An expedient chemical synthesis of a 75mer peptide corresponding to the DNA binding domain (DBD, 227-301) of the human MafA leucine zipper transcription factor is reported. The application of microwave-assisted solid phase peptide synthesis (MW-SPPS) with a protocol modified respect to the standard one allowed obtaining the desired 75mer peptide in a short time with high quantity and optimal purity. MW-SPPS methodology was thus demonstrated as a valuable alternative to recombinant methods to obtain protein domains. Considering that recent findings suggest an involvement of MafA in the pathogenesis of diabetes mellitus, we also performed circular dichroism studies both on DBD folding and its interaction with MafA recognition element (MARE) on insulin enhancer. From our results, it was evicted that a disorder to order transition occurs after DBD interaction with insulin MARE which is mediated by specific structural elements on the N-terminus of the DBD.
RNA editing from adenosine to inosine (A-to-I editing) is one of the mechanisms that regulate and diversify the transcriptome. Here, a triplex-forming peptide nucleic acid (PNA) modified with a 2-aminopyridine nucleobase was applied for the recognition of the A-to-I editing event in double-stranded RNAs. The triplex-forming PNA enabled sequence-specific detection of single nucleobase editing at sub-nanomolar concentration.
Peptide nucleic acid (PNA) modified with unnatural nucleobases enables the formation of a highly stable triplex with a double-stranded RNA at physiological pH. In this communication, we evaluated kinetics and thermodynamics of PNA/RNA triplex formation as a function of both pH and temperature. Protonation entropy was found to be the major factor responsible for the destabilization of the triplex and for the progressive decrease in the association rate at more basic pHs.
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