Abstract
DNA sequence analysis of the gene coding for the variant protein, factor IXLong Beach (FIXLB), has identified a transition mutation in an otherwise normal factor IX (FIX) gene. Genomic DNA clones spanning 35 kilobase (kb) pairs of the FIXLB gene were isolated. A gene analysis strategy that specifically characterized exons and their flanking intron sequences predicted the entire amino acid sequence of FIXLB. A thymine to cytosine transition causes the substitution of a threonine codon (ACA) for an isoleucine codon (ATA) in exon VIII of the FIXLB gene. This mutation results in an amino acid substitution at residue 397 of the FIX zymogen and the phenotypic display of hemophilia-B. Previous studies revealed that activated purified FIXLB (FIXaLB) had normal Ca2+, phospholipid, and factor VIIIa binding characteristics. However, FIXaLB activated factor X or factor VII (with their cofactors Ca2+ and phospholipid) at significantly reduced rates, suggesting that the defect in FIXaLB lies near or within the catalytic triad of the FIX heavy chain. Identification of an amino acid substitution near the carboxy-terminus of the FIXaLB heavy chain supports the earlier characterization of this variant protein. Moreover, our data identify a residue in the catalytic domain of FIXa essential for normal function.