Chemical ligation as a method for the assembly of double-stranded nucleic acids: Modifications and local structure studies

A new procedure was developed as an alternative to the enzymatic assembly of natural and modified double-stranded DNAs using chemical reagent (chemical ligation). BrCN was suggested as an efficient coupling reagent, which induces superfast reactions in DNA duplexes. The physicochemical properties and the structure of new types of DNA duplexes, which are the substrates for chemical ligation, with breaks in phosphodiester chains, including concatemers, were studied. Chemical ligation was applied to prepare biologically active 17-200 base-pair double-stranded DNAs and DNA-RNA block-copolymers, to incorporate various modifications into DNA duplexes including pyrophosphate and phosphoramidate unnatural internucleotide bonds. The unique possibilities of this approach were demonstrated in the development of methods for circularization of oligodeoxyribonucleotides and assembly of branched DNAs. The structural-kinetic concept of chemical ligation Was created and the relationship between the reactivity of interacting groups and sequence-dependent local conformation of the ligation site in B-DNA was established. The lesser efficiency of chemical ligation of RNA fragments in comparison to that of DNA analogs was demonstrated and rationalized. This approach was used as a sensitive monitor of a stable double helix formation and third-strand binding to a DNA duplex.