UNIPROT:Q00604 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Duchenne/Becker muscular dystrophy is a severe, recessive, X-linked neuromuscular disease with an incidence of 1/3500 (Duchenne type) and 1/30,000 (Becker type) in newborn boys. The gene responsible for the Duchenne/Becker muscular dystrophy phenotype is located at Xp21 and its 427 kD protein product is called dystrophin. Deletions, point mutations and rarely duplications can occur almost anywhere in the DMD gene, which makes the molecular diagnosis difficult. Multiple polymerase chain reactions detect 95% of deletions in affected males [2, 4], but are not suitable for carrier detection in female relatives. Southern-blot analysis with six different cDNA probes covers the whole 14 kb dystrophin transcript and allows the detection of female carriers by comparing the intensity of the signals corresponding to the different exons. This method is time consuming compared to the newly introduced multiple ligation-dependent probe amplification method. Multiple ligation-dependent probe amplification is a method suitable for relative quantification of several DNA sequences in one reaction. The authors report results on 93 cases where the carrier status was analysed simultaneously by cDNA hybridisation and multiple ligation-dependent probe amplification technique. In 42 cases the carrier state was confirmed and in this carrier population the authors additionally detected two cases with duplication, two cases with one copy of the whole dystrophin gene and three manifest carrier females. On the basis of these results the MLPA technique, which has been newly introduced in Hungary, proved to be a sensitive and quick method for the detection of carrier state in the DMD/BMD disease. Moreover, the exact deletion or duplication border can be detected and as a result, prediction on the phenotype can be given. This will provide the right therapeutic intervention for the affected patients in the future.
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PMID:[Carrier detection in families affected by Duchenne/Becker muscular dystrophy]. 1805 93

DMD and BMD are X-linked myopathy diseases in most cases caused by intragenic deletions, but duplications also appear in a significant number of cases. We present a complex duplication pattern detected by MLPA, a recently formulated method applied here to amplify the 79 exons of the DMD gene. We found a double-duplication in two DMD-affected brothers and in their carrier mother, which consist of two non-contiguous duplications encompassing exons 2 to 7 and exons 50 to 55. Different models are presented to explain formation of this genetic variant.
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PMID:Two non-contiguous duplications in the DMD gene in a Spanish family. 1836 65

Duchenne muscular dystrophy is an X-linked condition at the severe end of the spectrum of dystrophinopathies. Females with dystrophin mutations are at risk for cardiomyopathy, but are usually asymptomatic during childhood. However, some girls can exhibit features of Duchenne muscular dystrophy because of skewed X-inactivation, aneuploidy, or chromosomal rearrangement. Oculo-facio-cardio-dental syndrome is a rare X-linked disorder, lethal in males, that comprises microphthalmia, congenital cataracts, congenital heart defect, canine radiculomegaly, and digital anomalies. We report on a 7-year-old girl who was referred for muscular hypotonia, with clinical features of Duchenne muscular dystrophy, including elevated serum creatine phosphokinase, pseudohypertrophy of calf muscles, and muscle weakness, which became evident at 3 years of age. In addition, she had multiple congenital anomalies including atrial septal defect, cataracts, dental and digital anomalies, a constellation that suggested the diagnosis of oculo-facio-cardio-dental syndrome, a condition caused by mutations in BCOR. Immunohistochemistry and Western blot analysis of muscle, and mutation analysis of DMD showed a maternally inherited deletion of exons 30-43, confirming the diagnosis of Duchenne muscular dystrophy. Studies of lymphocytes showed essentially complete skewing of X-inactivation. Mutation analysis of BCOR revealed a de novo frameshift mutation (c.1005delC). Thus, we report for the first time on an individual with the co-occurrence of Duchenne muscular dystrophy and oculo-facio-cardio-dental syndrome.
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PMID:Molecular characterization of co-occurring Duchenne muscular dystrophy and X-linked oculo-facio-cardio-dental syndrome in a girl. 1944 33

The presence of multiple affected offspring from apparently non-carrier parents is caused by germ line mosaicism. Although germ line mosaicism has been reported for many diseases, figures for recurrence risks are known for only a few of them. In X-linked Duchenne and Becker muscular dystrophies (DMD/BMD), the recurrence risk for non-carrier females due to germ line mosaicism has been estimated to be between 14% and 20% (95% confidence interval 3-30) if the risk haplotype is transmitted. In this study, we have analyzed 318 DMD/BMD cases in which the detected mutation was de novo with the aim of obtaining a better estimate of the 'true' number of germ line mosaics and a more precise recurrence risk. This knowledge is essential for genetic counseling. Our data indicate a recurrence risk of 8.6% (4.8-12.2) if the risk haplotype is transmitted, but there is a remarkable difference between proximal (15.6%) (4.1-27.0) and distal (6.4%) (2.1-10.6) deletions. Overall, most mutations originated in the female. Deletions occur more often on the X chromosome of the maternal grandmother, whereas point mutations occur on the X chromosome of the maternal grandfather. In unhaplotyped de novo DMD/BMD families, the risk of recurrence of the mutation is 4.3%.
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PMID:Recurrence risk due to germ line mosaicism: Duchenne and Becker muscular dystrophy. 1947 18

Duchenne/Becker muscular dystrophy (DMD/BMD) is an X-linked lethal recessive disease caused by mutation in the DMD gene. There is no efficient treatment for this serious and disabling disease. We established a combination method to detect carriers and performed prenatal diagnosis. Using multiplex ligation-dependent probe amplification (MLPA) and linkage analysis of short tandem repeats (STR) methods, 26 prenatal diagnosis were performed for pregnancies at risk of having a DMD/BMD baby through amniocentesis. Seven out of 26 male fetuses were affected and the pregnancies were terminated. Four out of 26 female fetuses were found to be carriers. MLPA can be the method of choice for initial screening of DMD/BMD patients for deletions and duplications mutations. When combined with STR-based analysis, it can improve the rate of DMD/BMD prenatal diagnosis.
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PMID:[Prenatal diagnosis of Duchenne and Becker muscular dystrophy by multiplex ligation-dependent probe amplification]. 1958 59

OTC deficiency, a partially dominant X-linked trait, is the most frequent inborn error of the urea cycle. We describe a female patient with a contiguous gene deletion syndrome encompassing the OTC, DMD, RPGR, CYBB and XK genes, amongst others, only manifesting features of OTC deficiency. Molecular characterization was ascertained by MLPA and confirmed by CGH microarray, which revealed an 8.7 Mb deletion of the X-chromosome. Complete de novo deletion of the OTC gene led to a severe clinical phenotype in the proband. The application of high resolution molecular genetic techniques such as MLPA and array CGH, in mutation negative OTC cases allows the identification of chromosomal rearrangements, such as large deletions and provides information for accurate genetic counseling and prenatal diagnosis.
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PMID:Contiguous gene deletion syndrome in a female with ornithine transcarbamylase deficiency. 1978 89

Heteroduplex formation, required for the complete detection of hemi/homozygotes using high-resolution melting analysis, can be induced either by pre-PCR mixing of genomic DNAs or by post-PCR mixing of PCR products from unknown and reference samples. This study investigates the effects of both methods using two single nucleotide polymorphisms in X-linked DMD gene. The results show that both methods resulted in the same effect when mixing samples with the same gene copy number. Mixing samples with different gene copy numbers has not been previously explored and we show that post-PCR mixing is insensitive to gene copy number differences as compared to pre-PCR mixing.
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PMID:Detection of hemi/homozygotes through heteroduplex formation in high-resolution melting analysis. 2111 3

IL1RAPL1 (interleukin-1 receptor accessory protein-like 1) located at Xp21.3-22.1 has repeatedly been shown to be deleted in patients with a contiguous gene syndrome also affecting neighboring genes, in particular DMD (dystrophin), DAX-1 (NR0B1, nuclear receptor subfamily 0, group B, member 1), and GK (glycerol kinase). In contrast, intragenic deletions of IL1RAPL1 or other mutations or cytogenetic aberrations affecting IL1RAPL1 have only rarely been identified. Up to date, they have mostly been associated with nonspecific mental retardation (MRX). We report on two nonrelated patients with MR and additional dysmorphic features who both show intragenic deletions of IL1RAPL1, one of them being de novo (exon 2) and the other one being inherited from his mother (exons 3-5). Deletions were identified by microarray-based chromosome analysis and confirmed by multiplex PCR and FISH, respectively. These data, along with recent functional studies indicating its role in neuronal development, provide further evidence for the relevance of IL1RAPL1 in the pathogenesis of X-linked MR and add knowledge to the phenotypic spectrum of IL1RAPL1 mutations.
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PMID:Intragenic deletions of IL1RAPL1: Report of two cases and review of the literature. 2127 57

INTRODUCTION. Dystrophinopathies are X-linked genetic disorders caused by mutations in the DMD gene. Genetic tests are of utmost importance for management and genetic counseling of these diseases. However, the complexity of the DMD gene is a challenge for diagnosis. AIM. To describe recent advances in the diagnosis of dystrophinopathies, after 20 years since the firsts molecular assays for genetic screening for these diseases. DEVELOPMENT. Currently, a variety of strategies such as automated mutation detection, cell-based methods and high throughput haplotyping have been developed to facilitate diagnosis of dystrophinopathies, carrier detection, prenatal and preimplantation diagnosis. CONCLUSION. New technologies have improved early detection and optimal management of dystrophinopathies and have established the basis for future molecular medicine. The most significant advances in dystrophinopathy diagnosis are reviewed herein.
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PMID:[Improvements in the diagnosis of dystrophinopathies: what have we learnt in these last 20 years?]. 2131 70

Mutations in genes for any of the six subunits of NADPH oxidase cause chronic granulomatous disease (CGD), but almost 2/3 of CGD cases are caused by mutations in the X-linked CYBB gene, also known as NAD (P) H oxidase 2. Approximately 260 patients with CGD have been reported in Japan, of whom 92 were shown to have mutations of the CYBB gene and 16 to have chromosomal deletions. However, there has been very little detailed analysis of the range of the deletion or close understanding of the disease based on this. We therefore analyzed genomic rearrangements in X-linked CGD using array comparative genomic hybridization analysis, revealing the extent and the types of the deletion genes. The subjects were five Japanese X-linked CGD patients estimated to have large base deletions of 1 kb or more in the CYBB gene (four male patients, one female patient) and the mothers of four of those patients. The five Japanese patients were found to range from a patient exhibiting deletions only of the CYBB gene to a female patient exhibiting an extensive DNA deletion and the DMD and CGD phenotype manifested. Of the other three patients, two exhibited CYBB, XK, and DYNLT3 gene deletions. The remaining patient exhibited both a deletion encompassing DNA subsequent to the CYBB region following intron 2 and the DYNLT3 gene and a complex copy number variation involving the insertion of an inverted duplication of a region from the centromere side of DYNLT3 into the deleted region.
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PMID:Copy number variations due to large genomic deletion in X-linked chronic granulomatous disease. 2238 43

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