A long-range physical map of human Chromosome 21q22.1 band from the YAC continuum

The human Chromosome (Chr) 21q22.1 region contains several genes for cytokines and neurotransmitters and the gene for superoxide dismutase (mutant forms of which can cause familial amyotrophic lateral sclerosis). A region of approximately 5.8 Mb encompassing D21S82 and the glycinamide ribonucleotide transformylase (GART) loci was covered by overlapping YAC clones, which were contiguously ordered by clone walking with sequence-tagged site (STSs). A total of 76 markers, including 29 YAC end-specific STSs, were unambiguously ordered in this 5.8-Mb region, and the average interval between markers was 76 kb. Restriction maps of the YAC clones with rare-cutting enzymes were simultaneously prepared, and the restriction sites were aligned to obtain a consensus restriction map of the proximal region of the 21q22.1 band. The restriction map made from 44 overlapping YACs contains 54 physically assigned STSs. By integrating the consensus map of the adjacent 1.8-Mb region, we obtained a fine physical map spanning 6.5 Mb of human Chr 21q22.1. This map contains 24 precisely positioned end-specific STSs and 12 NotI-linking markers. More than 39 potential CpG islands were identified in this region and were found to be unevenly distributed. This physical map and the YACs should be useful as a reference map and as a resource for further structural analysis of the Giemsa-negative band (R-band) of Chr 21q22.1. Received: 1 September 1995 / Accepted: 21 November 1995     

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 long-range YAC physical map spanning the 10-cM region between the markers D18Mit109 and D18Mit68 on mouse proximal chromosome 18.

Four yeast artificial chromosome (YAC) contigs, physically approximately 8 Mb, have been constructed spanning a 10-cM region on mouse proximal chromosome 18 and include the sites of 21 known genes, including those near the twirler (Tw) locus and the recently isolated Niemann-Pick type C1 (npc1) gene, formerly designated as the spm locus. This physical map consists of 49 YAC clones that cover roughly 15% of the chromosome. The physical order of 38 microsatellite sequence-tagged sites (STSs) could be assembled and confirmed based on their presence or absence in individual YACs, from proximal D18Mit109 through distal D18Mit68. These YACs provide an important resource for the further characterization and identification of known and unknown genes. The physical map has been integrated with our previously published genetic linkage map and showed an average genetic to physical distance of cM/Mb > 1.1.     

Construction of YAC Contigs on Rice Chromosome 5

A physical map of rice chromosome 5 was constructed with yeastartificial chromosome (YAC) clones along a high-resolution molecularlinkage map carrying 118 DNA markers distributed over 123.7cM of genomic DNA. YAC clones have been identified by colonyand Southern hybridization for 105 restriction fragment lengthpolymorphism (RFLP) markers and by polymerase chain reaction(PCR) screening for 8 sequence-tagged site (STS) markers and5 randomly amplified polymorphic DNA (RAPD) markers. Of 458YACs, 235 individual YACs with an average insert length of 350kb were selected and ordered on chromosome 5 from the YAC library.Forty-eight contigs covering nearly 21 Mb were formed on thechromosome 5; the longest one was 6 cM and covered 1.5 Mb. Thelength covered with YAC clones corresponded to 62% of the totallength of chromosome 5. There were many multicopy sequencesof expressed genes on chromosome 5. The distribution of manycopies of these expressed gene sequences was determined by YACSouthern hybridization and is discussed. A physical map withthese characteristics provides a powerful tool for elucidationof genome structure and extraction of useful genetic informationin rice.     

Integrated YAC/STS Physical and Genetic Map of 22.5 Mb of Human Xq24–q26 at 56-kb Inter-STS Resolution

A yeast artificial chromosome sequence-tagged site-based (YAC/STS) physical map of 22.5 Mb of the Xq24–q26 cytogenetic band region of the human X chromosome has been assembled. DNA coverage includes 857 large-insert clones formatted with 405 STSs to provide ninefold depth of DNA. At five points, no bridging clones have been recovered from 20 X-chromosome equivalents of human DNA in YACs or bacterial clones, but the placement of 25 (“CA”)_npolymorphic markers permits the ordering of contigs by comparison with the genetic linkage map and radiation hybrid data. The map localizes the X3000 translocation breakpoint and six genes (ANT2, NDUFA1, LAMP2, OCRL, IGSF1, and HDGF) at better than 100-kb resolution. The relatively gene-poor nature of the region is consistent with relatively low uniform 34–42% GC content in STSs across nearly all of the region.     

Construction and characterization of a yeast artificial chromosome library containing 1.5 equivalents of human chromosome 21.

A library of yeast artificial chromosomes (YACs) was constructed from a human/hamster somatic cell hybrid containing human chromosome 21 (q11-qter). Cells were embedded in agarose, and the DNA was partially digested with EcoRI, released into solution by agarase treatment of the agarose plugs, ligated into pYAC4, and transferred into yeast. Double screening of the yeast transformants with human and hamster genomic DNA allowed the selection of clones hybridizing only with human DNA. The library consists of 321 clones, amounting to 1.5 equivalents (61 Mb) of chromosome 21. The mean YAC size calculated from 178 clones is 190 +/- 100 kb. Screening of the library with eight sequence-tagged sites gave six positives. Among 21 YACs tested by in situ hybridization, 17 mapped to chromosome 21.     

人类YAC库PCR三维筛选体系的建立及质量考核

为了在知道某个区域、位点、基因或ＤＮＡ片段的部分信息后,能从ＣＥＰＨＹＡＣ库中筛选出与其对应的ＹＡＣ克隆,为进一步研究奠定基础,需要建立一个筛选体系。本文概述了这一筛选体系的建立过程。随后,用两对与已知基因对应的引物进行了筛选验证工作,证明了这一体系的可用性,同时提出了以后筛选的途径,即首先筛选ＹＡＣ库的ＭｅｇａＹＡＣ部分,并以５块板为一组进行筛选。另外,运用荧光原位杂交技术（ＦＢＨ）,对ＣＥＰＨＹＡＣ库的质量及其第一代人类基因组物理图谱进行了考察。我们取２６个ＹＡＣ克隆进行ＦＩＳＨ定位,结果其中嵌合体１３个,占５０％。定位错误的克隆有６个,占２３％。非嵌合体且定位正确的共９个,占３５％。     

Sequence-tagged sites (STSs) spanning 4p16.3 and the Huntington disease candidate region.

The generation of sequence-tagged sites (STSs) has been proposed as a unifying approach to correlating the disparate results generated by genetic and various physical techniques being used to map the human genome. We have developed an STS map to complement the existing physical and genetic maps of 4p16.3, the region containing the Huntington disease gene. A total of 18 STSs span over 4 Mb of 4p16.3, with an average spacing of about 250 kb. Eleven of the STSs are located within the primary candidate HD region of 2.5 Mb between D4S126 and D4S168. The availability of STSs makes the corresponding loci accessibility to the general community without the need for distribution of cloned DNA. These STSs should also provide the means to isolate yeast artificial chromosome clones spanning the HD candidate region.     

Application of Interspersed Repetitive Sequence Polymerase Chain Reaction for Construction of Yeast Artificial Chromosome Contigs

Construction of physical maps across candidate regions is one of the rate-limiting steps of positional cloning projects. To date, most physical maps have been constructed by polymerase chain reaction (PCR)-based sequence-tagged site (STS) content mapping. While effective, this technique has a number of disadvantages including problems with yeast artificial chromosome (YAC) chimerism, the time and effort required to generate new STSs from YAC ends, the cost of primer synthesis for large contiging projects, and the time, effort, and expense necessary for screening each STS in the two-tiered hierarchical YAC library screening format. An alternative strategy, interspersed repetitive sequence (IRS) PCR genomics, alleviates many of these constraints. Clonal overlap is detected by hybridization of individual IRS-PCR products to IRS-PCR product pools of the three-dimensional coordinate pools of YAC libraries in dot-blot format. Entire libraries can be screened in a single step, and multiple libraries can be screened simultaneously. Cloning YAC fragments, sequencing, and primer generation are eliminated, increasing the efficiency of contig construction and reducing the expense. In addition, the genomic location of the individual IRS-PCR products can also be simultaneously determined by screening either interspecific backcrosses or radiation hybrid panels, in dot-blot format, confirming contig extension in the region of interest.     

1.5-Mb YAC Contig in Xq28 Formatted with Sequence-Tagged Sites and Including a Region Unstable in the Clones

A contig of 20 yeast artificial clones (YACs) has been assembled across 1.5 Mb of Xq28 and formatted with nine previously reported probes and nine STSs developed from the sequence of probes and end fragments of YACs. YAC end fragments were obtained by subcloning, Alu-vector PCR, or primer-ligation PCR methods. Eighteen of the YACs were recovered from a library specific for Xq24-q28; two that fill a gap were obtained from a second library made from total human DNA. One region, containing probes pX78c and 2A1.1, was unstable in YACs, but it was possible to generate a self-consistent map of DNA over the entire contig. Overlaps were confirmed by Southern blot analyses of YAC DNAs, and pulsed-field gel electrophoresis confirmed the extent of the contig and identified at least four CpG islands in the region.     

Yeast Artificial Chromosome Clones of Rice Chromosome 2 Ordered Using DNA Markers

Yeast artificial chromosome (YAC) clones were ordered for thephysical mapping of rice chromosome 2, the last of the 12 ricechromosomes to be assigned YACs by the Rice Genome ResearchProgram. A total of 128 restriction fragment length polymorphismmarkers and 4 sequence-tagged site (STS) markers located onour high-density genetic map were used for YAC clone landing.By colony/Southern hybridization and polymerase chain reactionscreening, a total of 239 individual YACs were selected fromour YAC library of 6934 clones covering six genome equivalents.The YACs located on the corresponding marker positions in thelinkage map formed 43 contigs and islands and were estimatedto encompass about 50% of the length of rice chromosome 2.     

Walking, Cloning, and Mapping with YACs in 3q27: Localization of Five ESTs Including Three Members of the Cystatin Gene Family and Identification of CpG Islands

Using yeast artificial chromosomes, we have generated a high-resolution physical map for 2.7 Mb of human chromosomal region 3q27. The YAC clones group into three contigs, one of which has also been linked to the CEPH YAC contig map of human chromosome 3. Fluorescencein situhybridization has been used to order the contigs on the chromosome and to estimate the distance between them. Expressed sequence tags for five genes, including three members of the cystatin gene family and a gene thought to be involved in B-cell non-Hodgkin lymphoma, have been placed within the YAC contigs, and 12 putative CpG islands have been identified. These YACs provide a useful resource to complete the physical mapping of 3q27 and to begin identification and characterization of further genes that are located there.     

Single-strand conformation polymorphism of sequence-tagged site markers based on partial sequences of cDNA clones in Cryptomeria japonica

Sixty-seven sequence-tagged site (STS) markers were identified from partial sequences of cDNA clones obtained from the inner bark of Cryptomeria japonica. Polymorphisms of the STSs were investigated for the parental clones of a mapping population, Haara and Kumotooshi, using both single-strand conformation polymorphism (SSCP) and sequencing analysis. Twenty-two STSs showed nucleotide differences between Haara and Kumotooshi, of which 19 STS differences were detectable under the electrophoresis conditions we used here. We also analyzed SSC-polymorphism in 10 additional clones derived from various Japanese regions to evaluate the usefulness of the STSs developed here among other populations of C. japonica. Twenty-five, about 40%, of the STSs showed polymorphism under selected electrophoresis conditions. The genotype segregation for 19 STSs was investigated among the Haara x Kumotooshi F(1) population, and these STS markers were mapped on a linkage map. SSCP analysis of STSs was efficient in terms of cost and time, and it allows detection of a sufficiently high proportion of polymorphisms to provide a convenient means for mapping of expressed sequences on a linkage map and for studying various aspects of population genetics.     

An Integrated Genetic and Physical Map of the Autosomal Recessive Polycystic Kidney Disease Region

Autosomal recessive polycystic kidney disease is one of the most common hereditary renal cystic diseases in children. Genetic studies have recently assigned the only known locus for this disorder, PKHD1, to chromosome 6p21–p12. We have generated a YAC contig that spans 5 cM of this region, defined by the markers D6S1253–D6S295, and have mapped 43 sequence-tagged sites (STS) within this interval. This set includes 20 novel STSs, which define 12 unique positions in the region, and three ESTs. A minimal set of two YACs spans the segment D6S465–D6S466, which contains PKHD1, and estimates of their sizes based on information in public databases suggest that the size of the critical region is <3.1 Mb. Twenty-eight STSs map to this interval, giving an average STS density of <1/150 kb. These resources will be useful for establishing a complete trancription map of the PKHD1 region.     

Autosomal recessive spastic ataxia of Charlevoix-Saguenay (ARSACS): high-resolution physical and transcript map of the candidate region in chromosome region 13q11

Autosomal recessive spastic ataxia of Charlevoix-Saguenay (ARSACS or SACS) is a neurodegenerative disease frequent in northeastern Québec. In a previous study, we localized the disease gene to chromosome region 13q11 by identifying excess sharing of a marker allele in patients followed by linkage analysis and haplotyping. To create a detailed physical map of this region, we screened CEPH mega-YACs with 41 chromosome 13 sequence-tagged-sites (STSs) known to map to 13q11-q12. The YAC contig, composed of 27 clones, extends on the genetic map from D13S175 to D13S221, an estimated distance of at least 19.3 cM. A high-resolution BAC and PAC map that includes the ARSACS critical region flanked by D13S1275 and D13S292 was constructed. These YAC and BAC/PAC maps allowed the accurate placement of 29 genes and ESTs previously mapped to the proximal region of chromosome 13q. We confirmed the position of two candidate genes within the critical region and mapped the other 27 genes and ESTs to nearby intervals. Six BAC/PAC clones form a contig between D13S232 and D13S787 for sequencing within the ARSACS critical region.     

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.