Melting Temperature Measurement and Mesoscopic Evaluation of Single, Double and Triple DNA Mismatches

13 March 2020, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Unlike the canonical base pairs AT and GC, the molecular properties of mismatches such as hydrogen bondings and stacking interactions are strongly dependent on the identity of the neighbouring base pairs. As a result, due to the sheer number of possible combinations of mismatches and flanking base pairs, only a fraction of these have been studied in varying experiments or theoretical models. Here, we report on the melting temperature measurement and mesoscopic analysis of contiguous DNA mismatches in nearest-neighbours and next-nearest neighbour contexts. A total of 4032 different mismatch combinations, including single, double and triple mismatches were covered. These were compared with 64 sequences containing all combination of canonical base pairs in the same location under the same conditions. The mesoscopic calculation, using the Peyrard-Bishop model, was performed on the set of 4096 sequences, and resulted in estimates of on-site and nearest-neighbour interactions that can be correlated to hydrogen bonding and base stacking. Our results confirm many of the known properties of mismatches, including the peculiar sheared stacking of tandem GA mismatches. More intriguingly, it also reveals that a number of mismatches present strong hydrogen bonding when flanked on both sites by other mismatches.

Keywords

DNA mismatches
Peyrard-Bishop DNA models
DNA stability
DNA mesoscopic models
DNA tandem mismatches
DNA triple mismatches

Supplementary materials

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