Direct Fluorescent Imaging of Translocation and Unwinding by Individual DNA Helicases

• Published in: Methods in enzymology Vol. 581; p. 1
• Main Authors: Pavankumar, T L, Exell, J C, Kowalczykowski, S C
• Format: Journal Article
• Language: English
• Published: United States 2016
• Subjects: Biochemistry - methods; DNA Helicases - genetics; DNA Helicases - isolation & purification; Microscopy, Fluorescence; Molecular Imaging - methods; Optical Tweezers; DNA helicase; Optical trapping; DNA motor protein; Single-molecule imaging; Total internal reflection fluorescence; Single-stranded DNA sensor; DNA translocation; DNA unwinding; Microfluidics; TIRF
• ISSN: 1557-7988
• DOI: 10.1016/bs.mie.2016.09.010

The unique translocation and DNA unwinding properties of DNA helicases can be concealed by the stochastic behavior of enzyme molecules within the necessarily large populations used in ensemble experiments. With recent technological advances, the direct visualization of helicases acting on individual DNA molecules has contributed significantly to the current understanding of their mechanisms of action and biological functions. The combination of single-molecule techniques that enable both manipulation of individual protein or DNA molecules and visualization of their actions has made it possible to literally see novel and unique biochemical characteristics that were previously masked. Here, we describe the execution and use of single-molecule fluorescence imaging techniques, focusing on methods that include optical trapping in conjunction with epifluorescent imaging, and also surface immobilization in conjunction with total internal reflection fluorescence visualization. Combined with microchannel flow cells and microfluidic control, these methods allow individual fluorescently labeled protein and DNA molecules to be imaged and tracked, affording measurement of DNA unwinding and translocation at single-molecule resolution.