UMLS:C0033036 - FACTA Search

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Deletions adjacent to the 9/22 translocation breakpoint on the derivative chromosome 9 have recently been described in a substantial number of chronic myeloid leukemia (CML) cases, but their extension has not been characterized in detail. Using FISH with an appropriate set of BAC/PAC probes, we have characterized the deletion in 10 CML cases, identified by screening 71 patients at diagnosis. Five patients showed a complex chromosome rearrangement and 3 of them were deleted. The size of the deletion was variable, ranging from few hundreds kb to 8 Mb. A minimally deleted region on both chromosomes 9 and 22 was identified and was found to contain the ASS gene on chromosome 9 and IGLL1 on chromosome 22.
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PMID:Breakpoint characterization of der(9) deletions in chronic myeloid leukemia patients. 1235 69

Recently, we reported that a recurrent translocation, t(1;3)(p36;p21) is closely associated with prior chemotherapy including alkylating agents, assessing eight patients with various hematologic malignancies (Genes, Chromosomes and Cancer 34:186-192), 2002). Furthermore, we delineated the 1p36 breakpoint in two patients lying between RP11-BAC47P3 and RP5-PAC963K15 at 1p36.3 with a small deletion near the breakpoint. In one of them, we also found deletion at 3p21.3 with cosNRL9 probe, which is included in a 370-kb lung cancer homologous deletion region. However, due to scantiness of the patient materials at that time, we could not determine the precise breakpoint at 1p36 or 3p21 in any of the patients. In this report, we identified the 1p36 and 3p21 breakpoints of an AML (M3) patient who is included in the previous patient series. The patient showed t(1;3)(p36;p21) together with t(15;17) at the third relapse. With FISH using BAC/PAC probes, we determined the 1p36 breakpoint within RP11-295B1 at 1p36.2 and the 3p21 breakpoint between RP11-3B7 and RP11-901L6 at 3p21.3. There was no deletion around the two breakpoints in this patient. To the best of our knowledge, this is the first report that has identified the precise breakpoint of t(1;3)(p36;p21) translocation. It is obvious that the 1p36.2 and 3p21.3 breakpoints of this patient are different from those of the previous patients, suggesting that the genes and the molecular event is different from those of the previous patients. The patients with t(1;3)(p36;p21) should be subclassified according to the precise breakpoints or the genes involved.
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PMID:Identification of the breakpoints at 1p36.2 and 3p21.3 in an AML(M3) patient who had t(1;3)(p36.2;p21.3) at the third relapse. 1237 31

The chromosome locations of 368 human Kruppel-type zinc finger (ZNF) PAC clones were physically mapped by FISH to human chromosomes in support of recent efforts of assigning KOX cDNAs (KOX1-KOX32) to zinc finger gene clusters. Recent mapping results were validated and confirmed by sequence comparisons to zinc finger gene sequences automatically annotated in EnsEMBL. In toto, 799 Kruppel-type zinc finger genes have been annotated in EnsEMBL of which 290 genes are found to encode KRAB domains. Sequence homologies of the zinc finger domains were used to establish phylogenic trees of KOX zinc finger genes as well as of all KRAB containing human zinc finger and KOX genes documenting the evolution of KRAB zinc finger genes late in primate evolution. A list of 368 assigned ZNF PAC clones is available under http://www.pzr.uni-rostock.de/supplements.
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PMID:The KOX zinc finger genes: genome wide mapping of 368 ZNF PAC clones with zinc finger gene clusters predominantly in 23 chromosomal loci are confirmed by human sequences annotated in EnsEMBL. 1269 96

A panel of 15 human BAC/PAC probes, covering the entire chromosome 6, was used in FISH experiments on great apes and on representatives of Old World monkeys, New World monkeys, and lemurs to delineate the chromosome 6 phylogeny in primates. The domestic cat was used as an outgroup. The analysis showed a high marker order conservation, with few rearrangements required to reconcile the hypothesized chromosome 6 organization in primate ancestor with marker arrangement in all the examined species. Contrary to this simple evolutionary scenario, however, the centromere was found to be located in three distinct regions, without any evidence of chromosomal rearrangement that would account for its movement. One of the two centromere repositioning events occurred in great apes ancestor. The centromere moved from 6p22.1 to the present day location after the inversion event that differentiated marker order of the primate ancestor from the ancestor of Catarrhini. A cluster of intrachromosomal segmental duplications was found at 6p22.1, scattered in a region of about 9 Mb, which we interpret as remains of duplicons that flanked the ancestral centromere. Our data, therefore, suggest that some duplicon clusters found in noncentromeric/nontelomeric locations may represent traces of evolutionary silenced centromeres that inactivated after the occurrence of a centromere repositioning. In addition, the neocentromere emergence we have documented in Old World monkeys at 6q24.3 appears to have arisen and progressed without affecting the displaced flanking sequences.
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PMID:Chromosome 6 phylogeny in primates and centromere repositioning. 1283 46

To characterize a submicroscopic, common 8p23 polymorphic inversion, we constructed a complete BAC/PAC-based physical map covering the entire 4.7-Mb inversion and its flanking regions. Two low-copy repeats (LCRs), REPD (approximately 1.3 Mb) and REPP (approximately 0.4 Mb), were identified at each of the inversion breakpoints. Comparison of the REPD and REPP sequences revealed that REPD showed high homology to REPP, with complex direct and inverted orientations. REPD and REPP contain six and five olfactory receptor gene-related sequences, respectively. LCRs at 8p23 showed multiple FISH signals from an Old World monkey to the human. Thus, multiplication of the LCR may have occurred at least 21-25 million years ago. We also investigated the frequency of the 4.7-Mb inversion in the general Japanese population and found that the allele frequency for the 8p23 inversion was estimated to be 27%.
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PMID:Complex low-copy repeats associated with a common polymorphic inversion at human chromosome 8p23. 1283 73

Brody disease is a rare muscle disorder characterized by exercise-induced impairment in muscle relaxation, due to a markedly reduced influx of calcium ions in the sarcoplasmic reticulum. A subset of autosomal recessive families harbour mutations in the ATP2A1 gene, encoding the fast-twitch skeletal muscle sarcoplasmic reticulum Ca(2+) ATPase (SERCA1). Rare autosomal dominant families have been described, in which ATP2A1 was excluded as the causative gene, further supporting genetic heterogeneity. We report four individuals from a three-generation Italian family with a clinical phenotype of Brody disease, in which linkage analysis excluded ATP2A1 as the responsible gene. The disease cosegregates in an autosomal dominant fashion with an apparently balanced constitutional chromosome translocation (2;7)(p11.2;p12.1), suggesting a causal relationship between the rearrangement and the phenotype. FISH analysis using YAC and PAC clones as probes refined the breakpoint regions to genomic segments of about 164 and 120 kb, respectively, providing a possible clue to pinpoint the location of a novel gene responsible for this rare muscle disorder.
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PMID:Autosomal dominant Brody disease cosegregates with a chromosomal (2;7)(p11.2;p12.1) translocation in an Italian family. 1508 69

It has recently been postulated that the absence of a single tumor suppressor gene (TSG) allele can provide a selective advantage for an emerging tumor cell. We have characterized the precise extension of the deletion on der(9) in 20 chronic myeloid leukemia (CML) cases using FISH analysis with an appropriate set of BAC/PAC probes to attempt a better definition of TSGs encompassed by these genomic deletions. Chromosome 9 deletions on the der(9) were detected in 15 (75%) cases; the TSG PTGES gene was lost in 11 (73%) cases. Chromosome 22 deletions on der(9) were found in 18 (90%) of the analysed cases; two TSGs were found located inside the deleted sequences of chromosome 22: SMARCB1 and GSTT1. These TSGs were found deleted in 16 (89%) cases bearing deletions of chromosome 22. Fourteen (70%) patients were treated with IFN-alpha therapy: 12 did not obtain complete haematologic remission (CHR) and 2 were not evaluable for response. Therefore, the patients did not respond to the IFN-alpha treatment started Glivec obtaining CHR and major cytogenetic response (MCR). The observation that deletions on der(9) are associated with the loss of TSGs suggests their possible involvement in the CML outcome, mediated by a haplo-insufficiency mechanism.
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PMID:Derivative chromosome 9 deletions in chronic myeloid leukemia are associated with loss of tumor suppressor genes. 1516 Sep 40

Cerebellar liponeurocytoma, a rare, newly identified CNS neoplasm of adults, is characterized by advanced neuronal/neurocytic and focal lipomatous differentiation, low proliferative potential and a favorable clinical prognosis. Despite the different age distribution and benign biological behavior, the cerebellar liponeurocytoma shares several features with the cerebellar medulloblastoma, which may include an origin from the periventricular matrix of the fourth ventricle or the external granular layer of the cerebellum. To establish the genetic profile of cerebellar liponeurocytomas, we have formed an international consortium and collected tumor samples from 20 patients. DNA sequencing revealed TP53 missense mutations in 4 (20%) of 20 cerebellar liponeurocytomas, a frequency higher than in medulloblastomas. There was no case with PTCH, APC, or beta-catenin mutations, each of which may be present in subsets of medulloblastomas. Isochromosome 17q, a genetic hallmark of classic medulloblastomas, was not observed in any of the cases investigated by FISH analysis. cDNA array analyses were carried out on 4 cerebellar liponeurocytomas, 4 central neurocytomas, and 4 classic medulloblastomas. Cluster analysis of the cDNA expression data of 1176 genes grouped cerebellar liponeurocytomas close to central neurocytomas, but distinct from medulloblastomas. These results suggest cerebellar liponeurocytoma as a distinct tumor entity that is genetically different from medulloblastoma. Furthermore, the cDNA expression array data suggest a relationship to central neurocytomas, but the presence of TP53 mutations, which are absent in central neurocytomas, suggests that their genetic pathways are different.
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PMID:Genetic and expression profiles of cerebellar liponeurocytomas. 1544 83

Comparative FISH mapping of PAC clones covering almost 3 Mb of the human AZFa region in Yq11.21 to metaphases of human and great apes unravels breakpoints that were involved in species-specific Y chromosome evolution. An astonishing clustering of evolutionary breakpoints was detected in the very proximal region on the long arm of the human Y chromosome in Yq11.21. These breakpoints were involved in deletions, one specific for the human and another for the orang-utan Y chromosome, in a duplicative translocation/transposition specific for bonobo and chimpanzee Y chromosomes and in a pericentric inversion specific for the gorilla Y chromosome. In addition, our comparative results allow the deduction of a model for the human Y chromosome evolution.
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PMID:Evolutionary breakpoint analysis on Y chromosomes of higher primates provides insight into human Y evolution. 1554 31

Clones of a PAC contig encompassing the human AZFa region in Yq11.21 were comparatively FISH mapped to great ape Y chromosomes. While the orthologous AZFa locus in the chimpanzee, the bonobo and the gorilla maps to the long arm of their Y chromosomes in Yq12.1-->q12.2, Yq13.1-->q13.2 and Yq11.2, respectively, it is found on the short arm of the orang-utan subspecies of Borneo and Sumatra, in Yp12.3 and Yp13.2, respectively. Regarding the order of PAC clones and genes within the AZFa region, no differences could be detected between apes and man, indicating a strong evolutionary stability of this non-recombining region.
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PMID:The evolution of the azoospermia factor region AZFa in higher primates. 1554 32

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