LAUSR

Hemophilia A (HA) provides excellent models to analyze genotype–phenotype relationships and mutational mechanisms. NhF8ld's breakpoints were characterized using case‐specific DNA‐tags, direct‐ or inverse‐polymerase chain reaction amplification, and Sanger sequencing. DNA‐break's stimulators (n = 46), interspersed repeats, non‐B‐DNA, and secondary structures were analyzed around breakpoints versus null hypotheses (E‐values) based on computer simulations and base‐frequency probabilities. Nine of 18 (50%) severe‐HA patients with nhF8lds developed inhibitors, 1/8 affecting one exon and 8/10 (80%) affecting multi‐exons. NhF8lds range: 2–165 kb. Five (45%) nhF8lds involve F8‐extragenic regions including three affecting vicinal genes (SMIM9 and BRCC3) but none shows an extra‐phenotype not related to severe‐HA. The contingency analysis of recombinogenic motifs at nhF8ld breakpoints indicated a significant involvement of several DNA‐break stimulator elements. Most nhF8ld's breakpoint junctions showed microhomologies (1–7 bp). Three (27%) nhF8lds show complexities at the breakpoints: an 8‐bp inverted‐insertion, and the remnant two, inverted‐ and direct‐insertions (46–68 bp) supporting replicative models microhomology‐mediated break‐induced replication/Fork Stalling and Template Switching. The remnant eight (73%) nhF8lds may support nonhomologous end joining/microhomology‐mediated end joining models. Our study suggests the involvement of the retroposition machinery (e.g., Jurka‐targets, Alu‐elements, long interspersed nuclear elements, long terminal repeats), microhomologies, and secondary structures at breakpoints playing significant roles in the origin of the upmost severe phenotype in HA.