Mechanisms of Dinucleotide Repeat Instability in Escherichia coli

Mechanisms of Dinucleotide Repeat Instability in Escherichia coli

Marc Bichara^a, Isabelle Pinet^a, Sylvie Schumacher^a, and Robert P. P. Fuchs^a
^a Cancérogénèse et Mutagénèse Moléculaire et Structurale, UPR 9003, CNRS, Pôle API, 67400 Strasbourg-Illkirch, France

Corresponding author: Marc Bichara, Cancérogénèse et Mutagénèse Moléculaire et Structurale, UPR 9003, CNRS, Pôle API, Boulevard Sébastien Brant, 67400 Strasbourg-Illkirch, France., bichara{at}esbs.u-strasbg.fr (E-mail)

Communicating editor: R. MAURER

The high level of polymorphism of microsatellites has been usedfor a variety of purposes such as positional cloning of genesassociated with diseases, forensic medicine, and phylogeneticstudies. The discovery that microsatellites are associated withhuman diseases, not only as markers of risk but also directlyin disease pathogenesis, has triggered a renewed interest inunderstanding the mechanism of their instability. In this workwe have investigated the role of DNA replication, long patchmismatch repair, and transcription on the genetic instabilityof all possible combinations of dinucleotide repeats in Escherichiacoli. We show that the (GpC) and (ApT) self-complementary sequencerepeats are the most unstable and that the mode of replicationplays an important role in their instability. We also foundthat long patch mismatch repair is involved in avoiding bothshort deletion and expansion events and also in instabilitiesresulting from the processing of bulges of 6 to 8 bp for the(GpT/ApC)- and (ApG/CpT)- containing repeats. For each dinucleotidesequence repeat, we propose models for instability that involvethe possible participation of unusual secondary structures.

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