PubMed ID: 28642967
Abstract:
Practical application of enzymatic nucleic acids has received more attention in recent years. Understanding the mechanism of catalysis and availability of information on potentials and limitations of these enzymes expands their application scope. A general approach for characterization of functional macromolecules including enzymatic nucleic acids is to perturb a specific set of condition and to follow the perturbation effect by biophysical and biochemical methods. This chapter reviews several perturbation strategies for functional nucleic acids, including deletion, mutation, and modifications of backbone and nucleobases, and consequent kinetic analysis, spectroscopic investigations, and probing assays. In addition to single point mutation and modifications, different combinatorial approaches for perturbation interference analysis provide reliable high amounts of data in a time-effective manner. The chapter compares various combinatorial perturbation interference analysis methods, that is, combinatorial mutation interference analysis (CoMA), nucleotide analogue interference mapping for RNA and DNA (NAIM and dNAIM), chemical and enzymatic combinatorial nucleoside deletion scanning (NDS), and dimethyl sulfate interference (DMSi).