8 rezultatus
Christmas disease was first reported as a distinct clinical entity in two manuscripts published in 1952. The eponym associated with this disorder, is the surname of the first patient examined in detail and reported by Biggs and colleagues in a paper describing the clinical and laboratory features of
Studies have shown that hemophilia B (Christmas disease; factor IX deficiency) results from many different mutations in the factor IX gene, of which greater than 95% are single nucleotide substitutions. This study has identified a previously unreported form of hemophilia B in a patient who was a
The purpose of the present study was to determine the normal sequence for the gene encoding factor IX in cats and to characterize the genetic basis for hemophilia B in 2 unrelated male, domestic, mixed-breed cats. Genomic DNA sequence for the entire coding region of the factor IX gene was determined
To define the precise genetic defects of hemophilia B of Chinese origin, we have used the polymerase chain reaction (PCR) combined with direct sequencing to analyze the amplified DNA fragments containing the entire coding regions and their flanking introns of the factor IX gene from 6 affected
Crude barium chloride eluates prepared from 12 unrelated patients with cross-reacting material positive (CRM+) haemophilia B were activated with celite eluate, the reaction products resolved after reduction by 13% SDS-PAGE, and factor IX antigenic material detected by probing with radiolabelled
We investigated the mechanisms responsible for severe factor IX (FIX) deficiency in two cross-reacting material (CRM)-negative hemophilia B patients with a mutation in the first and second epidermal growth factor (EGF) domains of FIX (C71Y and C109Y, respectively). We have determined the kinetics of
Factor IX Zutphen is a variant factor IX molecule isolated from the blood of a patient with severe haemophilia B. The molecular defect in factor IX Zutphen is a Cys18-->Arg mutation as a result of a T-->C transition at residue 6427 of the factor IX gene of the patient. The mutation disrupts the
Factor IX Chicago-2 and prothrombin Madrid were purified from patients with hemophilia B and congenital dysprothrombinemia, respectively. Each protein displays defects in zymogen activation secondary to the failure to cleave one of the sessile bonds whose cleavage is necessary for full coagulant