%) significant hits (E < e⁻⁵), respectively. Repetitive sequences analysis resulted in 375 repeats, accounting for 15.84% of total length, which were composed of interspersed repetitive sequences, tandem repeats, and low-complexity sequences. The fosmid library, in conjunction with the fosmid end sequences, will serve as a useful resource for physical mapping and positional cloning, and provide a better understanding of the Zhikong scallop genome.     

A BAC library of <Emphasis Type="Italic">Beta vulgaris</Emphasis> L. for the targeted isolation of centromeric DNA and molecular cytogenetics of <Emphasis Type="Italic">Beta</Emphasis> species

We constructed a sugar beet (Beta vulgaris) bacterial artificial chromosome (BAC) library of the monosomic addition line PAT2. This chromosomal mutant carries a single additional chromosome fragment (minichromosome) derived from the wild beet Beta patellaris. Restriction analysis of the mutant line by pulsed-field gel electrophoresis was used to determine HindIII as a suitable enzyme for partial digestion of genomic DNA to generate large-insert fragments which were cloned into the vector pCC1. The library consists of 36,096 clones with an average insert size of 120 kb, and 2.2% of the clones contain mitochondrial or chloroplast DNA. Based on a haploid genome size of 758 Mbp, the library represents 5.7 genome equivalents providing the probability of 99.67% that any sequence of the PAT2 genome can be found in the library. Hybridization to high-density filters was used to isolate 89 BACs containing arrays of the centromere-associated satellite repeats pTS5 and pTS4.1. Using the identified BAC clones in fluorescent in situ hybridization experiments with PAT2 and Beta patellaris chromosome spreads their wild beet origin and centromeric localization was demonstrated. Multi-colour FISH with differently labelled satellite repeats pTS5 and pTS4.1 was used to investigate the large-scale organization of the centromere of the PAT2 minichromosome in detail. FISH studies showed that the centromeric satellite pTS5 is flanked on both sides by pTS4.1 arrays and the arms of the minichromosome are terminated by the Arabidopsis-type telomeric sequences. FISH with a BAC, selected from high-density filters after hybridization with an RFLP marker of the genetic linkage group I, demonstrated that it is feasible to correlate genetic linkage groups with chromosomes. Therefore, the PAT2 BAC library provides a useful tool for the characterization of Beta centromeres and a valuable resource for sugar beet genome analysis.     

Fosmid Library Construction and Initial Analysis of End Sequences in Female Half-smooth Tongue Sole (Cynoglossus semilaevis)

Half-smooth tongue sole (Cynoglossus semilaevis: Pleuronectiformes) is a commercially important cultured marine flatfish in China and forms an important fishery resource, but the research of its genome is underdeveloped. In this study, we constructed a female C. semilaevis fosmid library and analyzed the fosmid end sequences to provide a preliminary assessment of the genome. The library consists of 49,920 clones with an average insert size of about 39 kb, amounting to 3.23 genome equivalents. Fosmid stability assays indicate that female C. semilaevis DNA was stable during propagation in the fosmid system. Library screening with eight microsatellite markers yielded between two and five positive clones, and none of those tested was absent from the library. End-sequencing of both 5′ and 3′ ends of 1,152 individual clones generated 2,247 sequences after trimming, with an average sequence length of 855 bp. BLASTN searches of the nr and EST databases of GenBank and BLASTX searches of the nr database resulted in 259 (11.53%) and 287 (12.77%) significant hits (E < e ⁻⁵), respectively. Repetitive sequences analysis resulted in 5.23% of base pairs masked using both the Fugu and Danio databases, repetitive elements were composed of retroelements, DNA transposons, satellites, simple repeats, and low-complexity sequences. The fosmid library, in conjunction with the fosmid end sequences, will serve as a useful resource for large-scale genome sequencing, physical mapping, and positional cloning, and provide a better understanding of female C. semilaevis genome.     

Construction and Characterization of the BAC Library for Common Carp <Emphasis Type="Italic">Cyprinus Carpio</Emphasis> L. And Establishment of Microsynteny with Zebrafish <Emphasis Type="Italic">Danio Rerio</Emphasis>

A bacterial artificial chromosome (BAC) library of common carp Cyprinus carpio L. was constructed as a part of ongoing common carp genome project, which is aiming assembly of common carp genome. The library, containing a total of 92,160 BAC clones with an average insert size of 141 kb, was constructed into the restriction site of Hind III on BAC vector CopyControl pCC1BAC, covering 7.7 X haploid genome equivalents. Three dimension pools and superpools of the BAC library were established and 23 positive clones of 14 targets were identified from one-fifth of the BAC library. Pilot project of BAC end sequencing was conducted on 2,688 BAC ends from 1,344 clones and harvested 2,522 high-quality Q20 sequences with average length of 677 bp. The sequencing success rate was 93.8% and pair-end success rate was 92.3%. A total of 212 microsyntenies had been established between common carp and zebrafish genomes as a trial for genome-wide comparative genomics in these two closely related species.     

Bacterial artificial chromosome (BAC) library resource for positional cloning of pest and disease resistance genes in cassava (<Emphasis Type="Italic">Manihot esculenta</Emphasis> Crantz)

Pest and disease problems are important constraints of cassava production and host plant resistance is the most efficient method of combating them. Breeding for host plant resistance is considerably slowed down by the crop’s biological constraints of a long growth cycle, high levels of heterozygosity and a large genetic load. More efficient methods such as gene cloning and transgenesis are required to deploy resistance genes. To facilitate the cloning of resistance genes, bacterial artificial chromosome (BAC) library resources have been developed for cassava. Two libraries were constructed from the cassava clones, TMS 30001, resistant to the cassava mosaic disease (CMD) and the cassava bacterial blight (CBB), and MECU72, resistant to cassava white fly. The TMS30001 library has 55 296 clones with an insert size range of 40–150 kb with an average of 80 kb, while the MECU72 library consists of 92 160 clones and an insert size range of 25–250 kb average of 93 kb. Based on a genome size of 772 Mb, the TMS30001 and MECU72 libraries have a 5 and 11.3 haploid genome equivalents and a 95 and 99 chance of finding any sequence, respectively. To demonstrate the potential of the libraries, the TMS30001 library was screened by southern hybridization using a cassava analog (CBB1) of the Xa21 gene from rice that maps to a region containing a QTL for resistance to CBB as probe. Five BAC clones that hybridized to CBB1 were isolated and a Hind III fingerprint revealed 2–3 copies of the gene in individual BAC clones. A larger scale analysis of resistance gene analogs (RGAs) in cassava has also been conducted in order to understand the number and organization of RGAs. To scan for gene and repeat DNA content in the libraries, end-sequencing was performed on 2301 clones from the MECU72 library. A total of 1705 unique sequences were obtained with an average size of 715 bp. Database homology searches using BLAST revealed that 458 sequences had significant homology with known proteins and 321 with transposable elements. The use of the library in positional cloning of pest and disease resistance genes is discussed.     

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 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     

Physical analysis of the complex rye (<Emphasis Type="Italic">Secale cereale</Emphasis> L.) <Emphasis Type="Italic">Alt4</Emphasis> aluminium (aluminum) tolerance locus using a whole-genome BAC library of rye cv. Blanco

Rye is a diploid crop species with many outstanding qualities, and is important as a source of new traits for wheat and triticale improvement. Rye is highly tolerant of aluminum (Al) toxicity, and possesses a complex structure at the Alt4 Al tolerance locus not found at the corresponding locus in wheat. Here we describe a BAC library of rye cv. Blanco, representing a valuable resource for rye molecular genetic studies, and assess the library’s suitability for investigating Al tolerance genes. The library provides 6 × genome coverage of the 8.1 Gb rye genome, has an average insert size of 131 kb, and contains only ~2% of empty or organelle-derived clones. Genetic analysis attributed the Al tolerance of Blanco to the Alt4 locus on the short arm of chromosome 7R, and revealed the presence of multiple allelic variants (haplotypes) of the Alt4 locus in the BAC library. BAC clones containing ALMT1 gene clusters from several Alt4 haplotypes were identified, and will provide useful starting points for exploring the basis for the structural variability and functional specialization of ALMT1 genes at this locus. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

The first insight into the <Emphasis Type="Italic">Taxus</Emphasis> genome via fosmid library construction and end sequencing

Taxus mairei is a critically endangered and commercially important cultured medicinal gymnosperm in China and forms an important medicinal resource, but the research of its genome is absent. In this study, we constructed a T. mairei fosmid library and analyzed the fosmid end sequences to provide a preliminary assessment of the genome. The library consists of one million clones with an average insert size of about 39 kb, amounting to 3.9 genome equivalents. Fosmid stability assays indicate that T. mairei DNA was stable during propagation in the fosmid system. End sequencing of both 5′ and 3′ ends of 968 individual clones generated 1,923 sequences after trimming, with an average sequence length of 839 bp. BLASTN searches of the nr and EST databases of GenBank and BLASTX searches of the nr database resulted in 560 (29.1%) significant hits (E < e⁻⁵). Repetitive sequences analysis revealed that 20.8% of end sequences are repetitive elements, which were composed of retroelements, DNA transposons, satellites, simple repeats, and low complexity sequences. The distribution pattern of various repeat types was found to be more similar to the gymnosperm Pinus and Picea than to the monocot and dicot. The satellites of T. mairei were significantly longer than those of P. taeda and P. glauca. The tetra-nucleotide repeats of T. mairei were much longer than those of P. glauca and P. taeda. The fosmid library and the fosmid end sequences, for the first time, will serve as a useful resource for large-scale genome sequencing, physical mapping, SSR marker development and positional cloning, and provide a better understanding of the Taxus genome.     

Construction of a bacterial artificial chromosome library containing large Eco RI and Hin dIII genomic fragments of lettuce

 Existing bacterial artificial chromosome (BAC) vectors were modified to have unique EcoRI cloning sites. This provided an additional site for generating representative libraries from genomic DNA digested with a variety of enzymes. A BAC library of lettuce was constructed following the partial digestion of genomic DNA with HindIII or EcoRI. Several experimental parameters were investigated and optimized. The BAC library of over 50,000 clones, representing one to two genome equivalents, was constructed from six ligations; average insert sizes for each ligation varied between 92.5 and 142 kb with a combined average insert size of 111 kb. The library was screened with markers linked to disease resistance genes; this identified 134 BAC clones from four regions containing resistance genes. Hybridization with low-copy genomic sequences linked to resistance genes detected fewer clones than expected from previous estimates of genome size. The lack of hybridization to chloroplast and mitochondrial sequences demonstrated that the library was predominantly composed of nuclear DNA. The unique EcoRI site in the BAC vector should allow the integration of BAC cloning with other technologies that utilize EcoRI digestion, such as AFLP^TM markers and RecA-assisted restriction endonuclease (RARE) cleavage, to clone specific large EcoRI fragments from genomic DNA. Received: 5 August 1996 / Accepted: 23 August 1996     

A major invasion of transposable elements accounts for the large size of the <Emphasis Type="Italic">Blumeria graminis</Emphasis> f.sp. <Emphasis Type="Italic">tritici</Emphasis> genome

Powdery mildew of wheat (Triticum aestivum L.) is caused by the ascomycete fungus Blumeria graminis f.sp. tritici. Genomic approaches open new ways to study the biology of this obligate biotrophic pathogen. We started the analysis of the Bg tritici genome with the low-pass sequencing of its genome using the 454 technology and the construction of the first genomic bacterial artificial chromosome (BAC) library for this fungus. High-coverage contigs were assembled with the 454 reads. They allowed the characterization of 56 transposable elements and the establishment of the Blumeria repeat database. The BAC library contains 12,288 clones with an average insert size of 115 kb, which represents a maximum of 7.5-fold genome coverage. Sequencing of the BAC ends generated 12.6 Mb of random sequence representative of the genome. Analysis of BAC-end sequences revealed a massive invasion of transposable elements accounting for at least 85% of the genome. This explains the unusually large size of this genome which we estimate to be at least 174 Mb, based on a large-scale physical map constructed through the fingerprinting of the BAC library. Our study represents a crucial step in the perspective of the determination and study of the whole Bg tritici genome sequence.     

Extensive Reorganization of the Plastid Genome of <Emphasis Type="Italic">Trifolium subterraneum</Emphasis> (Fabaceae) Is Associated with Numerous Repeated Sequences and Novel DNA Insertions

The plastid genome of Trifolium subterraneum is 144,763 bp, about 20 kb longer than those of closely related legumes, which also lost one copy of the large inverted repeat (IR). The genome has undergone extensive genomic reconfiguration, including the loss of six genes (accD, infA, rpl22, rps16, rps18, and ycf1) and two introns (clpP and rps12) and numerous gene order changes, attributable to 14–18 inversions. All endpoints of rearranged gene clusters are flanked by repeated sequences, tRNAs, or pseudogenes. One unusual feature of the Trifolium subterraneum genome is the large number of dispersed repeats, which comprise 19.5% (ca. 28 kb) of the genome (versus about 4% for other angiosperms) and account for part of the increase in genome size. Nine genes (psbT, rbcL, clpP, rps3, rpl23, atpB, psbN, trnI-cau, and ycf3) have also been duplicated either partially or completely. rpl23 is the most highly duplicated gene, with portions of this gene duplicated six times. Comparisons of the Trifolium plastid genome with the Plant Repeat Database and searches for flanking inverted repeats suggest that the high incidence of dispersed repeats and rearrangements is not likely the result of transposition. Trifolium has 19.5 kb of unique DNA distributed among 160 fragments ranging in size from 30 to 494 bp, greatly surpassing the other five sequenced legume plastid genomes in novel DNA content. At least some of this unique DNA may represent horizontal transfer from bacterial genomes. These unusual features provide direction for the development of more complex models of plastid genome evolution. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Construction and characterization of a half million clone BAC library of durum wheat (<Emphasis Type="Italic">Triticum turgidum</Emphasis> ssp. <Emphasis Type="Italic">durum</Emphasis>)

Durum wheat (Triticum turgidum ssp. durum, 2n = 4x = 28, genomes AB) is an economically important cereal used as the raw material to make pasta and semolina. In this paper we present the construction and characterization of a bacterial artificial chromosome (BAC) library of tetraploid durum wheat cv. Langdon. This variety was selected because of the availability of substitution lines that facilitate the assignment of BACs to the A and B genome. The selected Langdon line has a 30-cM segment of chromosome 6BS from T. turgidum ssp. dicoccoides carrying a gene for high grain protein content, the target of a positional cloning effort in our laboratory. A total of 516,096 clones were organized in 1,344 384-well plates and blotted on 28 high-density filters. Ninety-eight percent of these clones had wheat DNA inserts (0.3% chloroplast DNA, 1.4% empty clones and 0.3% empty wells). The average insert size of 500 randomly selected BAC clones was 131 kb, resulting in a coverage of 5.1-fold genome equivalents for each of the two genomes, and a 99.4% probability of recovering any gene from each of the two genomes of durum wheat. Six known copy-number probes were used to validate this theoretical coverage and gave an estimated coverage of 5.8-fold genome equivalents. Screening of the library with 11 probes related to grain storage proteins and starch biosynthesis showed that the library contains several clones for each of these genes, confirming the value of the library in characterizing the organization of these important gene families. In addition, characterization of fingerprints from colinear BACs from the A and B genomes showed a large differentiation between the A and B genomes. This library will be a useful tool for evolutionary studies in one of the best characterized polyploid systems and a source of valuable genes for wheat. Clones and high-density filters can be requested at Communicated by P. LangridgeThe first two authors contributed equally to the investigation     

Construction and characterization of a BIBAC library of <Emphasis Type="Italic">Jatropha curcas</Emphasis> L. and identification of BIBAC clones containing genes associated with fatty acid metabolism

Jatropha curcas L. is a potentially significant bioenergy crop in the tropics and subtropics. Here we present a plant-transformation-competent binary bacterial artificial chromosome (BIBAC) library from Jatropha cultivar YN049-4. This library was constructed with BamH in the vector pCLD04541, consists of 30,720 clones and is arrayed in 80 384-well microtiter plates. Since 92.1% (28,293) of its clones were shown to contain Jatropha DNA inserts with an average size of 131.9 kb, the library is estimated to represent approximately 8.9 haploid genome equivalents of the species, thus providing a greater than 99% probability of discovering a particular single-copy sequence in the library. High-density clone filters were made from a subset of the library and hybridized with nine pairs of overgos designed from genes involved in fatty acid metabolism. Hybridization results showed that eight overgo pairs were able to identify positive clones from the subset of the library, with an average of 5.3 clones per probe, suggesting that it is suitable for Jatropha genomics and genetics research. Because this library, to our knowledge, represents the first large-insert, plant-transformation-competent BIBAC library for Jatropha, it will provide a vital resource for advanced genomics research, including isolation and characterization of genes and quantitative trait loci, integrative physical mapping and genome sequencing.     

The karyotype and 5S rRNA genes from Spanish individuals of the bat species <Emphasis Type="Italic">Rhinolophus</Emphasis><Emphasis Type="Italic">hipposideros</Emphasis> (Rhinolophidae; Chiroptera)

The karyotype of individuals of the species Rhinolophus hipposideros from Spain present a chromosome number of 2n = 54 (NFa = 62). The described karyotype for these specimens is very similar to another previously described in individual from Bulgaria. However, the presence of one additional pair of autosomal acrocentric chromosomes in the Bulgarian karyotype and the differences in X chromosome morphology indicated that we have described a new karyotype variant in this species. In addition, we have analyzed several clones of 1.4 and 1 kb of a PstI repeated DNA sequence from the genome of R. hipposideros. The repeated sequence included a region with high identity with the 5S rDNA genes and flanking regions, with no homology with GenBank sequences. Search for polymerase III regulatory elements demonstrated the presence of type I promoter elements (A-box, Intermediate Element and C-box) in the 5S rDNA region. In addition, upstream regulatory elements, as a D-box and Sp1 binding sequences, were present in flanking regions. All data indicated that the cloned repeated sequences are the functional rDNA genes from this species. Finally, FISH demonstrated the presence of rDNA in nine chromosome pairs, which is surprising as most mammals have only one carrier chromosome pair.     

A yeast artificial chromosome (YAC) library containing 10 haploid chicken genome equivalents

We report the construction of a YAC library that provides 10-fold redundant coverage of the chicken genome. The library was made by transforming S. cerevisiae AB1380 with YAC constructs consisting of partially digested and size fractionated (>465 kb) EcoRI genomic fragments ligated to pCGS966 YAC vector arms. The primary library provides 8.5-fold redundant coverage and consists of 16,000 clones arrayed in duplicate 96-well microtiter plates and gridded on nylon membranes at high density (18,000 clones/484cm²). The average insert size, 634 kb, was derived from size fractionation of a random sample of 218 YACs. Hybridization of five unlinked chicken genes to colony blots revealed six or more positive clones. This is consistent with the theoretical expectation from average insert sizes and number of clones. A second collection of clones consists of a further 20,000 colonies, of which 20% contain inserts larger than 450 kb and 80% contain only coligated vector arms. We estimate that these clones provide a further 1.5-fold redundant coverage of the chicken genome; thus, the total collection of 36,000 clones provides 10-fold redundant coverage of the chicken genome. The library is intended as a resource for fine-scale analysis of the organization of the chicken genome and is presently being used to construct a contig map of chicken Chromosome (Chr) 16, which contains the MHC and nucleolar organizer. Received: 15 July 1996 / Accepted: 20 November 1996     

Construction and characterization of normalized cDNA library of maize inbred MO17 from multiple tissues and developmental stages

A comprehensive complementary DNA (cDNA) library is a valuable resource for functional genomics. In this study, we set up a normalized cDNA library of Mo17 (MONL) by saturation hybridization with genomic DNA, which contained expressed genes of eight tissues and organs from inbred Mo17 of maize (Zea mays L.). In this library, the insert sizes range from 0.4 kb to 4 kb and the average size is 1.18 kb. 10 830 clones were spotted on nylon membrane to make a cDNA microarray. Randomly picked 300 clones from the cDNA library were sequenced. The cDNA microarray was hybridized with pooled tissue mRNA probes or housekeeping gene cDNA probes. The results showed the normalized cDNA library comprehensively includes tissue-specific genes in which 71% are unique ESTs (expressed sequence tags) based on the 300 sequences analyzed. Using the BLAST program to compare the sequences against online nucleotide databases, 88% sequences were found in ZmDB or NCBI, and 12% sequences were not found in existing nucleotide databases. More than 73% sequences are of unknown function. The library could be extensively used in developing DNA markers, sequencing ESTs, mining new genes, identifying positional cloning and candidate genes, and developing microarrays in maize genomics research.__________From Molekulyarnaya Biologiya, Vol. 39, No. 2, 2005, pp. 198–206.Original English Text Copyright © 2005 by Z. Zhang, F. Zhang, Tang, Pi, Zheng.This article was submitted by the authors in English.     

Construction and characterization of a soybean yeast artificial chromosome library and identification of clones for the<Emphasis Type="Italic"> Rps6</Emphasis> region

We report the construction and characterization of the first soybean yeast artificial chromosome (YAC) library using high-molecular weight DNA isolated from leaf nuclei of the cultivar Conrad 94 that carries Phytophthora resistance genes Rps1-k and Rps6. The quality of this library has been evaluated through analysis of 393 randomly selected YAC clones. The library consists of 36,864 clones, of which 19,956 carry single soybean YACs with an average size of about 285 kb. The library represents approximately five soybean genome equivalents. The probability of finding any soybean sequences from this library is about 0.99. The library was screened for 43 SSR markers representing the whole soybean genome. We were able to identify positive YAC pools for 95% of the SSR markers. Two YAC clones carrying molecular markers linked to the Rps6 gene were identified. The YAC library reported here would be a useful resource for map-based cloning of agronomically important soybean genes and also to complement the effort towards construction of the physical map for the soybean genome.     

Development of a BAC library for yellow-poplar (Liriodendron tulipifera) and the identification of genes associated with flower development and lignin biosynthesis

Liriodendron tulipifera L., a member of the Magnoliaceae, occupies an important phylogenetic position as a basal angiosperm that has retained numerous putatively ancestral morphological characters, and thus has often been used in studies of the evolution of flowering plants and of specific gene families. However, genomic resources for these early branching angiosperm lineages are very limited. In this study, we describe the construction of a large-insert bacterial artificial chromosome (BAC) library from L. tulipifera. Flow cytometry estimates that this nuclear genome is approximately 1,802 Mbp per haploid genome (±16 SD). The BAC library contains 73,728 clones, a 4.8-fold genome coverage, with an average insert size of 117 kb, a chloroplast DNA content of 0.2%, and little to no bacterial sequences nor empty vector content clones. As a test of the utility of this BAC library, we screened the library with six single/low-copy genic probes. We obtained at least two positive clones for each gene and confirmed the clones by DNA sequencing. A total of 182 paired end sequences were obtained from 96 of the BAC clones. Using BLAST searches, we found that 25% of the BAC end sequences were similar to DNA sequences in GenBank. Of these, 68% shared sequence with transposable elements and 25% with genes from other taxa. This result closely reflected the content of random sequences obtained from a small insert genomic library for L. tulipifera, indicating that the BAC library construction process was not biased. The first genomic DNA sequences for Liriodendron genes are also reported. All the Liriodendron genomic sequences described in this paper have been deposited in the GenBank data library. The end sequences from shotgun genomic clones and BAC clones are under accession DU169330–DU169684. Partial sequences of Gigantea, Frigida, LEAFY, cinnamyl alcohol dehydrogenase, 4-coumarate:CoA ligase, and phenylalanine ammonia-lyase genes are under accession DQ223429–DQ223434. Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users.