A single-molecule study of RNA catalysis and folding

Xiaowei Zhuang; Laura E. Bartley; Hazen P. Babcock; Rick Russell; Taekjip Ha; Daniel Herschlag; Steven Chu

doi:10.1126/science.288.5473.2048

A single-molecule study of RNA catalysis and folding

Xiaowei Zhuang, Laura E. Bartley, Hazen P. Babcock, Rick Russell, Taekjip Ha, Daniel Herschlag, Steven Chu

Research output: Contribution to journal › Article › peer-review

613 Scopus citations

Abstract

Using fluorescence microscopy, we studied the catalysis by and folding of individual Tetrahymena thermophila ribozyme molecules. The dye-labeled and surface-immobilized ribozymes used were shown to be functionally indistinguishable from the unmodified free ribozyme in solution. A reversible local folding step in which a duplex docks and undocks from the ribozyme core was observed directly in single-molecule time trajectories, allowing the determination of the rate constants and characterization of the transition state. A rarely populated docked state, not measurable by ensemble methods, was observed. In the overall folding process, intermediate folding states and multiple folding pathways were observed. In addition to observing previously established folding pathways, a pathway with an observed folding rate constant of 1 per second was discovered. These results establish single- molecule fluorescence as a powerful tool for examining RNA folding.

Original language	English (US)
Pages (from-to)	2048-2051
Number of pages	4
Journal	Science
Volume	288
Issue number	5473
DOIs	https://doi.org/10.1126/science.288.5473.2048
State	Published - Jun 16 2000
Externally published	Yes

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title = "A single-molecule study of RNA catalysis and folding",

abstract = "Using fluorescence microscopy, we studied the catalysis by and folding of individual Tetrahymena thermophila ribozyme molecules. The dye-labeled and surface-immobilized ribozymes used were shown to be functionally indistinguishable from the unmodified free ribozyme in solution. A reversible local folding step in which a duplex docks and undocks from the ribozyme core was observed directly in single-molecule time trajectories, allowing the determination of the rate constants and characterization of the transition state. A rarely populated docked state, not measurable by ensemble methods, was observed. In the overall folding process, intermediate folding states and multiple folding pathways were observed. In addition to observing previously established folding pathways, a pathway with an observed folding rate constant of 1 per second was discovered. These results establish single- molecule fluorescence as a powerful tool for examining RNA folding.",

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AU - Zhuang, Xiaowei

AU - Bartley, Laura E.

AU - Babcock, Hazen P.

AU - Russell, Rick

AU - Ha, Taekjip

AU - Herschlag, Daniel

AU - Chu, Steven

PY - 2000/6/16

Y1 - 2000/6/16

N2 - Using fluorescence microscopy, we studied the catalysis by and folding of individual Tetrahymena thermophila ribozyme molecules. The dye-labeled and surface-immobilized ribozymes used were shown to be functionally indistinguishable from the unmodified free ribozyme in solution. A reversible local folding step in which a duplex docks and undocks from the ribozyme core was observed directly in single-molecule time trajectories, allowing the determination of the rate constants and characterization of the transition state. A rarely populated docked state, not measurable by ensemble methods, was observed. In the overall folding process, intermediate folding states and multiple folding pathways were observed. In addition to observing previously established folding pathways, a pathway with an observed folding rate constant of 1 per second was discovered. These results establish single- molecule fluorescence as a powerful tool for examining RNA folding.

AB - Using fluorescence microscopy, we studied the catalysis by and folding of individual Tetrahymena thermophila ribozyme molecules. The dye-labeled and surface-immobilized ribozymes used were shown to be functionally indistinguishable from the unmodified free ribozyme in solution. A reversible local folding step in which a duplex docks and undocks from the ribozyme core was observed directly in single-molecule time trajectories, allowing the determination of the rate constants and characterization of the transition state. A rarely populated docked state, not measurable by ensemble methods, was observed. In the overall folding process, intermediate folding states and multiple folding pathways were observed. In addition to observing previously established folding pathways, a pathway with an observed folding rate constant of 1 per second was discovered. These results establish single- molecule fluorescence as a powerful tool for examining RNA folding.

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A single-molecule study of RNA catalysis and folding

Abstract

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