Towards an Understanding of the Molecular Mechanisms of Variable Unnatural Base-Pair Behavior: A Biophysical Analysis of dNaM-dTPT3.

Abstract

The series of unnatural base pairs (UBPs) developed by the Romesberg lab, which pair via hydrophobic and packing interactions have been replicated, transcribed, and translated inside of a living organism. However, as to why these UBPs exhibit variable fidelity and efficiency when used in different contexts is not clear. In an effort to gain some insights, we investigated the thermal stability and pairing selectivity of the (d)NaM-(d)TPT3 UBP in 11nt duplexes via UV spectroscopy and the effects on helical structure via CD spectroscopy. We observed that while the duplexes containing a UBP are less stable than fully natural duplexes, they are generally more stable than duplexes containing natural mispairs. This work provides the first insights connecting the thermal stability of the (d)NaM-(d)TPT3 UBP to the molecular mechanisms for varying replication fidelity in different sequence contexts in DNA, asymmetrical transcription fidelity, and codon:anticodon interactions and can assist in future UBP development.