Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasmolipin is a membrane protein and belongs to the tetraspan molecule (4TM) family, an expanding group of myelin proteins many of which could be linked to human hereditary demyelinating neuropathies. We have cloned and sequenced the mouse plasmolipin gene, revealing the common organization of the 4TM gene group with four exons and a large first intron. Western blot analysis with an antibody raised against the C-terminal intracellular part of the protein showed that plasmolipin is expressed not only in the nervous system and kidney, but also in a number of other tissues such as thymus, testis, lung, and thyroid gland. By means of radiation hybrid mapping and FISH analysis, we could localize the human plasmolipin gene to Chromosome 16q13 within the putative region of the Bardet-Biedl syndrome type 2 (BBS2) gene locus. BBS2 is a clinically and genetically heterogeneous group of disorders resulting in rod-cone dystrophy, obesity, postaxial polydactyly, renal dysfunction, and mental retardation, which were very recently associated with a novel gene designated BBS2. With respect to intrafamiliar variations in the manifestation of BBS, we suggest that plasmolipin might be either another candidate gene or a modifier of the BBS2 phenotype.
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PMID:Plasmolipin: genomic structure, chromosomal localization, protein expression pattern, and putative association with Bardet-Biedl syndrome. 1170 81

The etiology of mental retardation (MR), often presenting as developmental delay in childhood, is unknown in approximately one-half of cases. G-banding is the standard method for investigating those suspected of having a chromosomal etiology; however, detection of structural abnormalities is limited by the size and pattern of the G-bands involved. Rearrangements involving subtelomeric regions have been shown to cause MR and this has generated interest in investigating the prevalence of these rearrangements using telomere-specific probes. In addition, because cryptic interchromosomal rearrangements may not be small or confined to chromosomal ends, spectral karyotyping (SKY) using chromosome-specific painting probes may be of value. We report here a study using these two FISH-based techniques in 50 children with idiopathic MR or developmental delay and normal GTG-banded karyotypes. Our objective was to assess the prevalence of cryptic rearrangements in this population using subtelomeric FISH and SKY. Three rearrangements were detected by subtelomeric FISH: a derivative 5 from a maternal t(5;21); a recombinant 11 from a paternal pericentric inversion; and a 2q deletion that was also present in the mother. Only the derivative 5 was detected by SKY. SKY did not detect any interstitial interchromosomal rearrangement. The prevalence of clinically significant cryptic rearrangements by subtelomeric FISH and SKY was thus 4% (95% confidence interval 0.5-13.7) and 2% (95% CI 0.05-10.7), respectively. This study supports the view that G-banding does not detect all clinically significant chromosomal abnormalities and that subtelomeric FISH and SKY can detect some of these abnormalities.
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PMID:Detecting rearrangements in children using subtelomeric FISH and SKY. 1184 Apr 82

We report the case of a 27-year old woman who presented hypocalcemia and hyperphosphoremia during her first pregnancy. Her phenotype was in favor of Albright's hereditary osteodystrophy: short stature, obesity, round face, brachymetacarpy and mental retardation. However, the diagnosis of pseudohypopara thyroidism type Ia was ruled out due to low PTH level (10 pg/ml). The patient's 22q11 microdeletion was suspected and identified because of the association of severe neonatal hypocalcemia, abnormal face and renal malformation in her children. Deletion 22q11 leads to various syndromes, including Di George syndrome, also referred to as CATCH 22 syndrome (Cardiac defect (C), Abnormal face (A), Thymic hypoplasia (T), Cleft palate (C) and Hypocalcemia (H)). Retrospectively, the patient presented with symptoms suggestive of CATCH 22: abnormal face, hypernasal voice suggestive of velopharyngeal insufficiency, mental retardation, recurrent otitis in childhood. It is also noteworthy that there was an idiopathic thrombocytopenic purpura. In conclusion, while the phenotype was suggestive of Albright's hereditary osteodystrophy, the constatation of a low PTH level would cast doubt on this diagnosis. Furthermore, the 22q11 microdeletion should be searched by FISH (Fluorescence In Situ Hybridization) in all patients with hypopara thyroidism of unknown origin, even in the absence of cardiac malformations. Finally, it seems that patients with CATCH 22 would be predisposed to auto-immune disease as a result of thymic dysfunction.
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PMID:[Pseudohypoparathyroidism or hypoparathyroidism? A misleading clinical presentation]. 1184 29

Recently mutations in the gene ZFHX1B (SIP1) were shown in patients with "syndromic Hirschsprung disease" with mental retardation (MR) and multiple congenital anomalies (MCA), but it was unclear if Hirschsprung disease is an obligate symptom of these mutations and if the distinct facial phenotype delineated by Mowat et al. [1998: J Med Genet 35: 617-623] is specific for ZFHX1B mutations. In order to address these open questions we analyzed the ZFHX1B gene in five patients, three of whom had "syndromic Hirschsprung disease" two with and one without the facial phenotype described by Mowat et al. [1998], and two of whom had the distinct facial gestalt without Hirschsprung disease. Analyses of microsatellite markers and newly identified SNPs, and/or FISH with BACs from the ZFHX1B region excluded large deletions in all five patients. Direct sequencing demonstrated truncating ZFHX1B mutations in all four patients with the characteristic facial phenotype, but not in the patient with syndromic Hirschsprung disease without the distinct facial appearance. We demonstrate that there is a specific clinical entity with a recognizable facial gestalt, mental retardation and variable MCAs which we propose be called the "Mowat-Wilson syndrome."
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PMID:"Mowat-Wilson" syndrome with and without Hirschsprung disease is a distinct, recognizable multiple congenital anomalies-mental retardation syndrome caused by mutations in the zinc finger homeo box 1B gene. 1467 97

A girl with psychomotor retardation and a pattern of minor anomalies was found to have a slightly enlarged short arm of chromosome 18 by conventional GTG-banded chromosome examination. The 18p+chromosome has also been found in the father. FISH studies using chromosome 18-and chromosome 20-specific painting probes confirmed a reciprocal whole arm translocation between chromosomes 18 and 20 in the father, resulting in monosomy of the short arm of chromosome 18 and trisomy of the short arm chromosome 20 in the patient. FISH analysis using a chromosome 18 alpha-satellite-specific probe showed a reduced signal intensity. The patient presented with a flat, oval face, upslanting palpebral fissures, periorbital fullness, and mental retardation; she also had chronic diarrhea with milk protein intolerance and juvenile rheumatoid arthritis at age 5 years. Juvenile rheumatoid arthritis, like several other immunologic disorders, has occasionally been reported in patients with deletion of 18p, and thus most likely loss of a gene or genes on 18p is responsible for various immunologic disorders occurring in these patients.
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PMID:Patient with rheumatoid arthritis and MCA/MR syndrome due to unbalanced der(18) transmission of a paternal translocation t(18;20)(p11.1;p11.1). 1189 91

Among congenital defects the most common are the congenital heart defects, which constitute a heterogeneous group with a multifactor etiology. A single gene mutation has been identified in some of them, such as in of Williams's syndrome, or they can be due to teratogenic agents. The advance in diagnosis and treatment of congenital heart defects has become very important because mortality has diminished and patients live longer and better, reaching adult hood. Molecular biology offers now opportunities understand the cause of many genetic diseases thanks to molecular studies of chromosomes. Conotruncal malformations are known to be caused by a microdeletion in chromosome 22(22q11), this mutation is also responsible for the DiGeorge and cardiovelofacial syndromes, the most relevant aspects are: congenital heart disease, which is present in 75% of the cases, the leading disorder is Fallot's tetralogy with pulmonary atresia, in second place is interruption of the aortic arch type B, followed by common truncus arteriosus. These patients have other phenotypic features, such as high palate, speech problems, malimplantation of ears, and protuberant nose tip, among others. Diagnosis is made with the FISH (fluorescent in situ hybridization) test that shows a microdeletion in chromosome 22 at the 11.2 region. Another syndrome that has received great attention is the Williams-Beuren syndrome, which courses with mental retardation, hypercalcemia, characteristic facies, and supravalvular aortic and pulmonary stenosis. To day, it is known that its cause is a deletion in chromosome 7(7q11.23), which affects elastin region, in consequence, affecting the vessels.
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PMID:[Congenital cardiopathies and syndromes in adults]. 1200 67

We performed an investigation of two unrelated cases with extremal variants of chromosome 21 without visible materials of the short arms (Christchurch or Ch1 chromosome). In the first case chromosome 21p- was initially detected during routine cytogenetic amniocentesis. Chromosomal variant was inherited from phenotypically normal father to phenotypically normal fetus (phenotypically normal boy after the birth). The second case of chromosome 21p- was detected in 7 years old boy, referred to cytogenetic analysis due to mental retardation and mild congenital malformation, including prenatal hypoplasia, microcephaly, low-set dysplastic ears, short nose, micrognatia, short neck. Molecular characterization of 21p-variant chromosomes was performed by the use of FISH with DNA probes specific to the short arm and centromeric region of chromosome 21 (telomeric, beta-satellite, ribosomal, classical satellite and alphoid DNA probes). Chromosomes 21p-hybridized positively only with telomeric DNA at both chromosomal ends and alphoid DNA probes at centromeric region of the first patient. In second case (de novo deletion of 21p), the Ch1 was associated with clinical phenotype and loss of telomeric and subtelomeric DNA in the p-arm of chromosome 21. Therefore, the complete absent of the short arm of chromosome 21 may be considered as abnormal. We propose that de novo deletion 21p- could have negative consequences due to absence of large portion of chromosomal DNA from the p-arm (telomeric, satellite or ribosomal DNAs) and following imbalance in organization and functioning of genome.
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PMID:Two new cases of the Christchurch (Ch1) chromosome 21: evidence for clinical consequences of de novo deletion 21P-. 1201 96

We report on a 29-year-old male patient with an inverted 7(q35-qter) duplication diagnosed by combining cytogenetic and FISH studies. Traditional G-banding detected an abnormally long chromosome 7 which was further demonstrated to be entirely of chromosome 7 origin by using fluorescent whole chromosome 7 painting. The presence within the additional segment of a signal for 7q36 region (Williams control probe) and the absence of signals for 7q33 (Y938G5 probe) and 7q34 (Y815G5 probe) regions indicated that the breakpoint for this rearrangement was distal to 7q34 and proximal to 7q36. A distal 7p22 deletion was confirmed by the absence of signal for the 7p subtelomeric probe. Apart from kyphosis, developmental/mental retardation and abnormal ears, the clinical features of the present patient, who is the oldest individual ever reported with this duplication/deletion, were not typical for partial 7q trisomy syndrome. A review of the cases reported with 7(q35-qter) duplication is made and shows important clinical variability but constantly normal pre- and postnatal growth, a feature which can therefore be confirmed as distinctive of distal 7q trisomy syndrome.
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PMID:Pericentric inversion with partial 7(q35-->qter) duplication and 7pter deletion: diagnosis by cytogenetic and fish analysis in a 29-year-old male patient. 1201 31

A family with primary infertility and two members with mental retardation and subtle facial dysmorphism is described. In the two retarded persons chromosomal rearrangements (partial monosomy of chromosome 5 and partial trisomy of chromosome 7) were detected. One member of the family had died with major congenital malformations. Her fibroblasts had been stored and her chromosomes showed the inverse pattern (partial trisomy of chromosome 5 and partial monosomy of chromosome 7). It appeared that in familial mental retardation with or without congenital malformations FISH-techniques should be used to detect submicroscopic chromosomal aberrations, which are not detectable by routine chromosome studies.
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PMID:Fishing for a diagnosis. 1201 38

Both cytogenetically visible and cryptic deletions of the terminal region of chromosome 22q are associated with a clinical phenotype including mental retardation, delay in expressive speech development, hypotonia, normal to accelerated growth and minor facial dysmorphic features. The genes responsible for the development of the phenotype have not yet been identified, but a distal localization is probable, since the cytogenetically visible and the cryptic deletions show a similar pattern of symptoms. We report a 33-year-old woman with a submicroscopic 22q13 deletion, mild mental retardation, speech delay, autistic symptoms and mild facial dysmorphic features. The deletion was mapped by FISH using cosmid probes from terminal 22q13, and the size of the deletion was estimated to be 100 kb. Three genes are affected by the deletion in this patient. ACR and RABL2B are deleted and proSAP2 is disrupted. This observation, together with recently published data, supports the notion that proSAP2 is the most important contributor to the 22q13 deletion phenotype.
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PMID:FISH-mapping of a 100-kb terminal 22q13 deletion. 1207 14


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