EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
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The CCND1 gene, localized to chromosome band 11q13, is amplified in approximately 15% of human primary breast tumors. From 30 to 40% of the tumors presenting this amplification show concomitant amplification at the FGFR1 locus in 8p12. Similarly, MDA-MB-134 breast cancer cells bear CCND1 and FGFR1 coamplified, resulting in the formation of a hybrid intrachromosomal amplification assembling 11q13 and 8p12 sequences. To learn whether similar amplified structures arise in breast tumors, we used a two-color FISH approach on interphase nuclei. A cohort of 225 breast tumors was analyzed by Southern blotting and a subset of 12 tumors presenting the 11q13-8p12 coamplification was selected for further study by interphase FISH. In 6/12 tumors the FISH signals for 11q13 and 8p12 probes formed colocalizing clusters of green and red spots in the nuclei. The FISH patterns were identical to those observed on MDA-MB-134 interphase nuclei hybridized with 11q13 and 8p12. These data, suggesting the formation in these tumors of a hybrid amplification domain in which 11q13 and 8p12 sequences are joined, were reinforced by dual-color FISH on extended chromatin showing that the said were sequentially aligned in these tumors. Furthermore, 3/6 nuclei with colocalized 11q13 and 8p12 amplifications showed fusion of centromeric sequences from chromosomes 8 and 11. Our data strongly suggest the occurrence, in approximately 3% of primary breast tumors, of a recurrent rearrangement involving the proximal portions of 8p and 11q and resulting in the formation of a hybrid amplified structure composed of 11q13 and 8p12 sequences.
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PMID:CCND1 and FGFR1 coamplification results in the colocalization of 11q13 and 8p12 sequences in breast tumor nuclei. 966 64

Evaluation of cell morphology by bright field microscopy is the pillar of histopathological diagnosis. The need for quantitative and objective parameters for diagnosis gave rise to the development of morphometric methods. Morphometry combined with spectral imaging provides multi-pixel information from a specimen, which can be used for further image processing and quantitative analysis. The spectroscopic analysis is based on the ability of a stained histological specimen to absorb, reflect, or emit photons in ways characteristic to its interactions with specific dyes. Spectral information obtained from a histological specimen is stored in a cube whose appellate signifies the two spatial dimensions of a flat sample (x and y) and the third dimension, the spectrum, representing the light intensity for every wavelength. By mathematical analysis of the cube database, it is possible to perform the function of spectral-similarity mapping (SSM) which enables the demarcation of areas occupied by the same type of material. Spectral similarity mapping constructs new images of the specimen, revealing areas with similar stain-macromolecule characteristics and enhancing subcellular features. Spectral imaging combined with SSM reveals nuclear organization and identifies specifically the nucleoli domains. Therefore, differentiation stages as well as apoptotic and necrotic conditions are easily quantified. The commercial SpectraCube system was developed for the application of spectral imaging in biology, recording both transmitted light and fluorescence. The SKY technique utilizes the advantages of the SpectraCube for multi probe FISH and chromosome karyotyping, identifying marker chromosomes, detecting subtle chromosome translocations and clarifying complex karyotypes.
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PMID:Spectral imaging for quantitative histology and cytogenetics. 969 Jan 46

A semantic relatedness decision task was used to investigate whether phonological recording occurs automatically and whether it mediates lexical access in visual word recognition and reading. In this task, subjects read a pair of words and decided whether they were related or unrelated in meaning. In Experiment 1, unrelated word-homophone pairs (e.g., LION-BARE) and their visual controls (e.g., LION-BEAN) as well as related word pairs (e.g., FISH-NET) were presented. Homophone pairs were more likely to be judged as related or more slowly rejected as unrelated than their control pairs, suggesting phonological access of word meanings. In Experiment 2, word-pseudohomophone pairs (e.g., TABLE-CHARE) and their visual controls (e.g., TABLE-CHARK) as well as related and unrelated word pairs were presented. Pseudohomophone pairs were more likely to be judged as related or more slowly rejected as unrelated than their control pairs, again suggesting automatic phonological recording in reading.
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PMID:Automatic activation of phonological information in reading: evidence from the semantic relatedness decision task. 970 74

We have used FISH to determine the level of synchronisation in replication timing of four pairs of alleles, unrelated to chromosome 21 (p53, HER2, RB1, and c-myc), in foetal (amniotic fluid) cell samples of Down syndrome and in normal foetuses. All samples derived from the Down syndrome subjects showed large temporal differences in replication timing, in contrast to the high level of synchrony shown in all samples of normal individuals. Thus, as judged by four independent loci which are not associated with chromosome 21, the additional chromosome in the Down syndrome genome induces changes in the replication pattern of an allelic pair: from a synchronous pattern characteristic to concomitantly expressed alleles to an unsynchronised one shown by alleles displaying an allele-specific mode of expression.
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PMID:Asynchronous replication of allelic loci in Down syndrome. 978 Oct 44

Defining boundaries of chromosomal rearrangements at the molecular level would benefit from landmarks that link the cytogenetic map to physical, genetic, and transcript maps, as well as from large-insert FISH probes for such loci to detect numerical and structural rearrangements in metaphase or interphase cells. Here, we determined the locations of 24 genetically mapped CEPH-Mega YACs along the FLpter scale (fractional length from p-telomere) by quantitative fluorescence in situ hybridization analysis. This generated a set of cytogenetically mapped probes for chromosome 17 with an average spacing of about 5 cM. We then developed large-insert YAC, BAC, PAC, or P1 clones to the following 24 known genes, and determined refined map locations along the same FLpter scale: pter-TP53-TOP3-cen-TNFAIP1-ERBB2-TOP2A- BRCA1-TCF11-NME1-HLF-ZNF147/CL N80-BCL5/MPO/SFRS1-TBX2-PECAM1-DDX5/ PRKCA-ICAM2-GH1/PRKAR1A-GRB2-CDK3 /FKHL13-qter. Taken together, these 48 cytogenetically mapped large-insert probes provide tools for the molecular analysis of chromosome 17 rearrangements, such as mapping amplification, deletion, and translocation breakpoints in this chromosome, in cancer and other diseases.
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PMID:Molecular cytogenetic mapping of 24 CEPH YACs and 24 gene-specific large insert probes to chromosome 17. 985 13

The first gene found to be amplified in human glioblastomas was EGFR at 7p12. More recently the MET gene at 7q31 was also reported amplified. We have studied chromosome 7 in a series of 47 glioblastomas by FISH, RFLP and microsatellite analysis. Four per cent (2/47) had 1 centromere, 26% (12/47) 2, 32% (15/47) 3, 4% (2/47) 4, and 34% (16/47) had subpopulations with variable numbers of chromosome 7 centromeres. In 25 of the 47 tumors (53%) the pattern of allelic imbalance observed at each informative locus was similar and in accord with the FISH data, indicating loss or gain of complete chromosome copies. In 32% of tumors (15/47) varying allelic imbalance was seen at different loci along the chromosome indicative of loss or gain of parts of chromosome 7 on a background of disomy, trisomy, tetrasomy, or polysomy. Amplification was studied in an extended series of 121 glioblastomas, and was seen at the 7p12 region in 47 tumors (39%). Forty-two tumors showed amplification of EGFR and 12 of these had extensive amplicons including a number of adjacent loci, always involving only 1 allele. The amplicons of 5 tumors (11%) did not include EGFR, indicating that other unidentified genes in the region are targeted for amplification. Amplification of MET was not found. The findings show that copy number changes of chromosome 7 are common and that a number of genes may be targeted for amplification at 7p12 in glioblastomas.
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PMID:Chromosome 7 rearrangements in glioblastomas; loci adjacent to EGFR are independently amplified. 986 36

By means of comparative genomic hybridization (CGH), we screened 58 primary gastric cancers for changes in copy number of DNA sequences. We detected frequent losses on Ip32-33 (21%), 3p21-23 (22%), 5q14-22 (36%), 6q16 (26%), 9p21-24 (22%), 16q (21%), 17p13 (48%), 18q11-21(33%), and 19(40%). Gains were most often noted at I p36 (22%), 8p22-23 (24%), 8q23-24 (29%), 11q12-13 (24%), 16p(21%), 20p (38%), 20q (45%), Xp21-22(38%), and Xq21-23 (43%), with high-level amplifications at 6p21(2%),7q31(10%), 8p22-23(5%), 8q23-24 (7%), 11q13(4%), 12p12-13(4%), 17q21(2%), 19q12-13(2%), and 20q13(2%). High-level amplification at 8p22-23 has never been reported in any other cancer type and its frequency was as high as that reported for the MYC, MET, and KRAS genes. We narrowed down the smallest common amplicon to 8p23.1 by reverse-painting FISH to prophase chromosomes. Southern blot analysis using one EST marker (D38736) clearly demonstrated that amplification of this exon-like sequence had occurred in all three tumors in which amplifications at 8p22-23 had been detected by CGH. Our data provide evidence for several, previously undescribed, genomic aberrations that are characteristic of gastric cancers.
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PMID:Gains, losses, and amplifications of genomic materials in primary gastric cancers analyzed by comparative genomic hybridization. 1009 27

We report a boy with truncus arteriosus, dysmorphic features, developmental delay, passing hypotonia, short segment Hirschsprung disease (HSCR), and paroxysmal hypoventilation. FISH analysis showed an interstitial deletion in chromosome band 22q11.2 coinciding with the deletions found in DiGeorge syndrome and velocardiofacial syndrome. Mutation scanning of RET, GDNF, EDNRB, and EDN3, genes associated with Hirschsprung disease, showed no aberrations. Since we know of two more patients with velocardiofacial syndrome and HSCR, we hypothesise that a gene responsible for proper development of the enteric nervous system may be included in the 22q11.2 region.
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PMID:A Hirschsprung disease locus at 22q11? 1020 49

In the present study subcutaneous fibrosarcomas were induced by the carcinogen 7,12-dimethylbenz(a)anthracene (DMBA) in rats from F1 generation cross breedings of two different inbred strains. Comparative genomic hybridization (CGH) analysis, which allows detection of DNA sequence copy changes, was applied to one of the tumors and it was found that there were increased copy numbers of sequences at chromosome 4q12-q21 in this tumor. We have previously determined that the loci for the hepatocyte growth factor (Hgf) and hepatocyte growth factor receptor (Hgfr/Met), a protooncogene, are situated in this particular chromosome region. Using probes for the two genes in FISH (fluorescence in situ hybridization) and in Southern blots we found that the Hgfr/Met gene was amplified in five of the 19 sarcomas studied, and that the Hgf gene was coamplified in two of them. Northern and Western blots and tyrosine phosphorylation analysis showed that the HGF receptor was overexpressed and functional in all five tumors, as well as in two additional tumors. In summary, both amplification and overexpression of the Hgfr/Met gene was found in about 25% of DMBA-induced experimental rat sarcomas, and HGF receptor overexpression alone was seen in two additional tumors. Possibly this reflects an involvement in paracrine or autocrine stimulation of growth and invasiveness by HGF. Our finding could provide a rodent model system to increased knowledge about causality and therapy, which may be applicable to the sizeable fraction of human musculoskeletal tumors displaying MET overexpression.
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PMID:Amplification and overexpression of the hepatocyte growth factor receptor (HGFR/MET) in rat DMBA sarcomas. 1035 28

Topoisomerase IIalpha (TOP2A) is a key enzyme in DNA replication and a molecular target for many important anticancer drugs. TOP2A is amplified or deleted together with amplification of the closely located ERBB2/HER-2/neu oncogene in breast cancer. We characterized the copy number aberrations of TOP2A and ERBB2 in 136 primary breast tumors by FISH. Among the 70 primary tumors with ERBB2 amplification, amplification of TOP2A was found in 29 (41%); 30 tumors (43%) showed a physical deletion of TOP2A; and the copy number for TOP2A was not altered in 11 tumors with ERBB2 amplification (16%). No TOP2A gene aberrations were identified in 65 primary tumors without ERBB2 amplification. Fiber FISH revealed that simultaneously amplified ERBB2 and TOP2A were not present in the same amplicon, because repetitive tandem repeat-like signals of ERBB2 and TOP2A were in separate DNA fibers. The deletion of TOP2A (seen in the MDA-361 cell line and in 31 primary tumors) was interstitial, spanning less than two megabases of DNA. Mean copy numbers of TOP2A (2.4 +/- 0.6 for TOP2A vs. 4.9 +/- 1.1 for chromosome 17 centromere) suggest that the deletion of TOP2A occurs before polyploidization of the genome. Eight primary tumors with high-level ERBB2 amplification showed a new type of intratumoral heterogeneity; two different cell clones with either high-level amplification or deletion of TOP2A were found adjacent to each other in the same tumor. These results indicate that amplification of the ERBB2 oncogene is followed by complex secondary genetic aberrations, which lead to amplification or deletion of the TOP2A gene in a majority of tumors. Genes Chromosomes Cancer 26:142-150, 1999.
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PMID:Characterization of topoisomerase II alpha gene amplification and deletion in breast cancer. 1046 52

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