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Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Von Willebrand disease
(vWD) type IIA is characterized by decreased ristocetin-induced platelet aggregation, and by the absence from plasma of high molecular weight multimers of von Willebrand factor (vWF). Most mutations causing vWD type IIA are clustered within the A2 domain of the mature vWF subunit that is encoded by exon 28. Using the polymerase chain reaction (PCR), the entire exon 28 from patients with vWD type IIA and normal controls was amplified and sequenced. Three missense mutations were detected that result in the amino acid substitutions were detected that result in the amino acid substitutions Arg(834)----Trp, Gly(742)----Glu, and Ser(743)----Leu. The first mutation occurred independently in three unrelated families; each of the latter mutations was found in one family. By restriction
endonuclease
analysis and allele-specific oligonucleotide (ASO) hybridization the mutations were confirmed in affected family members and excluded in unaffected members and 50 normal controls. The apparently high frequency of identical independent mutations among patients with vWD type IIA suggests that a precise diagnosis may be possible in a majority of patients using relatively simple recombinant DNA screening assays.
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PMID:Characterization of three mutations causing von Willebrand disease type IIA in five unrelated families. 132 33
Plasma von Willebrand factor (vWf) is a multi-domain multimerized glycoprotein which has a dual role in haemostasis: it promotes platelet adhesion to subendothelium and is the carrier of blood coagulation factor VIII (FVIII). We previously characterized a functional defect of vWf, limited to its ability to bind FVIII, in two families whose affected members have the same phenotype that mimics mild haemophilia A and was tentatively named
von Willebrand's disease
(vWD) 'Normandy'. A homozygous point mutation C----T converting Thr 28 to Met in mature vWf subunit was identified in one of these patients who was born of third-cousin parents. In the present studies we report two unrelated new cases of vWD 'Normandy' and characterize, using the analysis of the vWf gene intron 40 region containing a variable number of tandem repeats, the recessive inheritance of the disease in two affected families without known consanguinity. Exons 18-24 of the vWf gene encoding for the first 311 amino acids of mature vWf subunit were amplified by the polymerase chain reaction method and sequenced. Two new missense mutations, both corresponding to a C----T transition and predicting respectively an Arg 53----Trp and an Arg 91----Gln substitution, were characterized. The three patients from family 1 were homozygous for the first-mentioned mutation while the patient from family 3 was homozygous for the second. The patient from family 2 was found a compound heterozygote for the two mutations. None of the two point mutations reported, both destroying a MspI restriction site, could be detected in DNA from 50 normal controls screened by restriction
endonuclease
analysis. Our data show that different mutations may be found in patients with the 'Normandy' phenotype. The mutations characterized so far are all localized on the N-terminal region of mature vWf subunit, within or near the major FVIII binding domain, and some of them occur within the epitope of monoclonal antibodies inhibiting the vWf/FVIII interaction. These observations suggest a causal relationship between these mutations and the vWD 'Normandy' phenotype.
...
PMID:Identification of two point mutations in the von Willebrand factor gene of three families with the 'Normandy' variant of von Willebrand disease. 183 34
Many variants of
von Willebrand disease
(vWD) with qualitatively abnormal von Willebrand factor (vWF) are recognized. In vWD type IIB, the abnormal protein displays enhanced affinity for a platelet vWF receptor, the glycoprotein Ib-IX complex. 14 patients from 7 unrelated families with vWD type IIB were studied to determine the molecular basis for this phenotype. Specific oligonucleotide primers were used to amplify portions of vWF exon 28 encoding a domain that interacts with the platelet glycoprotein Ib-IX complex. Candidate missense mutations were identified for all 14 patients by DNA sequencing, allele specific oligonucleotide hybridization, and restriction
endonuclease
digestion. These sequence changes occur in an 11 amino acid segment within a single disulfide loop bounded by Cys(509) and Cys(695). All of these sequence changes are C----T transitions within CG dinucleotides. Six patients from two unrelated families were heterozygous for the encoded sequence Arg(543)----Trp. Seven patients from four unrelated families were heterozygous for the encoded sequence Arg(545)----Cys; this sequence change appears to have occurred independently three times, once as a new spontaneous mutation. One patient with apparently sporadic vWD type IIB was heterozygous for the encoded sequence Val(553)----Met, and this appears to be a new mutation. None of these sequence changes was found in 100 normal alleles. These findings suggest that vWD type IIB may be caused by relatively few distinct mutations, that these mutations may cluster within a specific region of one disulfide loop in vWF domain A1, and that this region can modulate the affinity of vWF for the platelet glycoprotein Ib-IX complex.
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PMID:Molecular basis of von Willebrand disease type IIB. Candidate mutations cluster in one disulfide loop between proposed platelet glycoprotein Ib binding sequences. 201 May 38
von Willebrand disease
(vWD), one of the most common bleeding disorders in humans, is manifested as a quantitative or qualitative defect in von Willebrand factor (vWF), an adhesive glycoprotein (GP) with critical hemostatic functions. Except for the rare severely affected patient with a gene deletion as etiology of the disease, the molecular basis for vWD is not known. We studied the molecular basis for vWD in a breeding colony of pigs with a disease closely resembling the human disorder. The porcine vWF gene is similar in size and complexity to its human counterpart, and no gross gene deletion or rearrangement was evident as the pathogenesis of porcine vWD. A restriction fragment-length polymorphism (RFLP) within the porcine vWF gene was identified with the restriction
endonuclease
HindIII, and 22/35 members of the pedigree were analyzed for the polymorphic site. Linkage between the vWF locus and the vWD phenotype was established with a calculated LOD score of 5.3 (1/200,000 probability by chance alone), with no crossovers identified. These findings indicate that porcine vWD is due to a molecular defect within (or near) the vWF locus, most likely representing a point mutation or small insertion/deletion within the vWF gene.
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PMID:Molecular genetic analysis of porcine von Willebrand disease: tight linkage to the von Willebrand factor locus. 289 53
Severe
von Willebrand disease
is characterized by undetectable or trace quantities of von Willebrand factor in plasma and tissue stores. We have studied the genomic DNA of 10 affected individuals from six families with this disorder using probes from the 5' and 3' ends of the vWF cDNA and with a probe extending from the 5' end into the central region. Southern blots of restriction
endonuclease
digests and gene dosage analysis measurements carried out with quantitative slot blots of undigested genomic DNA separated these patients into three groups. The first group consisted of a family with complete homozygous deletions of the vWF gene in the four probands. Gene dosage analysis was consistent with heterozygous deletions in both of the asymptomatic parents and four asymptomatic siblings of this kindred (P less than 0.01). The second group was comprised of a family in which there was a complete heterozygous deletion of the vWF gene in the proband and one asymptomatic parent, suggesting that a different type of genetic abnormality was inherited from the other parent. Thus, the patient appeared to be doubly heterozygous for interacting genetic abnormalities affecting vWF expression. In the third group, no gene deletions could be detected. Alloantibodies developed only in the kindred with homozygous deletions. These techniques should prove useful in identifying carriers of severe
von Willebrand disease
and also in defining patients predictably at risk of developing alloantibodies to vWF.
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PMID:Homozygous and heterozygous deletions of the von Willebrand factor gene in patients and carriers of severe von Willebrand disease. 325 63
