Rapid and reliable screening of a tomato YAC library exclusively based on PCR

An improved procedure is presented to select clones from a tomato yeast artificial chromosome (YAC) library. The procedure is based exlcusively on the polymerase chain reaction (PCR). We combined DNA from approximately 36,000 YAC clones in pools containing 96-single YAC clones from one master plate and further in super pools representing 10 master plates. This pooling strategy allows the selection of single YAC clones homologous to a target sequence after three rounds of PCR using super pools, single pools, and single YAC clones as a template. Single YAC clones were spheroplasted prior to the third PCR round in order to omit the conventional radioactive colony hybridization step. To date, we applied this PCR-based selection strategy to isolate clones homologousto ten different sequence-tagged sites (STS) that are linked to genes targeted for map-based cloning. The selection of YAC clones can be readily accomplished within three days. The PCR-based screening strategy is easy to set up and contributes to a further acceleration of the construction of YAC contigs.     

Construction of a potato YAC library and identification of clones linked to the disease resistance loci R1 and Gro1

 A yeast artificial chromosome (YAC) library was constructed from high-molecular-weight DNA of potato (Solanum tuberosum). Potato DNA fragments obtained after complete digestion with four different rare-cutter restriction enzymes were cloned using the pYAC-RC vector. The library consists of 21 408 YAC clones with an average insertion size of 140 kb. The frequency of YAC clones having insertions of chloroplast or mitochondrial DNA was estimated to be 0.5% and 0.3%, respectively. The YAC library was screened by PCR with 11 DNA markers detecting single genes or small gene families in the potato genome. YACs for 8 of the 11 markers were detected in the library. Using 2 markers that are linked to the resistance genes R1 and Gro1 of potato, we isolated two individual YAC clones. One of these YAC clones was found to harbour one member of a small family of candidate genes for the nematode resistance gene Gro1. Received : 5 May 1997 / Accepted : 20 May 1997     

Detection and characterization of "chimeric" yeast artificial chromosome clones by fluorescent in situ suppression hybridization.

"Chimeric" yeast artificial chromosomes (YACs) are clones containing two or more noncontiguous segments of DNA and represent the most common artifact found in total genomic YAC libraries currently used for large-scale genome mapping. These YACs create spurious mapping information that complicates the construction of YAC contigs and leads to erroneous maps during chromosome walks. The presence of these artifactual clones necessitates laborious and time-consuming characterization of each isolated YAC clone, either by comparison of the physical map of the YAC with the corresponding source genomic DNA, or by demonstrating discrepant chromosomal origins for the two ends of the YAC by hybridization or polymerase chain reaction (PCR). Here, we describe a rapid and sensitive method for the assessment of YAC colinearity by fluorescence in situ suppression hybridization (FISSH) by utilizing fluorescein-12-dUTP for labeling YAC clones. We have analyzed 51 YACs and found that 43% (22 out of 51) are chimeric and significantly larger (302 kb) than colinear ones (228 kb). One of the 51 YAC clones (2%) examined contains portions of three chromosomes and 2 (4%) seem to map to a chromosome different than that of the identifying STS. FISSH analysis offers a straightforward visualization of the entire YAC insert on the chromosomes and can be used to examine many YACs simultaneously in few days.     

Fluorescence in situ hybridization of YAC clones after Alu-PCR amplification.

Alu-PCR protocols were optimized for the generation of human DNA probes from yeast strains containing yeast artificial chromosomes (YACs) with human inserts between 100 and 800 kb in size. The resulting DNA probes were used in chromosome in situ suppression (CISS) hybridization experiments. Strong fluorescent signals on both chromatids indicated the localization of specific YAC clones, while two clearly distinguishable signals were observed in greater than or equal to 90% of diploid nuclei. Signal intensities were generally comparable to those observed using chromosome-specific alphoid DNA probes. This approach will facilitate the rapid mapping of YAC clones and their use in chromosome analysis at all stages of the cell cycle.     

人基因组YAC克隆DNA的Alu－PCR反应条件的系统研究

在人基因组ＹＡＣ克隆的Ａｌｕ－ＰＣＲ指纹分析中要求ＤＮＡ且扩增带具有ＹＡＣ特征性;在用ＡｌＵ－ＰＣＲ方法对ＹＡＣ克隆中的人类基因组ＤＮＡ片段进行特异的同位素标记时则要求被扩增标记的ＤＮＡ序列在插入片段中具有一定的弥散性。我们建立了两种不同的Ａｌｕ－ＰＣＲ反应体系以满足这一不同要求,并已得到较为满意的结果。根据不同条件下的Ａｌｕ－ＰＣＲ结果,分析了多引发位点ＰＣＲ中的一些现象,并作出了解释。     

Automatable screening of yeast artificial-chromosome libraries based on the oligonucleotide-ligation assay.

The systematic screening of yeast artificial-chromosome (YAC) libraries is the limiting step in many physical mapping projects. To improve the screening throughput for a human YAC library, we designed an automatable strategy to identify YAC clones containing a specific segment of DNA. Our approach combines amplification of the target sequence from pooled YAC DNA by the polymerase chain reaction (PCR) with detection of the sequence by an ELISA-based oligonucleotide-ligation assay (OLA). The PCR-OLA approach eliminates the use of radioactive isotopes and gel electrophoresis, two of the major obstacles to automated YAC screening. Furthermore, the use of the OLA to test for the presence of sequences internal to PCR primers provides an additional level of sensitivity and specificity in comparison to methods that rely solely on the PCR.     

A yeast artificial chromosome contig containing the complete Duchenne muscular dystrophy gene.

A contig of 36 overlapping yeast artificial chromosome (YAC) clones has been constructed for the complete Duchenne muscular dystrophy (DMD) gene in Xp21. The YACs were isolated from a human 48,XXXX YAC library using the DMD cDNA and brain promoter fragments as hybridization probes. The YAC clones were characterized for exon content using HindIII or EcoRI digests, hybridization of individual DMD cDNA probes, and polymerase chain reaction (PCR) amplification of specific exons near the 5' end of the gene. For comparison to the known long-range restriction map of the DMD gene, YAC clones were digested with SfiI and hybridized with DMD cDNA probes. The combined analysis of the exon content and the SfiI map allowed an approximately 3.2-Mb YAC contig to be constructed. The complete 2.4-Mb DMD gene could be represented in a minimum set of 7 overlapping YAC clones.     

Floral chromosomes of Arabidopsis thaliana for detecting low-copy DNA sequences by fluorescence in situ hybridization

Cosmid and plasmid clones containing 11 kb, or more, of genomic DNA sequences were mapped with high efficiencies using fluorescence in situ hybridization (FISH) to mitotic metaphase chromosomes prepared from floral tissues of Arabidopsis thaliana. The chromosomal locations were correlated with the map positions determined by RFLP (restriction fragment length polymorphism) analyses. Almost no signals were detected on the chromosomes of root meristematic tissues when FISH was performed with the same clones as probes. This discrepancy in efficiency of detection is possibly caused by the differences in chromatin structure between the root meristematic tissues and the floral tissues.     

Isolation of the human sex determining region from a Y-enriched yeast artificial chromosome library

We describe the isolation and characterization of yeast artificial chromosome (YAC) clones spanning the male sex determining region on the short arm of the human Y chromosome. The clones were isolated by hybridizing probes in the interval between the genes MIC2 and ZFY to a Y chromosome-enriched YAC library. The YAC clones were consistent with the order of probes established for this interval and may be useful for functional studies of the region in male sex determination. However, many of the YAC clones from this library carried only one arm of the vector ("half-YACs"), deleted sequences from one end, and contained much smaller inserts (148 kb average) than the size of ligated fragments selected by pulsed-field gel electrophoresis (greater than 440 kb). These problems were overcome by protecting DNA with polyamines during YAC library construction and a second Y-enriched YAC library was constructed with an average insert size of 627 kb.     

Description of 31 YAC contigs spanning the majority of Arabidopsis thaliana chromosome 5

In order to generate a physical map of Arabidopsis thaliana chromosome 5, 142 molecular markers mapping to chromosome 5 have been used in colony hybridization experiments with four Arabidopsis, ecotype Columbia, yeast artificial chromosome (YAC) libraries. This resulted in 634 YAC clones being anchored on chromosome 5. Southern blot analysis confirmed their positioning and provided data, which along with knowledge of the sizes of all the YAC clones, enabled the clones to be arranged into 31 contigs. Genetic mapping of markers located within 29 of these contigs on the Landsberg erecta/Columbia recombinant inbred lines allowed positioning of the contigs along the chromosome. A high proportion of the YAC clones were found to contain chimaeric inserts. The availability of this YAC contig map will accelerate chromosome-walking experiments, provide substrates for large-scale genomic sequencing projects and facilitate the mapping of new probes to this chromosome.     

Ordered YAC Clone Contigs Assigned to Rice Chromosomes 3 and 11

Yeast artificial chromosome (YAC) clones were arranged on thepositions of restriction fragment length polymorphism (RFLP)and sequence-tagged site (STS) markers already mapped on thehigh-resolution genetic maps of rice chromosomes 3 and 11. Froma total of 416 and 242 YAC clones selected by colony/Southernhybridization and polymerase chain reaction (PCR) analysis,238 and 135 YAC clones were located on chromosomes 3 and 11,respectively. For chromosomes 3 and 11, 24 YAC contigs and islandswith total coverage of about 46% and 12 contigs and islandswith coverage of about 40%, respectively, were assigned. Althoughmany DNA fragments of multiple copy marker sequences could notbe mapped to their original locations on the genetic map bySouthern hybridization because of a lack of RFLP, the physicalmapping of YAC clones could often assign specific locationsof such multiple copy sequences on the genome. The informationprovided here on contig formation and similar sequence distributionrevealed by ordering YAC clones will help to unravel the genomeorganization of rice as well as being useful in isolation ofgenes by map-based cloning.     

Molecular linkage of the HLA-DR, HLA-DQ, and HLA-DO genes in yeast artificial chromosomes.

Eight major histocompatibility complex (MHC) class II loci and the newly defined Y3/Ring 4 locus were isolated in overlapping yeast artificial chromosome (YAC) clones defining a 420-kb segment of human chromosome 6p21.3. YAC B1D12 spanning 320 kb contained seven of these loci from HLA-DRA to HLA-DQB2. A 330-kb YAC, A148A7, spanned from the HLA-DQA1 locus through the Y3/Ring 4 locus and extended at least 130 kb centromeric of YAC B1D12. Southern blotting demonstrated that YAC B1D12 derived from the HLA-DR3 haplotype and that YAC A148A7 derived from the HLA-DR7 haplotype of the heterozygous library donor. A third 150-kb YAC, A95C5, lay within this contig and contained only the HLA-DRA locus. A fourth 300-kb YAC, A76F11, was isolated by chromosome walking from the telomeric end of YAC B1D12. Probes isolated from the ends of the YAC genomic inserts have been used to confirm overlaps between the clones. These analyses demonstrated that the centromeric end of YAC A76F11 used the same genomic EcoRI cloning site as the telomeric end of YAC A95C5. YAC B1D12 used an EcoRI site only 2.1 kb telomeric of the aforementioned EcoRI site. These data suggest that certain EcoRI sites are used preferentially during construction of the library. These YACs complete the linkage of the DR and DQ subregions of the HLA complex in cloned DNA and provide the substrate for precise analysis of this portion of the class II region.     

A 3.5 genome equivalent multi access YAC library: construction, characterisation, screening and storage.

The construction of a yeast artificial chromosome (YAC) primary gridded library of 35,000 clones from human lymphoblastoid (48,XXXX) cell line DNA is described. The average YAC size is approximately 350kb representing a greater than 3.5 times coverage of the genome. The library is stored at -70 degrees C as gridded clones on nylon filters impregnated with 20% glycerol and as glycerol suspensions of individual clones in microtitre plates providing a prolonged multi-user potential. To date we have used 14 single copy probes to screen this library by colony hybridisation as well as PCR and have isolated between 1 and 5 YAC clones for every probe.     

Isolation and characterization of a yeast artificial chromosome (YAC) contig around the human steroid sulfatase gene.

The region surrounding the steroid sulfatase (STS) locus on Xp22.3 is of particular interest since it represents a deletion hot spot, shares homology with the proximal long arm of the Y chromosome (Yq11.2), and contains genes for several well-described X-linked disorders. Here we describe yeast artificial chromosomes (YACs) covering 450 kb around the STS gene. Eight YAC clones were isolated from a human YAC library. Their STS exon content was determined and the overlap of the clones characterized. Two of the YAC clones were found to contain the entire STS gene. The most proximal and the most distal ends of the YAC contig were cloned but neither of them crossed the breakpoints in any of the previously described patients with entire STS gene deletions. This is consistent with deletions larger than 500 kb in all these patients. One of the YAC clones was found to contain sequences from the STS pseudogene on Yq11.2. Two anonymous DNA sequences, GMGXY19 and GMGXY3, previously mapped in the vicinity of the STS locus, were found within the YAC contig and their assignment with respect to the STS locus was thus possible. This contig is useful for the overlap cloning of the Xp22.3 region and for reverse genetic strategies for the isolation of disease genes in the region. Furthermore, it may provide insight into the molecular mechanisms of deletion and translocation events on Xp22.3 and in the evolution of sex chromosomes.     

Construction of a YAC library from barley cultivar Franka and identification of YAC-derived markers linked to the Rh2 gene conferring resistance to scald (Rhynchosporium secalis).

The Rh2 resistance gene of barley (Hordeum vulgare) confers resistance against the scald pathogen (Rhynchosporium secalis). A high-resolution genetic map of the Rh2 region on chromosome I (7H) was established by the use of molecular markers. Tightly linked markers from this region were used to screen existing and a newly constructed yeast artificial chromosome (YAC) library of barley cv. Franka composed of 45,000 clones representing approximately two genome equivalents. Corresponding YAC clones were identified for most markers, indicating that the combined YAC library has good representation of the barley genome. The contiguous sets of YAC clones with the most tightly linked molecular markers represent entry points for map-based cloning of this resistance gene.     

Characterization of polymorphic loci on a telomeric fragment of DNA from the long arm of human chromosome 7

The 240-kb yeast artificial chromosome (YAC) HTY146 (D7S427) containing the telomere from the q arm of human chromosome 7 was subcloned into the cosmid vector sCOS-1. Cosmid subclones were screened for DNA polymorphisms by Southern blot analysis of restriction digests of DNA from random individuals. Four distinct polymorphisms were characterized. These markers provide a resource for defining the end of the genetic map for the long arm of human chromosome 7.     

Map-based cloning of the tomato genomic region that spans the Sw-5 tospovirus resistance gene in tomato

Two yeast artificial chromosomes (YACs) containing genomic DNA from tomato have been isolated using CT220, an RFLP marker which is tightly linked to the tomato spotted wilt virus resistance gene, Sw-5. High-resolution mapping of the YAC ends and internal YAC probes demonstrated that one of the YAC clones, TY257 (400 kb), spans Sw-5. By chromosome walking in a cosmid library, the position of Sw-5 has been delimited within the YAC to a maximal chromosomal segment of 100 kb, spanned by nine overlapping cosmid clones. Received: 13 March 1997 / Accepted: 11 may 1997     

Cloning and characterization of an alpha 1-antitrypsin like gene 12 KB downstream of the genuine alpha 1-antitrypsin gene

Cosmid clones containing alpha 1-antitrypsin (alpha 1AT) gene sequences were observed to contain alpha 1AT-like sequences approximately 12 kb downstream of the authentic alpha 1AT gene. Restriction mapping suggested the alpha 1AT-like gene lacks promoter sequences. Cosmid clones from one library contained a truncated alpha 1AT-like gene with a deletion encompassing 1745 bp, including the whole exon IV and part of exon V. Sequencing of exon II of this truncated gene revealed a nucleotide homology of 76% but included critical mutations in the start codon (ATG - greater than ATA) and the 3' exon-intron junction. These results strongly suggest that the truncated alpha 1AT-like gene is a pseudogene, which is present at a frequency of 0.30 in the Dutch population.     

Use of repetitive DNA probes as physical mapping strategy in Caenorhabditis elegans.

A method for linking genomic sequences cloned in yeast artificial chromosomes (YACs) has been tested using Caenorhabditis elegans as a model system. Yeast clones carrying YACs with repeated sequences were selected from a C. elegans genomic library, total DNA was digested with restriction enzymes, transferred to nylon membranes and probed with a variety of repetitive DNA probes. YAC clones that overlap share common bands with one or more repetitive DNA probes. In 159 YAC clones tested with one restriction enzyme and six probes 28 overlapping clones were detected. The advantages and limitations of this method for construction of YAC physical maps is discussed.     

Analysis of clones carrying repeated DNA sequences in two YAC libraries of Arabidopsis thaliana DNA

YAC clones carrying repeated DNA sequences from the Arabidopsis thaliana genome have been characterized in two widely used Arabidopsis YAC libraries, the EG library and the EW library. Ribosomal, chloroplast and the paracentromeric repeat sequences are differentially represented in the two libraries. The coordinates of YAC clones hybridizing to these sequences are given. A high proportion of EG YAC clones were classified as containing chimaeric inserts because individual clones carried unique sequences and repetitive sequences originating from different locations in the genome. None of the EW YAC clones analysed were chimaeric in this way. YAC clones carrying tandemly repeated sequences, such as the paracentromeric or rDNA sequences, exhibited a high degree of instability. These observations need to be taken into account when using these libraries in the development of a physical map of the Arabidopsis genome and in chromosome walking experiments.