The N6-Position of Adenine Is a Blind Spot for TAL-Effectors That Enables Effective Binding of Methylated and Fluorophore-Labeled DNA

Transcription-activator-like effectors (TALEs) are programmable DNA binding proteins widely used for genome targeting. TALEs consist of multiple concatenated repeats, each selectively recognizing one nucleobase via a defined repeat variable diresidue (RVD). Effective use of TALEs requires knowledge about their binding ability to epigenetic and other modified nucleobases occurring in target DNA. However, aside from epigenetic cytosine-5 modifications, the binding ability of TALEs to modified DNA is unknown. We here study the binding of TALEs to the epigenetic nucleobase N6-methyladenine (6mA) found in prokaryotic and recently also eukaryotic genomes. We find that the natural, adenine (A)-binding RVD NI is insensitive to 6mA. Model-assisted structure–function studies reveal accommodation of 6mA by RVDs with altered hydrophobic surfaces and abilities of hydrogen bonding to the N6-amino group or N7 atom of A. Surprisingly, this tolerance of N6 substitution was transferrable to bulky N6-alkynyl substituents us...