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Studying the structural dynamics of bipedal DNA motors with single-molecule fluorescence spectroscopy.

ACS nano (2012-06-06)
Rula Masoud, Roman Tsukanov, Toma E Tomov, Noa Plavner, Miran Liber, Eyal Nir
RESUMEN

We present a test case example of a detailed single-molecule fluorescence study of one of the most sophisticated and complex DNA devices introduced to date, a recently published autonomous bipedal DNA motor. We used the diffusion-based single-molecule Förster resonance energy transfer technique, coupled to alternating laser excitation (sm-FRET-ALEX), to monitor the motor assembly and operation. The study included verification of the formation of the correct structures, and of the correct motor operation, determination of the formation and stepping reaction yields, and identification of side products. Finally, the mechanisms of the motor assembly and operation were elucidated by measuring the reaction kinetics profile of track-walker binding and of lifting of the walker's leg upon fuel addition. The profiles revealed a fast phase, in which about half of the reaction was completed, followed by a slow phase which adds somewhat to the yield, reflecting the incomplete motor assembly and operation identified in the equilibrium experiments. Although further study is needed to fully understand the reasons for the incomplete assembly and operation, this work demonstrates that single-molecule fluorescence, based on its ability to provide detailed in situ structural dynamics information, inaccessible for traditional methods, constitutes an excellent tool for chaperoning the development of DNA-based technology.

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Sigma-Aldrich
Atto 550 NHS ester, BioReagent, suitable for fluorescence
Sigma-Aldrich
Atto 550, for fluorescence, ≥90% (HPLC)
Sigma-Aldrich
Atto 550-Biotin, BioReagent, suitable for fluorescence, ≥90% (HPLC)
Sigma-Aldrich
Atto 550 azide, BioReagent, suitable for fluorescence