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Title: Direct observation of DNA rotation during transcription by Escherichia coli RNA polymerase. Author: Harada Y, Ohara O, Takatsuki A, Itoh H, Shimamoto N, Kinosita K. Journal: Nature; 2001 Jan 04; 409(6816):113-5. PubMed ID: 11343125. Abstract: Helical filaments driven by linear molecular motors are anticipated to rotate around their axis, but rotation consistent with the helical pitch has not been observed. 14S dynein and non-claret disjunctional protein (ncd) rotated a microtubule more efficiently than expected for its helical pitch, and myosin rotated an actin filament only poorly. For DNA-based motors such as RNA polymerase, transcription-induced supercoiling of DNA supports the general picture of tracking along the DNA helix. Here we report direct and real-time optical microscopy measurements of rotation rate that are consistent with high-fidelity tracking. Single RNA polymerase molecules attached to a glass surface rotated DNA for >100 revolutions around the right-handed screw axis of the double helix with a rotary torque of >5 pN nm. This real-time observation of rotation opens the possibility of resolving individual transcription steps.[Abstract] [Full Text] [Related] [New Search]