Watson-Crick Base Pairs with Protecting Groups: The 2-Amino Groups of Purine- and 7-Deazapurine-2,6-Diamine as Target Sites for DNA Functionalization by Selective Nucleobase Acylation.

Abstract

The recognition of Watson-Crick base pairs carrying nucleobase protecting groups is reported as a new approach for DNA functionalization. The 2-amino groups of purine- and 7-deazapurine-2,6-diamine 2'-deoxyribonucleosides served as molecular targets for this functionalization. The 2-amino group withstands oligonucleotide deprotection with ammonia, whereas all other protecting groups are released after chemical DNA synthesis. On this basis, a method was developed for the selective functionalization of oligonucleotides at the 2-position of purines and 7-deazapurines. Melting experiments and Tm values obtained from hybridization studies revealed that duplexes with protected (2-amino-dA) and (2-amino-7-deaza-dA)-dT base pairs are as stable as their nonprotected counterparts. Mismatch discrimination of protected purine- and 7-deazapurine-2,6-diamine DNA was superior to that of nonprotected DNA. Click functionalization in the minor groove of the DNA double helix became accessible via introduction of heptynoyl protecting groups bearing a terminal triple bond. Click reactions with pyrene azide validated the usability. DNA conjugates with bulky pyrene residues at the 2-position (minor groove) developed the same high stability as those functionalized at the 7-position (major groove). This demonstrates the potential of our new method using protected base pairs for DNA functionalization and paves the way for new DNA labeling strategies.