Project description:High resolution BAC array used to study changes in the copy number of chromosome 21 in Acute Meyloid Leukemia patients Genomic DNA from patients as well as from normal donors were differentially labelled and hybridized on the array 36 RPCI-11 BAC clones covering the q-arm of chromosome21 from position15.1MB(close to the centromere)to the telomeric position 46.9 MB with an average gap between clones of 800 kb (range 346-1593 kb)In addition 23 randomly selected clones, each representing 1 of the remaining chromosomes1-20,22,X and YPositions of genes and BAC clones were determined according to the NCBI (http://www.ncbi.nlm.nih.gov/mapview) 59 BAC clones spotted in 6 replicas for a total 354 spots on GAPII corning glass slides using Affymetrix GMS417 Affymetrix Arrayer with 4-ring&pin configuration. (Affymetrix,Santa Clara, CA). Purified clones spotted in 50%DMSO DNA Isolation of these clones was performed from bacterial culture (250ml) using Qiagen midi kit (Qiagen, Valencia CA) gDNA from AML patients and healthy controls was extracted and labelleb according to the published protocol by JR Pollack in Nature Genetics vol.23 Sep.99, also available http://cmgm.stanford.edu/pbrown/protocols/4_genomic.html Fluorescence intensity ratios were measured in control experiments (reference versus reference hybridization) to weight DNA Amplification or deletion Fluorescence ratio >1 indicates amplification, Fluorescence ratio <1 indicate deletion Mean of the background corrected pixel-by-pixel fluorescence ratio between the two dyes at each spot was obtained by genePix software. Series_platform_id: my_array13 Series_submitter weblink: www.dnaarrays.org Keywords: other

Project description:Cytogenetic and molecular genetic analyses have shown that the 12q22 region is recurrently deleted in male germ cell tumors (GCTs), suggesting that this site may harbor a tumor suppressor gene (TSG). Previous loss of heterozygosity (LOH) analyses identified a consensus minimal deleted region between the markers D12S377 and D12S296, and a YAC clone contig covering the region was generated. Here, we describe a high-resolution sequence-ready physical map of this contig covering a 3-Mb region. The map comprised of 52 cosmids, 49 PACs, and 168 BACs that were anchored to the previous YAC contig; 99 polymorphic, nonpolymorphic, EST, and gene-based markers are now placed on this map in a unique order. Of these, 61 markers were isolated in the present study, including one that was polymorphic. In addition, we have narrowed the minimal deletion to approximately 830 kb between D12S1716 (proximal) and P382A8-AG (distal) by LOH analysis of 108 normal-tumor DNAs from GCT patients using 21 polymorphic STSs. These physical and deletion maps should prove useful for identification of the candidate TSG in GCTs, provide framework to generate complete DNA sequence, and ultimately generate a gene map of this segment of the chromosome 12. [The sequence data described in this paper have been submitted to the Genome Survey Sequence under accession nos. AQ254896-AQ254955 and AQ269251-AQ269266. Online supplementary material is available at http://www.genome.org]

Project description:The bovine RPCI-42 BAC library was screened to construct a sequence-ready ~4 Mb single contig of 92 BAC clones on BTA 1q12. The contig covers the region between the genes KRTAP8P1 and CLIC6. This genomic segment in cattle is of special interest as it contains the dominant gene responsible for the hornless or polled phenotype in cattle. The construction of the BAC contig was initiated by screening the bovine BAC library with heterologous cDNA probes derived from 12 human genes of the syntenic region on HSA 21q22. Contig building was facilitated by BAC end sequencing and chromosome walking. During the construction of the contig, 165 BAC end sequences and 109 single-copy STS markers were generated. For comparative mapping of 25 HSA 21q22 genes, genomic PCR primers were designed from bovine EST sequences and the gene-associated STSs mapped on the contig. Furthermore, bovine BAC end sequence comparisons against the human genome sequence revealed significant matches to HSA 21q22 and allowed the in silico mapping of two new genes in cattle. In total, 31 orthologues of human genes located on HSA 21q22 were directly mapped within the bovine BAC contig, of which 16 genes have been cloned and mapped for the first time in cattle. In contrast to the existing comparative bovine-human RH maps of this region, these results provide a better alignment and reveal a completely conserved gene order in this 4 Mb segment between cattle, human and mouse. The mapping of known polled linked BTA 1q12 microsatellite markers allowed the integration of the physical contig map with existing linkage maps of this region and also determined the exact order of these markers for the first time. Our physical map and transcript map may be useful for positional cloning of the putative polled gene in cattle.

Project description:BackgroundDevelopment of breast cancer is a multistage process influenced by hormonal and environmental factors as well as by genetic background. The search for genes underlying this malignancy has recently been highly productive, but the etiology behind this complex disease is still not understood. In studies using animal cancer models, heterogeneity of the genetic background and environmental factors is reduced and thus analysis and identification of genetic aberrations in tumors may become easier. To identify chromosomal regions potentially involved in the initiation and progression of mammary cancer, in the present work we subjected a subset of experimental mammary tumors to cytogenetic and molecular genetic analysis.MethodsMammary tumors were induced with DMBA (7,12-dimethylbenz[a]anthrazene) in female rats from the susceptible SPRD-Cu3 strain and from crosses and backcrosses between this strain and the resistant WKY strain. We first produced a general overview of chromosomal aberrations in the tumors using conventional kartyotyping (G-banding) and Comparative Genome Hybridization (CGH) analyses. Particular chromosomal changes were then analyzed in more details using an in-house developed BAC (bacterial artificial chromosome) CGH-array platform.ResultsTumors appeared to be diploid by conventional karyotyping, however several sub-microscopic chromosome gains or losses in the tumor material were identified by BAC CGH-array analysis. An oncogenetic tree analysis based on the BAC CGH-array data suggested gain of rat chromosome (RNO) band 12q11, loss of RNO5q32 or RNO6q21 as the earliest events in the development of these mammary tumors.ConclusionsSome of the identified changes appear to be more specific for DMBA-induced mammary tumors and some are similar to those previously reported in ACI rat model for estradiol-induced mammary tumors. The later group of changes is more interesting, since they may represent anomalies that involve genes with a critical role in mammary tumor development. Genetic changes identified in this work are at very small scales and thus may provide a more feasible basis for the identification of the target gene(s). Identification of the genes underlying these chromosome changes can provide new insights to the mechanisms of mammary carcinogenesis.

Project description:We designed a targeted-array called GOLD (Gain or Loss Detection) Chip consisting of 900 FISH-mapped non-overlapping BAC clones spanning the whole genome to enhance the coverage of 66 unique human genomic regions involved in well known microdeletion/microduplication syndromes. The array has a 10 Mb backbone to guarantee the detection of the aneuploidies, and has an implemented resolution for telomeres, and for regions involved in common genomic diseases. In order to evaluate clinical diagnostic applicability of GOLDChip, analytical validity was carried-out via retrospective analysis of DNA isolated from a series of cytogenetically normal amniocytes and cytogenetically abnormal DNA obtained from cultured amniocytes, peripheral blood and/or cell lines. We recruited 47 DNA samples corresponding to pathologies with significant frequencies (Cri du Chat syndrome, Williams syndrome, Prader Willi/Angelman syndromes, Smith-Magenis syndrome, DiGeorge syndrome, Miller-Dieker syndrome, chromosomes 13, 18 and 21 trisomies). We set up an experimental protocol that allowed to identify chromosomal rearrangements in all the DNA samples analyzed. Our results provide evidence that our targeted BAC array can be used for the identification of the most common microdeletion syndromes and common aneuploidies.

Project description:High resolution BAC array used to study changes in the copy number of chromosome 21 in Acute Meyloid Leukemia patients Genomic DNA from patients as well as from normal donors were differentially labelled and hybridized on the array 36 RPCI-11 BAC clones covering the q-arm of chromosome21 from position15.1MB(close to the centromere)to the telomeric position 46.9 MB with an average gap between clones of 800 kb (range 346-1593 kb)In addition 23 randomly selected clones, each representing 1 of the remaining chromosomes1-20,22,X and YPositions of genes and BAC clones were determined according to the NCBI (http://www.ncbi.nlm.nih.gov/mapview) 59 BAC clones spotted in 6 replicas for a total 354 spots on GAPII corning glass slides using Affymetrix GMS417 Affymetrix Arrayer with 4-ring&pin configuration. (Affymetrix,Santa Clara, CA). Purified clones spotted in 50%DMSO DNA Isolation of these clones was performed from bacterial culture (250ml) using Qiagen midi kit (Qiagen, Valencia CA) gDNA from AML patients and healthy controls was extracted and labelleb according to the published protocol by JR Pollack in Nature Genetics vol.23 Sep.99, also available http://cmgm.stanford.edu/pbrown/protocols/4_genomic.html Fluorescence intensity ratios were measured in control experiments (reference versus reference hybridization) to weight DNA Amplification or deletion Fluorescence ratio >1 indicates amplification, Fluorescence ratio <1 indicate deletion Mean of the background corrected pixel-by-pixel fluorescence ratio between the two dyes at each spot was obtained by genePix software. Series_platform_id: my_array13 Series_submitter weblink: www.dnaarrays.org

Project description:BackgroundMicroarray-based comparative genomic hybridization (aCGH) is a powerful diagnostic tool for the detection of DNA copy number gains and losses associated with chromosome abnormalities, many of which are below the resolution of conventional chromosome analysis. It has been presumed that whole-genome oligonucleotide (oligo) arrays identify more clinically significant copy-number abnormalities than whole-genome bacterial artificial chromosome (BAC) arrays, yet this has not been systematically studied in a clinical diagnostic setting.ResultsTo determine the difference in detection rate between similarly designed BAC and oligo arrays, we developed whole-genome BAC and oligonucleotide microarrays and validated them in a side-by-side comparison of 466 consecutive clinical specimens submitted to our laboratory for aCGH. Of the 466 cases studied, 67 (14.3%) had a copy-number imbalance of potential clinical significance detectable by the whole-genome BAC array, and 73 (15.6%) had a copy-number imbalance of potential clinical significance detectable by the whole-genome oligo array. However, because both platforms identified copy number variants of unclear clinical significance, we designed a systematic method for the interpretation of copy number alterations and tested an additional 3,443 cases by BAC array and 3,096 cases by oligo array. Of those cases tested on the BAC array, 17.6% were found to have a copy-number abnormality of potential clinical significance, whereas the detection rate increased to 22.5% for the cases tested by oligo array. In addition, we validated the oligo array for detection of mosaicism and found that it could routinely detect mosaicism at levels of 30% and greater.ConclusionsAlthough BAC arrays have faster turnaround times, the increased detection rate of oligo arrays makes them attractive for clinical cytogenetic testing.

Project description:In this study 405 patients with unexplained mental retardation and 89 unaffected parents were analyzed for DNA copy-number changes using a tiling-resolution genomewide microarray containing 32,447 BACs. This series contains 367 slides from 315 individuals previously not reported, plus an additional 239 slides from 179 individuals previously reported in the series GSE3191. Keywords: array CGH

Project description:We report the construction of a 1.5-Mb-resolution radiation hybrid map of the domestic cat genome. This new map includes novel microsatellite loci and markers derived from the 2X genome sequence that target previous gaps in the feline-human comparative map. Ninety-six percent of the 1793 cat markers we mapped have identifiable orthologues in the canine and human genome sequences. The updated autosomal and X-chromosome comparative maps identify 152 cat-human and 134 cat-dog homologous synteny blocks. Comparative analysis shows the marked change in chromosomal evolution in the canid lineage relative to the felid lineage since divergence from their carnivoran ancestor. The canid lineage has a 30-fold difference in the number of interchromosomal rearrangements relative to felids, while the felid lineage has primarily undergone intrachromosomal rearrangements. We have also refined the pseudoautosomal region and boundary in the cat and show that it is markedly longer than those of human or mouse. This improved RH comparative map provides a useful tool to facilitate positional cloning studies in the feline model.

Project description:DNA copy number analysis of 67 fresh frozen chondrosarcoma biopsies using 32k BAC and 244k oligo array CGH. Genomic imbalances, in most tumors affecting large regions of the genome, were found in 90% of the cases. Although rare, recurrent amplifications were found at 8q24.21-q24.22 and 11q22.1-q22.3, and homozygous deletions of loci previously implicated in chondrosarcoma development affected the CDKN2A, EXT1 and EXT2 genes. Keywords: chondrosarcoma, array comparative genomic hybridization