Length-dependent DNA separations using multiple end-attached peptide nucleic acid amphiphiles in micellar electrokinetic chromatography

Abstract

End‐labeled free‐solution electrophoresis (ELFSE) is an alternative approach to gel‐based methods for size‐based electrophoretic separation of DNA. In ELFSE, an electrically neutral “drag‐tag” is appended to DNA to add significant hydrodynamic drag, thereby breaking its constant charge‐to‐friction ratio. Current drag‐tag architecture relies on covalent attachment of polymers to each DNA molecule. We have recently proposed the use of micellar drag‐tags in conjunction with sequence‐specific hybridization of peptide nucleic acid amphiphiles (PNAAs). This work investigates the effect of multiple PNAA attachment on DNA resolution using MEKC. Simultaneous PNAA hybridization allows for the separation of long DNA targets, up to 1012 bases, using micellar drag‐tags. Each PNAA handle independently interacts with the micellar phase, reducing the overall mobility of this complex relative to individual PNAA binding. The sequence‐ and size‐based dependence of this separation technique is maintained with multiple PNAA binding over a range of DNA sizes. Results are accurately described by ELFSE theory, yielding α = 54 for single‐micelle tagging and α = 142 for dual‐micelle tagging. This method is the first example of a non‐covalent drag‐tag used to separate DNA of 1000 bases based on both size and sequence.