Click Chemistry Assisted Single-Molecule Fingerprinting Reveals a 3D Biomolecular Folding Funnel

摘要

A 3D folding funnel was proposed in the 1990s to explain the fast kinetics exhibited by a biomacromolecule in presence of seemingly unlimited folding pathways. Over the years, numerous simulations have been performed with this concept; however, experimental verification is yet to be attained even for the simplest proteins. Here, we have used a click chemistry based strategy to introduce six pairs of handles in a human telomeric DNA sequence. A laser-tweezers-based, singlemolecule structural fingerprinting on the six inter-handle distances reveals the formation of a hybrid-1 G-quadruplex in the sequence. Kinetic and thermodynamic fingerprinting on the six trajectories defined by each handle-pair depict a 3D folding funnel and a kinetic topology in which the kinetics pertaining to each handle residue is annotated for this G-quadruplex. We anticipate the methods and the concepts developed here are well applicable to other biomacromolecules, including RNA and proteins.