A Novel Mechanism Generating Short Deletion/Insertions Following Slippage is Suggested by a Mutation in the Human α2-Globin Gene
V Oron-Karni, D Filon, D Rund… - Human molecular …, 1997 - academic.oup.com
V Oron-Karni, D Filon, D Rund, A Oppenheim
Human molecular genetics, 1997•academic.oup.comA novel mechanism generating short deletion/insertions is described based on a mutation in
the human α2-globin gene. A deletion of 9 bp (codons 39–41) is replaced by an eight
nucleotide insertion, duplicating the adjacent downstream sequence. We propose that the
mutation arose by slipped strand mispairing (SSM), creating a single-stranded loop,
followed by DNA elongation, strand breathing and the formation of a mismatch bubble. An
extensive literature search has revealed six additional deletion/insertion mutations in …
the human α2-globin gene. A deletion of 9 bp (codons 39–41) is replaced by an eight
nucleotide insertion, duplicating the adjacent downstream sequence. We propose that the
mutation arose by slipped strand mispairing (SSM), creating a single-stranded loop,
followed by DNA elongation, strand breathing and the formation of a mismatch bubble. An
extensive literature search has revealed six additional deletion/insertion mutations in …
Abstract
A novel mechanism generating short deletion/insertions is described based on a mutation in the human α2-globin gene. A deletion of 9 bp (codons 39–41) is replaced by an eight nucleotide insertion, duplicating the adjacent downstream sequence. We propose that the mutation arose by slipped strand mispairing (SSM), creating a single-stranded loop, followed by DNA elongation, strand breathing and the formation of a mismatch bubble. An extensive literature search has revealed six additional deletion/insertion mutations in humans in which the inserted nucleotides come from the same DNA strand. Our model explains all six mutations, suggesting that rearrangement of a mismatch loop or bubble during DNA replication may be not uncommon.
Oxford University Press