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DNA-binding proteins studied by mechanical manipulation and AFM imaging of single DNA molecules
Xiaodan Zhao, Xuyao Priscilla Liu, Jie Yan
Biophysics Reports ›› 2022, Vol. 8 ›› Issue (4) : 212-224.
PDF(22584 KB)
PDF(22584 KB)
DNA-binding proteins studied by mechanical manipulation and AFM imaging of single DNA molecules
The functions of DNA-binding proteins are dependent on protein-induced DNA distortion, the binding preference to special sequences, DNA secondary structures, the binding kinetics and the binding affinity. Recent rapid progress in single-molecule imaging and mechanical manipulation technologies have made it possible to directly probe the DNA binding by proteins, footprint the positions of the bound proteins on DNA, quantify the kinetics and the affinity of protein–DNA interactions, and study the interplay of protein binding with DNA conformation and DNA topology. Here, we review the applications of an integrated approach where the single-DNA imaging using atomic force microscopy and the mechanical manipulation of single DNA molecules are combined to study the DNA–protein interactions. We also provide our views on how these findings yield new insights into understanding the roles of several essential DNA architectural proteins.
AFM imaging / Single-molecule manipulation / Magnetic tweezers / Optical tweezers / DNA–protein interactions / DNA supercoiling / DNA distortion
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