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:C0026827 (hypotonia)
5,860 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 7-year-old boy presented with bilateral ptosis and atypical retinitis pigmentosa. Before age two, he had had an Fe-refractory anemia, with neutropenia and thrombopenia. Just prior to the ophthalmic examination, the patient developed lactate acidosis, muscular hypotonia, ataxia and increased protein in the spinal fluid. Pancytopenia, pancreas dysfunction and growth retardation are the main features of Pearson's syndrome, most children not surviving beyond age three. The cause of Pearson's syndrome in our patient turned out to be a 5 kb deletion in the mitochondrial DNA. Similar deletions have been described in the Kearns-Sayre syndrome. It seems that children who survive the initial phase of Pearson's syndrome, may develop Kearns-Sayre syndrome.
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PMID:Kearns-Sayre's syndrome developing in a boy who survived pearson's syndrome caused by mitochondrial DNA deletion. 130 30

Detailed clinical, ophthalmological, and molecular studies were performed on a multigeneration family in which there were many subjects with type 1 neurofibromatosis, a common autosomal dominant disorder. Affected family members displayed a wide range of clinical findings including, in two subjects, features seen in Noonan syndrome (triangular facies, downward slanting palpebral fissures, micrognathia, short stature, and learning disability). Subjects have been described previously whose features have overlapped with neurofibromatosis and Noonan syndrome, and it has been suggested that these persons might represent a separate condition. DNA haplotype analysis showed linkage of the neurofibromatosis phenotype seen in this family to the proximal long arm of chromosome 17 in the region where the type 1 neurofibromatosis gene has been mapped. These results imply that the Noonan phenotype seen in some patients with type 1 neurofibromatosis might be the result of variable or variant expression of the neurofibromatosis gene on chromosome 17. The possible role of non-specific factors, such as fetal hypotonia, in producing the neurofibromatosis-Noonan phenotype needs further investigation. The availability of closely linked and intragenic molecular markers for neurofibromatosis could potentially be useful in the diagnosis and characterisation of patients and families with atypical forms of neurofibromatosis.
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PMID:Clinical variability of type 1 neurofibromatosis: is there a neurofibromatosis-Noonan syndrome? 134 94

We describe two female siblings with similar clinical features consisting of hydrocephalus, scaphocephaly, hypotonia, mongoloid eye slant, blepharophimosis, micrognathia, supernumerary mouth frenula and mental retardation. Routine cytogenetic studies in the elder patient did not reveal any abnormality, and initially it was assumed that the syndrome had an autosomal recessive inheritance. However, a slightly larger chromosome 13 was seen in routine G-banded metaphases of the mother and the youngest of the two siblings. A shorter chromosome 15 was detected in the mother only. High resolution banding showed that the abnormal chromosome 13 contained an extra G-positive band at 13q12. The short chromosome 15 in the mother appeared to have a deletion of band q12. Fluorescence in situ hybridization using DNA markers specific to chromosomes 13 and 15 unequivocally showed that the mother was a carrier of a balanced reciprocal translocation t(13;15)(q12;q13), whereas the youngest sibling's karyotype was 46,XX,-13,+der(15)t(13;15)(q12;q13)mat, resulting in partial monosomy 13pter----q12 and partial trisomy 15pter----q13. The proband is thus trisomic for the critical region responsible for Prader-Willi syndrome and Angelman syndrome; this was confirmed by DNA analysis demonstrating one paternal and two maternal alleles from multiallelic marker loci mapping to 15q11-q13. This report illustrates the sensitivity and specificity offered by fluorescence in situ hybridization and its usefulness in the diagnosis and delineation of subtle chromosomal rearrangements.
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PMID:Reciprocal translocation between the proximal regions of the long arms of chromosomes 13 and 15 resulting in unbalanced offspring: characterization by fluorescence in situ hybridization and DNA analysis. 135 72

We report on a 12-year-old boy and his 7-year-old sister with the Prader-Willi syndrome. They both had severe initial hypotonia with feeding problems and later developed an increasing appetite. Both sibs have almond-shaped eyes, triangular mouth, hypogonadism, retarded growth, and mental retardation. An older brother suffered from severe hypotonia and died at 7 days of age. The children have normal chromosomes by high-resolution technique and have inherited the same chromosomes 15 short arm polymorphisms from their parents. The family was informative for one of four DNA markers specific for the 15q11q13 region. No deletion was found using this marker. The parents were healthy and unrelated. Autosomal recessive inheritance or a paternally inherited submicroscopic deletion are possible explanations for the sib occurrence in this family.
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PMID:Prader-Willi syndrome in a brother and sister without cytogenetic or detectable molecular genetic abnormality at chromosome 15q11q13. 144 1

A 3-month-old girl was admitted to the hospital because of hypotonia and frequent vomiting. She had severe metabolic acidosis and her liver function was abnormal. Hepatomegaly and rapidly progressive liver failure developed, and she died at 4 months of age. Two half-siblings from a different mother had died in infancy of an undiagnosed myopathy. The liver was fatty and hepatocytes were filled with large and small lipid droplets. Other tissues were morphologically normal. The respiratory chain enzymes containing subunits encoded by mitochondrial DNA were markedly decreased in liver, partially decreased in muscle, but normal in other tissues. Southern blot analysis showed 90% depletion of mitochondrial DNA in liver, 53% depletion in muscle, and normal amounts in other tissues. This is the second case of fatal infantile liver failure associated with mitochondrial DNA depletion. This pathogenetic mechanism should be considered in infants with multiple respiratory chain defects and variable tissue expression.
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PMID:Fatal infantile liver failure associated with mitochondrial DNA depletion. 144 52

Three Down syndrome patients for whom karyotypic analysis showed a "mirror" (reverse tandem) duplication of chromosome 21 were studied by phenotypic, cytogenetic, and molecular methods. On high-resolution R-banding analysis performed in two cases, the size of the fusion 21q22.3 band was apparently less than twice the size of the normal 21q22.3, suggesting a partial deletion of distal 21q. The evaluation of eight chromosome 21 single-copy sequences of the 21q22 region--namely, SOD1, D21S15, D21S42, CRYA1, PFKL, CD18, COL6A1, and S100B--by a slot blot method showed in all three cases a partial deletion of 21q22.3 and partial monosomy. The translocation breakpoints were different in each patient, and in two cases the rearranged chromosome was found to be asymmetrical. The molecular definition of the monosomy 21 in each patient was, respectively, COL6A1-S100B, CD18-S100B, and PFKL-S100B. DNA polymorphism analysis indicated in all cases a homozygosity of the duplicated material. The duplicated region was maternal in two patients and paternal in one patient. These data suggest that the reverse tandem chromosomes did not result from a telomeric fusion between chromosomes 21 but from a translocation between sister chromatids. The phenotypes of these patients did not differ significantly from that of individuals with full trisomy 21, except in one case with large ears with an unfolded helix. The fact that monosomy of distal 21q22.3 in these patients resulted in a phenotype very similar to Down syndrome suggests that the duplication of the genes located in this part of chromosome 21 is not necessary for the pathogenesis of the Down syndrome features observed in these patients, including most of the facial and hand features, muscular hypotonia, cardiopathy of the Fallot tetralogy type, and part of the mental retardation.
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PMID:No significant effect of monosomy for distal 21q22.3 on the Down syndrome phenotype in "mirror" duplications of chromosome 21. 146 8

A newborn girl with generalized muscular hypotonia and minor anomalies was referred for chromosome analysis. Cytogenetic investigation showed a satellite and an Ag-positive NOR on the distal short arm of one chromosome 1, thus indicating an unbalanced translocation involving the short arm of an acrocentric chromosome. The phenotypically normal mother had the same satellited chromosome 1 with Ag-positive NOR. One chromosome 15 was the only acrocentric chromosome in her karyotype lacking recognizable satellites and an Ag-positive NOR. Thus a balanced reciprocal translocation between the short arms of chromosomes 1 and 15 in the mother was suggested. The cytogenetic diagnosis was confirmed by nonradioactive in situ hybridization with the most distal DNA probe on chromosome 1, the probe p1-79, localized at chromosome band 1p36.3. The probe was biotinylated by nick-translation, and detection was done by FITC labelled avidin binding. Hybridization signals were observed on both the mother's normal chromosome 1 and the derivative chromosome 15 but not on her derivative chromosome 1. Consequently, the index patient has an unbalanced karyotype with monosomy (1p36.3). Comparing their clinical reports shows that patients with similar terminal deletions of 1p share several manifestations.
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PMID:Reciprocal translocation t(1;15)(p36.2;p11.2): confirmation of a suggestive cytogenetic diagnosis by in situ hybridization and clinical case report on resulting monosomy (1p). 162 64

Peroxisomes are among the intracellular organelles of eukaryotic cells that contain specialized sets of enzymes with specific functions. Little is known of membranous components involved in assembly of the intracellular compartments. We isolated two peroxisome-deficient and mutually complementary, Chinese hamster ovary cell mutants, Z65 and Z24, which closely resembled fibroblasts from patients with autosomal recessive, peroxisome-defective disorders such as Zellweger syndrome. These patients show characteristic dysmorphism, severe hypotonia, psychomotor retardation, and peroxisomal dysfunctions and rarely survive early childhood. Here we report what seems to be the first direct cloning and characterization of a complementary DNA encoding a peroxisomal membrane protein of relative molecular mass 35,000 (Mr35K) that restores the biogenesis of peroxisomes and complements the defect of peroxisomal functions in the mutant Z65.
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PMID:Restoration by a 35K membrane protein of peroxisome assembly in a peroxisome-deficient mammalian cell mutant. 175 Sep 30

We describe a 6 month-old girl with a 49, XX-XXX chromosome constitution. The patient had a characteristic round face, a low hairline, hypertelorism, epicanthus, a long philtrum, high-arched palate, short and webbed neck, small hands and feet, clinodactyly of the fifth fingers, overlapping toes, and separation between the first and the second toes. She also had atrial septal defect and patent ductus arteriosus complicated by myocarditis which exacerbated the course of her congestive heart failure. Psychomotor development was retarded with opisthotonoid posture, axial hypotonia, and with a borderline abnormal EEG. A densitometric, transmission analysis on X-linked polymorphic DNA-fragments of the Southern blots of the patient and the parents, using P20/MspI and pERT87-1/XmnI as probe/enzyme combinations, showed that the pentasomy X had resulted from 3 successive nondisjunctions at maternal meiosis. Clinical manifestations among 22 previously reported penta X syndrome patients are also reviewed.
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PMID:Penta X syndrome: a case report with review of the literature. 188 50

We report a 2-year-old boy with Duchenne muscular dystrophy (DMD), glycerol kinase deficiency (GK) and adrenal hypoplasia congenita (AHC). At three weeks of age, the patient was hospitalized for the first time with symptoms of hypotone dehydration because of AHC. At present, he shows severe muscular hypotonia and developmental delay. The patient and his family were referred to us for prenatal diagnosis and carrier testing in the mother of the patient and the mother's sister, respectively. The patient's DNA was examined by Southern blot and polymerase chain reaction analyses, using cDNA and genomic probes within and around the dystrophin (DYS) locus. A deletion was revealed, spanning DXS28, the whole dystrophin locus, DXS84 and DXS148, whereas DXS67, DXS68 (pter) and OTC (cen) were found to be retained. The cytogenetically visible microdeletion was also seen in the patient's mother, but not in the mother's sister or the patient's maternal grandmother. Our findings support the locus order pter-DXS67-DXS68-DXS28-AHC-GK-DMD-cen.
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PMID:Characterisation of a Xp21 microdeletion syndrome in a 2-year-old boy with muscular dystrophy, glycerol kinase deficiency and adrenal hypoplasia congenita. 199 45


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