UNIPROT:Q00604 - FACTA Search

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Query: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Classic hemophilia, (hemophilia A), is an X-linked hereditary bleeding disorder affecting half of the male offspring of female carriers. Prenatal diagnosis offers an option, namely to restrict abortions to hemophilic fetuses only, and thus retain the chance of bearing normal sons. Recently, the authors have made a prenatal diagnosis of hemophilia A in an obligate carrier with a male fetus at 24 weeks of gestation by pure fetal sampling and accurate factor VIII coagulant assay, which was repeatedly less than 1% at 28 weeks of gestation.
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PMID:A case of prenatal diagnosis of hemophilia A. 152 30

The diagnosis of haemophilia A and the identification of carriers has greatly improved with knowledge of the structure of the gene for factor VIII. This has permitted the defect to be tracked in families by the study of restriction fragment length polymorphisms (RFLPs), irrespective of the nature of the molecular defect. However, this approach is time-consuming and the information yielded falls away as more polymorphisms are added. Within the factor VIII gene lies another source of polymorphism, a dinucleotide repeat sequence of varying length known as (CA)n. Conventional mapping localised this (CA)n repeat to intron 13. The polymerase chain reaction, used to examine (CA)n variability in genomic DNA from 25 males and 67 females, revealed eight allelic bands between n = 16 and n = 24. 91% of females were heterozygous for this repeat, and family studies showed X-linked mendelian inheritance with allelic frequencies ranging from 1% to 45%. The intron 13 (CA)n repeat is tightly linked with established RFLPs and tracks with haemophilia A in family studies. The analysis requires DNA from other family members, and relatives of sporadic cases of haemophilia A are only amenable to exclusion. Nonetheless, this intron 13 (CA)n repeat provides the most highly informative marker so far available for factor VIII gene tracking studies in haemophilia A kindreds and a result can be available within a day.
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PMID:Haemophilia A diagnosis by analysis of a hypervariable dinucleotide repeat within the factor VIII gene. 167 78

Haemophilia A is an X-linked bleeding disorder caused by a deficiency of factor VIII. As an essential cofactor in the intrinsic clotting cascade, factor VIII is activated and subsequently inactivated by proteolytic cleavages involving factor IIa (thrombin), factor Xa and activated protein C (APC). Investigation of the thrombin cleavage sites at amino acids 372 and 1689 of the factor VIII protein by oligonucleotide screening, DNA amplification and direct sequencing, enabled us to identify two missense mutations in 441 unrelated haemophiliacs. A C-to-T transition, which leads to the substitution of cysteine for arginine at position 1689, was found in a severely affected patient and a previously undescribed G-to-A substitution, causing replacement of arginine1689 with histidine, was found in a patient with mild disease.
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PMID:Detection and characterisation of two missense mutations at a cleavage site in the factor VIII light chain. 185 41

Emery-Dreifuss muscular dystrophy (EDMD) is an X-linked humeroperoneal dystrophy associated with cardiomyopathy that is distinct from the Duchenne and Becker forms of X-linked muscular dystrophy. Linkage analysis has assigned EDMD to the terminal region of the human X chromosome long arm. We report here further linkage analysis in two multigenerational EDMD families using seven Xq28 marker loci. Cumulative lod scores suggest that EDMD is approximately 2 cM from DXS52 (lod = 15.67) and very close to the factor VIII (F8C) and the red/green color pigment (R/GCP) loci, with respective lod scores of 9.62 and 10.77, without a single recombinant. Several recombinations between EDMD and three proximal Xq28 markers suggest that the EDMD gene is located in distal Xq28. Multipoint linkage analysis indicates that the odds are 2,000:1 that EDMD lies distal to DXS305. These data substantially refine the ability to perform accurate carrier detection, prenatal diagnosis, and the presymptomatic diagnosis of at-risk males for EDMD by linkage analysis. The positioning of the EDMD locus close to the loci for F8C and R/GCP will assist in future efforts to identify and isolate the disease gene.
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PMID:Assignment of Emery-Dreifuss muscular dystrophy to the distal region of Xq28: the results of a collaborative study. 199 33

A plasma von Willebrand factor (vWf) defect limited to its failure to bind factor VIII (FVIII) was previously characterized in a woman with FVIII deficiency and normal primary haemostasis. By using in vitro tests we found a similar pattern in three siblings of another family previously thought to be affected with mild haemophilia A. Furthermore, a decrease in vWf ability to bind FVIII was found in the parents and the brother of the three patients. This decrease was consistent with heterozygous expression of a recessive vWf gene abnormality. FVIII deficiency was corrected by infusion with a vWf concentrate almost devoid of FVIII coagulant activity. FVIII recovery and half-life thus obtained showed that this treatment was more effective than a FVIII infusion performed by way of comparison. These results indicate that this vWf defect may account for FVIII deficiency in patients without the usual laboratory and clinical features of von Willebrand's disease. Changes in therapy and genetic counselling following the new diagnosis in this family emphasize the need to search for such a vWf defect in patients in whom FVIII deficiency is not obviously X-linked.
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PMID:Evidence for a von Willebrand factor defect in factor VIII binding in three members of a family previously misdiagnosed mild haemophilia A and haemophilia A carriers: consequences for therapy and genetic counselling. 212 99

Hemophilia A is an X-linked bleeding disorder caused by a deficiency or abnormality of factor VIII, affecting approximately 1 male in 10,000. A subgroup of the patients develops inhibitors against factor VIII during substitution therapy. Because a considerable percentage of all cases is thought to result from de novo mutations, it is likely that many different molecular lesions lead to hemophilia A. In order to understand the molecular basis of this disorder, we examined 160 patients with different clinical features using factor VIII gene probes. We could identify six different deletions and seven nonsense mutations within the factor VIII gene. Family analysis revealed that five of these mutations occurred de novo within two generations; two of them arose in the maternal grandfather and three in the mother. In one of these mothers we could identify a mitotic origin. Mapping of the deletions showed no deletion-prone region within the gene. Furthermore, we could not find any correlation between the particular gene defects and "inhibitor" phenotypes.
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PMID:Molecular defects in hemophilia A: identification and characterization of mutations in the factor VIII gene and family analysis. 247 10

RNA molecules that differ by a single base pair in their highest melting domain can be separated by the solution melting method (Smith et al., 1988) due to sequence-specific melting properties of double-stranded (ds) RNA heteroduplexes. We now show that this method can be used to reliably detect single base pair differences in DNA molecules, and we define the upper limit of the high melting domain length that can be analyzed by this method for dsRNA and RNA-DNA molecules as about 250 bp and 130 bp, respectively. The usefulness of this method to detect point mutations in human genomic DNA is evaluated. X-linked genes are most amenable to study, because results are most easily interpretable when only a single allele is present. Using the human factor VIII gene as an example, we show this method is capable of detecting polymorphisms present in genomic DNA after amplification by the polymerase chain reaction. This technique should prove useful in the simultaneous rapid screening of multiple exons of X-linked genes for single-base mutations.
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PMID:Detection of single-base mutations in DNA molecules using the solution melting method. 249 56

Hemophilia A is an X-linked bleeding disorder resulting from a defect in coagulation factor VIII. Clinical severity, the level of factor VIII activity and coagulant antigen vary widely. However, the three parameters breed true in families, indicating that the phenotypic expression directly reflects the genetic defect. In about 5%, hemophilia A results from partial deletion of the factor VIII gene and is clinically severe. In another 5% single base mutations have been found, which destroy the binding sites for the restriction enzyme TaqI. They can be "nonsense" mutations resulting in stop codons and clinically severe hemophilia, or "missense" mutations resulting in amino acid changes and milder forms of hemophilia. By the use of the polymerase chain reaction and denaturing gradient gel electrophoresis we have detected several point mutations. The formation of anti-factor VIII antibodies appears to be more frequent in patients with defects resulting in absence of factor VIII protein. Carrier detection and prenatal diagnosis can be made with 100% certainty in families with identified mutations. In their absence, polymorphisms affecting recognition sequences for 2 restriction enzymes (BclI and XbaI) within or outside the factor VIII gene can serve as a tag for the mutation and be followed through the pedigree. In the absence of any informative polymorphism the conventional methods for carrier detection are still helpful.--In roughly 1/3 of the patients, the mutation appears "sporadic". However, it can usually be traced within one or two generations of the proband. --Some patients have mosaicism for sporadic mutations, indicating that mutagenesis not necessarily occurs at the level of the gametes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular genetics of hemophilia A. 250 18

Three XbaI restriction fragment length polymorphisms (RFLPs) can be detected using the factor VIII-intron 22 probe (p482.6) in a XbaI-KpnI double digest of genomic DNA. The XbaI (A) site had been reported by Wion et al (1986) to be in intron 22, while the two additional sites. XbaI (B) and XbaI (C), are shown here to be X-linked and close to the XbaI (A) site. The frequencies of heterozygosity for these three sites are 0.49, 0.18 and 0.30 respectively. In 75 females the observed heterozygosity rate for the XbaI (A) site is 0.41 and this increased to 0.57 with the two additional sites. Care should be exercised when interpreting the XbaI RFLPs, since the 1.4 kb XbaI/KpnI fragment and the 4.8 kb XbaI fragment are associated with both positive XbaI (A) and XbaI (B) sites. By the combined use of the multiple XbaI polymorphisms with the BclI site in intron 18, the carrier detection rate would increase to 67%. Four prenatal diagnoses had been performed using the multiple XbaI polymorphisms.
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PMID:Multiple XbaI polymorphisms for carrier detection and prenatal diagnosis of haemophilia A. 211 78

Hemophilia A is an X-linked disease of coagulation caused by deficiency of factor VIII. Using cloned cDNA and synthetic oligonucleotide probes, we have now screened 240 patients and found CG-to-TG transitions in an exon in nine. We have previously reported four of these patients; and here we report the remaining five, all of whom were severely affected. In one patient a TaqI site was lost in exon 23, and in the other four it was lost in exon 24. The novel exon 23 mutation is a CG-to-TG substitution at the codon for amino acid residue 2166, producing a nonsense codon in place of the normal codon for arginine. Similarly, the exon 24 mutations are also generated by CG-to-TG transitions, either on the sense strand producing nonsense mutations or on the antisense strand producing missense mutations (Arg to Gln) at position 2228. The novel missense mutations are the first such mutations observed in association with severe hemophilia A. These results provide further evidence that recurrent mutations are not uncommon in hemophilia A, and they also allow us to estimate that the extent of hypermutability of CG dinucleotides is 10-20 times greater than the average mutation rate for hemophilia A.
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PMID:Nonsense and missense mutations in hemophilia A: estimate of the relative mutation rate at CG dinucleotides. 283 55

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