2021 article

Site-Specific DNA Functionalization through the Tetrazene-Forming Reaction in Ionic Liquids

Ishizawa, S., Tumurkhuu, M., Gross, E., & Ohata, J. (2021, September 13). (Vol. 9). Vol. 9.

co-author countries: United States of America πŸ‡ΊπŸ‡Έ
Source: ORCID
Added: February 2, 2022

Development of multiple chemical tools for deoxynucleic acid (DNA) labeling has facilitated wide use of their functionalized conjugates, but significant practical and methodological challenges remain to achievement of site-specific chemical modification of the biomacromolecule. As covalent labeling processes are more challenging in aqueous solution, use of nonaqueous, biomolecule-compatible solvents such as an ionic liquid consisting of a salt with organic molecule architecture, could be remarkably helpful in this connection. Herein, we demonstrate site-specific chemical modification of DNAs through a tetrazene-forming amine-azide coupling reaction using an ionic liquid. This ionic liquid-enhanced reaction process has good functional group tolerance and precise chemoselectivity, and enables incorporation into DNA of various useful functionalities such as biotin, cholesterol and fluorophores which could be incorporated into DNA through this method. A site-specifically labeled single stranded nucleotide, or aptamer interacting with a growth factor receptor (Her2) was successfully used in the fluorescence imaging of breast cancer cell lines. The non-traditional medium-promoted labeling strategy described here provides an alternative design paradigm for future development of chemical tools for applications involving DNA functionalization.