UMLS:C0033036 - FACTA Search

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Query: UMLS:C0033036 (APC)
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Experimental data published in recent years showed that up to 10% of all cases of mild to severe idiopathic mental retardation may result from small rearrangements of the subtelomeric regions of human chromosomes. To detect such cryptic translocations, we developed a "telomeric" multiplex fluorescence in situ hybridization (M-FISH) assay, using a set of previously published and commercially available subtelomeric probes. This set of probes includes 41 cosmid/PAC/P1 clones located from less than 100 kilobases to approximately 1 megabase from the end of the chromosomes. Similarly, a published mouse probe set, comprised of BACs hybridizing to the closest known marker toward the centromere and telomere of each mouse chromosome, was used to develop a mouse-specific "telomeric" M-FISH. Three different combinatorial labeling strategies were used to simultaneously detect all human subtelomeric regions on one slide. The simplest approach uses only three fluors and can be performed in laboratories lacking sophisticated imaging equipment or personnel highly trained in cytogenetics. A standard fluorescence microscope equipped with only three filters is sufficient. Fluor-dUTPs and labeled probes can be custom made, thus dramatically reducing costs. Images can be prepared using imaging software (Adobe Photoshop) and analysis performed by simple visual inspection.
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PMID:Cryptic translocation identification in human and mouse using several telomeric multiplex fish (TM-FISH) strategies. 1130 67

Mutations at the Norrie disease gene locus, NDP, manifest in a broad range of defects. These range from a relatively mild, late-onset, exudative vitreoretinopathy to congenital blindness and sensorineural deafness combined, in some cases, with mental retardation. In addition, extensive deletions involving the NDP locus, located at Xp11.3, the adjacent monoamine oxidadase genes MAOA and MAOB, and additional material, result in a more severe pattern of symptoms. The phenotypes include all or some of the following; mental retardation, involuntary movements, hypertensive crises and hypogonadism. We extended an existing YAC contig to embrace the boundaries of three of the largest deletions and converted this into four PAC contigs. Computer analysis and experimental data have resulted in the identification of several putative loci, including a phosphatase inhibitor 2-like gene (dJ154.1) and a 250-bp sequence which resembles a homeobox domain (dA113.3), 1.2 Mb and 400 kb respectively from the MAO/NDP cluster. The pattern of expression of dJ154.1 suggests that it may represent an important factor contributing to the complex phenotypes of these deletion patients. Hum Mutat 17:523, 2001.
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PMID:Sequence analysis and transcript identification within 1.5 MB of DNA deleted together with the NDP and MAO genes in atypical Norrie disease patients presenting with a profound phenotype. 1138 15

We performed molecular analysis of a germline interstitial deletion of chromosome 4 [del(4)(q21.22q23)], which had been observed in a male infant manifesting early-onset hepatoblastoma (HBL). The chromosomal anomaly in this child was associated with a unique congenital syndrome including HBL, atrial septal defect, ventricular septal defect, patent ductus arteriosus, mental retardation, and seizures. However, the patient did not exhibit a megalencephaly typical of 4q21-22 deletions. His HBL was associated with an increasing serum alpha-fetoprotein level and rapid growth. To define the chromosomal deletion at the molecular level in this child, we analyzed his lymphoblasts with fluorescence in situ hybridization, using as probes a panel of BAC/PAC genomic clones containing STS markers covering the 4q12-27 region. The analysis revealed that the affected chromosome had an 8-cM deletion within 4q21-q22, flanked by markers D4S2964 and D4S2966. This microdeletion overlaps with the commonly deleted region at 4q21-q22 that was recently defined in adult hepatocellular carcinomas.
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PMID:An 8-cM interstitial deletion on 4q21-q22 in DNA from an infant with hepatoblastoma overlaps with a commonly deleted region in adult liver cancers. 1156 28

Familial adenomatous polyposis (FAP) is an autosomal dominant disorder that typically presents with colorectal cancer secondary to extensive adenomatous polyps of the colon. The molecular basis and clinical phenotype of FAP are well known. Recurrent episodes of severe abdominal pain and a positive fecal occult blood test in an 18-yr-old boy with mild mental retardation and slight dysmorphic features of the face, head, and skeletal system led to the diagnosis of FAP. The clinical workup revealed the presence of over 100 sessile colonic polyps but no polyp formation in the upper GI tract, no cancer development, nor other FAP-associated lesions. To find out whether there is an association between mental retardation and FAP we performed a chromosome analysis including comparative genomic hybridization and an indirect genotype analysis with polymorphic markers from the APC gene region. Cytogenetic analysis showed an interstitial deletion of chromosomal region 5q that was confined to the region 5q21-q22 by comparative genomic hybridization. The deletion, spanning about 10 centimorgans, encompassed the complete APC gene and can be considered as causative for FAP. Moreover, molecular genetic analysis with polymorphic markers flanking the APC gene demonstrated a de novo deletion on the paternal chromosome. Cytogenetically detectable deletions on chromosome 5 including the APC gene generally lead to an associated gene deletion syndrome. Individuals who present with mild mental retardation and dysmorphic features should therefore be investigated for chromosomal deletions. If the deletion encompasses the APC gene, these patients are at high risk of developing FAP and associated complications.
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PMID:A de novo deletion of chromosome 5q causing familial adenomatous polyposis, dysmorphic features, and mild mental retardation. 1169 43

Human chromosome Xp11.3-Xp11.23 encompasses the map location for a growing number of diseases with a genetic basis or genetic component. These include several eye disorders, syndromic and nonsyndromic forms of X-linked mental retardation (XLMR), X-linked neuromuscular diseases and susceptibility loci for schizophrenia, type 1 diabetes, and Graves' disease. We have constructed an approximately 2.7-Mb high-resolution physical map extending from DXS8026 to ELK1, corresponding to a genetic distance of approximately 5.5 cM. A combination of chromosome walking and sequence-tagged site (STS)-content mapping resulted in an integrated framework and transcript map, precisely positioning 10 polymorphic microsatellites (one of which is novel), 16 ESTs, and 12 known genes (RP2, PCTK1, UHX1, UBE1, RBM10, ZNF157, SYN1, ARAF1, TIMP1, PFC, ELK1, UXT). The composite map is currently anchored with 89 STSs to give an average resolution of approximately 1 STS every 30 kb. By a combination of EST database searches and in silico detection of UniGene clusters within genomic sequence generated from this template map, we have mapped several novel genes within this interval: a Na+/H+ exchanger (SLC9A7), at least two zincfinger transcription factors (KIAA0215 and Hs.68318), carbohydrate sulfotransferase-7 (CHST7), regucalcin (RGN), inactivation-escape-1 (INE1), the human ortholog of mouse neuronal protein 15.6, and four putative novel genes. Further genomic analysis enabled annotation of the sequence interval with 20 predicted pseudogenes and 21 UniGene clusters of unknown function. The combined PAC/BAC transcript map and YAC scaffold presented here clarifies previously conflicting data for markers and genes within the Xp11.3-Xp11.23 interval and provides a powerful integrated resource for functional characterization of this clonally unstable, yet gene-rich and clinically significant region of proximal Xp.
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PMID:An integrated, functionally annotated gene map of the DXS8026-ELK1 interval on human Xp11.3-Xp11.23: potential hotspot for neurogenetic disorders. 1194 89

Smith-Magenis syndrome (SMS) is a multiple congenital anomaly/mental retardation syndrome associated with behavioral abnormalities and sleep disturbance. Most patients have the same approximately 4 Mb interstitial genomic deletion within chromosome 17p11.2. To investigate the molecular bases of the SMS phenotype, we constructed BAC/PAC contigs covering the SMS common deletion interval and its syntenic region on mouse chromosome 11. Comparative genome analysis reveals the absence of all three approximately 200-kb SMS-REP low-copy repeats in the mouse and indicates that the evolution of SMS-REPs was accompanied by transposition of adjacent genes. Physical and genetic map comparisons in humans reveal reduced recombination in both sexes. Moreover, by examining the deleted regions in SMS patients with unusual-sized deletions, we refined the minimal Smith-Magenis critical region (SMCR) to an approximately 1.1-Mb genomic interval that is syntenic to an approxiamtely 1.0-Mb region in the mouse. Genes within the SMCR and its mouse syntenic region were identified by homology searches and by gene prediction programs, and their gene structures and expression profiles were characterized. In addition to 12 genes previously mapped, we identified 8 new genes and 10 predicted genes in the SMCR. In the mouse syntenic region of the human SMCR, 16 genes and 6 predicted genes were identified. The SMCR is highly conserved between humans and mice, including 19 genes with the same gene order and orientation. Our findings will facilitate both the identification of gene(s) responsible for the SMS phenotype and the engineering of an SMS mouse model.
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PMID:Genes in a refined Smith-Magenis syndrome critical deletion interval on chromosome 17p11.2 and the syntenic region of the mouse. 1199 38

Guam has a Children with Special Health Needs (CSHN) Systems Management Project to coordinate different programs and services and to identify and enroll 4 year old children with special health care needs. It also streamlines service linkages and ongoing tracking activities. Children with special health needs include those with actual or potential disabilities and handicaps, actual or potential chronic diseases, actual or potential conditions that do not always cause disability or handicap, and health related educational and behavioral problems. Poverty plays a contributing role to some of these children's special needs. In fact, 25% of Guam's families are at or below the poverty level. Other children have special health care needs due to parental or psychological factors. Further inadequate prenatal care, parental mental retardation, AIDS, parental substance abuse, maternal age, and the inability to parent can all result in special need circumstances. Despite the many and varied needs, services and resources that can best help them are scarce in Guam. Even with optimal use of Guam's resources, many families of such children either do not receive proper care or leave the island to receive the proper care at a sizable cost. Moreover some children are not eligible for public assistance like the Medically Indigent Program, the Catastrophic Illness Program, and Medicaid or for local health insurance plans. The CSHN Systems Management Project uses a collaborative approach involving family, community, and professionals from a variety of disciplines. Parents voice several issues which revolve around health insurance, public assistance, case management, scarcity of professional resources, child care services, information and education, and early identification. The Project hopes to hold a training conference for parents and professionals in January 1992.
MCH News PAC 1991 Dec
PMID:New care coordination project targets special needs children under age 4. 1228 32

Arx is a homeobox-containing gene with a high degree of sequence similarity between mouse and zebrafish. Arx is expressed in the forebrain and floor plate of the developing central nervous systems of these vertebrates and in the presumptive cortex of fetal mice. Our goal was to identify genes in Xp22.1-p21.3 involved in human neuronal development. Our in silico search for candidate genes noted that annotation of a human Xp22 PAC (RPCI1-258N20) sequence (GenBank Accession No. AC002504) identified putative exons consistent with an Arx homologue in Xp22. Northern blot analysis showed that a 3.3kb human ARX transcript was expressed at high levels in fetal brain. A 5.9kb transcript was expressed in adult heart, skeletal muscle, and liver with very faint expression in other adult tissues, including brain. In situ hybridization of ARX in human fetal brain sections at various developmental stages showed the highest expression in neuronal precursors in the germinal matrix of the ganglionic eminence and in the ventricular zone of the telencephalon. Expression was also observed in the hippocampus, cingulate, subventricular zone, cortical plate, caudate nucleus, and putamen. The expression pattern suggests that ARX is involved in the differentiation and maintenance of specific neuronal cell types in the human central nervous system. We also mapped the murine Arx gene to the mouse genome using a mouse/hamster radiation hybrid panel and showed that Arx and ARX are orthologues. Therefore, investigations in model vertebrates may provide insight into the role of ARX in development. The recent identification of ARX mutations in patients with various forms of mental retardation make such studies in model organisms even more compelling.
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PMID:Human ARX gene: genomic characterization and expression. 1235 45

Cryptic subtelomeric chromosome rearrangements play an important role in the aetiology of mental retardation, congenital anomalies, miscarriages and neoplasia. To facilitate a comprehensive molecular-cytogenetic analysis of these extremely gene-rich and mutation-prone chromosome regions, novel multicolour fluorescence in situ hybridisation (FISH) techniques are being developed. As yet, subtelomeric FISH methods have either had limited multiplicities, making it necessary to perform many hybridisations per patient, or a limited scope of analysable chromosome mutation types, thus not detecting some aberration types such as pericentric inversions or very small aberrations. COBRA (COmbined Binary RAtio) labelling is a generic multicolour FISH technique that combines ratio and combinatorial labelling to attain especially high multiplicities with few fluorochromes. The Subtelomere COBRA FISH method ("S-COBRA FISH") described here detects efficiently all 41 BAC and PAC FISH probes necessary for a complete subtelomere screening in only two hybridisations. It was applied to the analysis of 10 cases with known and partially known aberrations and successfully detected balanced and unbalanced translocations, deletions and an unbalanced pericentric inversion in a mosaic situation. The ability of S-COBRA FISH to efficiently detect all types of balanced and unbalanced subtelomeric chromosome aberrations makes it the most comprehensive diagnostic procedure for human subtelomeric chromosome regions described to date.
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PMID:Comprehensive analysis of human subtelomeres with combined binary ratio labelling fluorescence in situ hybridisation. 1293 49

Trisomy 21 (Ts21) is the most common live-born human aneuploidy and results in a constellation of features known as Down syndrome (DS). Ts21 is a frequent cause of congenital heart defects and the leading genetic cause of mental retardation. Although overexpression of a gene(s) or gene cluster on human chromosome 21 (Chr 21) or the genome imbalance by Ts21 has been suggested to play a key role in bringing about the diverse DS phenotypes, little is known about the molecular mechanisms underlying the various phenotypes associated with DS. Four approaches have been used to model DS to investigate the gene dosage effects of an extra copy of Chr 21 on various phenotypes; 1) Transgenic mice overexpressing a single gene from Chr 21, 2) YAC/BAC/PAC transgenic mice containing a single gene or genes on Chr 21, 3) Mice with intact/partial trisomy 16, a region with homology to human Chr 21 and 4) Human Chr 21 transchromosomal (Tc) mice. Here we review our new model system for the study of DS using the Tc technology, including the biological effects of an additional Chr 21 in vivo and in vitro.
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PMID:A new mouse model for Down syndrome. 1506 35

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