Haemophilia A diagnosis by analysis of a hypervariable dinucleotide repeat within the factor VIII gene.

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

Haemophilia A diagnosis by analysis of a hypervariable dinucleotide repeat within the factor VIII gene.

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

Haemophilia A diagnosis by simultaneous analysis of two variable dinucleotide tandem repeats within the factor VIII gene.

Haemophilia A is a bleeding disorder caused by defects in the gene coding for the co-factor, factor VIII (FVIII). The few available intragenic restriction fragment length polymorphisms (RFLPs) currently used in carrier detection and prenatal diagnosis of haemophilia A are informative in only about 65% of cases. We earlier reported a multi-allelic dinucleotide tandem repeat, (CA)n, specific to intron 13, which remains the single most informative marker within the FVIII gene. We here report a second informative dinucleotide repeat of the form (GT)n (AG)n, located to intron 22 of the FVIII gene. The polymerase chain reaction (PCR) method was used to examine the variability of the repeat in 60 individuals (75 X-chromosomes) and revealed four alleles. The calculated heterozygosity rate is 45%, and family studies showed X-linked mendelian inheritance. The intron 22 dinucleotide repeat is tightly linked with established RFLPs and tracks with haemophilia A in family studies. We now show that by simultaneous amplification of the intron 13 and 22 repeats using PCR all alleles for both markers are detectable on a single polyacrylamide gel. The information thus obtained from a single multiplexed analysis is greater than from multiple RFLP analyses. Hence, rapid haplotype determination by simultaneous amplification and detection of two intragenic dinucleotide repeats should supersede less informative RFLP analysis

Haemophilia A diagnosis by automated fluorescent DNA detection of ten factor VIII intron 13 dinucleotide repeat alleles.

Haemophilia A is a recessive X linked bleeding disorder caused by deficiency or functional abnormality of coagulation factor VIII. This disease usually has no visible phenotype in female carriers; hence, great efforts are made to offer all haemophilia A families accurate carrier diagnosis. Significant progress in this direction was made with the identification of the intron 13 variable number tandem repeat (VNTR), which is hitherto the most informative single marker within the factor VIII gene. The authors have established intron 13 VNTR detection in their laboratory by adapting its analysis to an automated sequencer using different primers of which one is fluorescent dye labelled. With this method, which is more rapid and convenient than that originally described, 67 haemophilia A families of German origin were screened and two new alleles (alleles 17 and 25) were identified. The informativeness of the VNTR in these families based on the patients maternal X chromosomes (134) is about 67%

Haemophilia A diagnosis by automated fluorescent DNA detection of ten factor VIII intron 13 dinucleotide repeat alleles.

Haemophilia A is a recessive X linked bleeding disorder caused by deficiency or functional abnormality of coagulation factor VIII. This disease usually has no visible phenotype in female carriers; hence, great efforts are made to offer all haemophilia A families accurate carrier diagnosis. Significant progress in this direction was made with the identification of the intron 13 variable number tandem repeat (VNTR), which is hitherto the most informative single marker within the factor VIII gene. The authors have established intron 13 VNTR detection in their laboratory by adapting its analysis to an automated sequencer using different primers of which one is fluorescent dye labelled. With this method, which is more rapid and convenient than that originally described, 67 haemophilia A families of German origin were screened and two new alleles (alleles 17 and 25) were identified. The informativeness of the VNTR in these families based on the patients maternal X chromosomes (134) is about 67%

Haemophilia A diagnosis by automated fluorescent DNA detection of ten factor VIII intron 13 dinucleotide repeat alleles.

Haemophilia A is a recessive X linked bleeding disorder caused by deficiency or functional abnormality of coagulation factor VIII. This disease usually has no visible phenotype in female carriers; hence, great efforts are made to offer all haemophilia A families accurate carrier diagnosis. Significant progress in this direction was made with the identification of the intron 13 variable number tandem repeat (VNTR), which is hitherto the most informative single marker within the factor VIII gene. The authors have established intron 13 VNTR detection in their laboratory by adapting its analysis to an automated sequencer using different primers of which one is fluorescent dye labelled. With this method, which is more rapid and convenient than that originally described, 67 haemophilia A families of German origin were screened and two new alleles (alleles 17 and 25) were identified. The informativeness of the VNTR in these families based on the patients maternal X chromosomes (134) is about 67%