Factor XIII deficiency has been classified into two categories: type I deficiency, characterized by the lack of both the a and b subunits; and type II deficiency, characterized by the lack of the a subunit alone. To clarify the genetic bases of these diseases, previously reported cases of the type I deficiency were examined at the DNA level. DNA sequence analysis showed that a nucleotide triplet (AAC) was inserted within the codon for Tyr-80 in exon III of the gene for a female proband's b subunit, resulting in the creation of a stop codon. Restriction digestion of amplified DNAs confirmed that the proband and her sister were homozygotes, and their family members were heterozygotes of this mutant allele. A truncated protein composed of 79 amino acids could be synthesized by these homozygotes; however, such a protein would not be secreted or it would degrade quickly, because there were normal amounts of the mutant mRNA, but no b subunit was detected in these patients. The a subunit deficiency of these patients must be a secondary to the b subunit deficiency, as their gene for the a subunit was intact, and the a subunit in their platelets was present within normal levels.
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April 1, 1996
Type I factor XIII deficiency is caused by a genetic defect of its b subunit: insertion of triplet AAC in exon III leads to premature termination in the second Sushi domain
T Izumi,
T Izumi
Department of Molecular Patho-Biochemistry, Yamagata University School of Medicine, Japan.
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T Hashiguchi,
T Hashiguchi
Department of Molecular Patho-Biochemistry, Yamagata University School of Medicine, Japan.
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G Castaman,
G Castaman
Department of Molecular Patho-Biochemistry, Yamagata University School of Medicine, Japan.
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A Tosetto,
A Tosetto
Department of Molecular Patho-Biochemistry, Yamagata University School of Medicine, Japan.
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F Rodeghiero,
F Rodeghiero
Department of Molecular Patho-Biochemistry, Yamagata University School of Medicine, Japan.
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A Girolami,
A Girolami
Department of Molecular Patho-Biochemistry, Yamagata University School of Medicine, Japan.
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A Ichinose
A Ichinose
Department of Molecular Patho-Biochemistry, Yamagata University School of Medicine, Japan.
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Blood (1996) 87 (7): 2769–2774.
Citation
T Izumi, T Hashiguchi, G Castaman, A Tosetto, F Rodeghiero, A Girolami, A Ichinose; Type I factor XIII deficiency is caused by a genetic defect of its b subunit: insertion of triplet AAC in exon III leads to premature termination in the second Sushi domain. Blood 1996; 87 (7): 2769–2774. doi: https://doi.org/10.1182/blood.V87.7.2769.bloodjournal8772769
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April 1 1996
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