A. J. Montandon scite author profile

Rapid detection of point mutations in genomic DNA has been achieved by chemical mismatch analysis of heteroduplexes formed between amplified wild-type and target sequences in the human factor IX gene. Amplification and mismatch detection (AMD) analysis of DNA from relatives of haemophilia B patients permitted carrier diagnosis by direct identification of the presence or absence of the mutation in all cases, thus eliminating the need for the informative segregation of polymorphic markers. This extends diagnostic capability to virtually all haemophilia B families. AMD analysis permits detection of all sequence variations in genomic DNA and is therefore applicable to direct diagnosis of X-linked and autosomal diseases and for identification of new polymorphisms for genetic mapping.

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Haemophilia B mutations in a complete Swedish population sample: a test of new strategy for the genetic counselling of diseases with high mutational heterogeneity

Green¹,

Montandon²,

Ljung

et al. 1991

Br J Haematol

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Carrier and prenatal diagnosis based on the identification of the gene defect (direct diagnosis) increases the proportion of haemophilia B families that can be offered precise genetic counselling from the 50-60% attainable by DNA markers, to 100% and they also provide information on the molecular biology of the disease. We propose that in order to maximize the practical and scientific benefits of direct diagnosis the gene defect of complete (possibly national) populations of patients should be characterized and the information stored in appropriate confidential databases. We demonstrate the feasibility of such a strategy by characterizing the mutations of all the patients registered with the Malmö haemophilia centre. These patients (44 male and 1 female) are from 45 unrelated families and 24 (53%) have negative family history. The 25 patients with similar reduction of factor IX:C and factor IX:Ag (24 male + 1 female) have: two gross deletions, three frameshifts, four translation stops, six mutations expected to affect pre-mRNA splicing and 10 amino acid substitutions. The six patients with greater reduction of factor IX:C than factor IX:Ag and the seven with reduced IX:C and normal IX:Ag have only amino acid substitutions. Patients with inhibitors have: one complete deletion, one frameshift and three translation stops. One patient has both a translation stop and a functionally neutral amino acid substitution (His257----Tyr). Characterization of the factor IX mutation was successful in every case, usually entailed 4 person-days work, and has led to the identification of 12 amino acid residues essential for the factor IX structure and function.

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Genetics and molecular biology of haemophilias A and B

Green

Montandon

Giannelli

1991

Blood Coagulation & Fibrinolysis

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Two factor IX mutations in the family of an isolated haemophilia B patient: direct carrier diagnosis by amplification mismatch detection (AMD)

et al. 1990

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Rapid identification of gene defects allows definite carrier and prenatal diagnosis in virtually every family with haemophilia B. We report a study of the family of an isolated patient. Analysis of all the essential regions of the patient's factor IX gene (promoter, exons, transcript processing signals) revealed two mutations: one C----T transition at residue 17762 and another at residue 30890. The former created a translation stop at codon 116, and the latter caused substitution of His 257 by Tyr. The translation stop is an obvious detrimental mutation, while the His 257----Tyr substitution has uncertain functional consequences. From analysis of other family members, it was found that the first mutation had occurred at grandpaternal gametogenesis, in keeping with the negative family history, while the second was of more remote origin and did not reduce the maternal grandfather's factor IX coagulant and antigen level. This neutral mutation (His 257----Tyr) pinpoints a poorly conserved amino acid in factor IX and related serine proteases. Its coexistence with a detrimental mutation stresses the need to examine all essential regions of a gene before attempting to interpret the functional consequences of its sequence changes.

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A. J. Montandon

Detection of three novel mutations in two haemophilia A patients by rapid screening of whole essential region of factor VIII gene

Direct detection of point mutations by mismatch analysis: application to haemophilia B

Haemophilia B mutations in a complete Swedish population sample: a test of new strategy for the genetic counselling of diseases with high mutational heterogeneity

Genetics and molecular biology of haemophilias A and B

Two factor IX mutations in the family of an isolated haemophilia B patient: direct carrier diagnosis by amplification mismatch detection (AMD)

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