Tethered particle motion method for studying transcript elongation by a single RNA polymerase molecule.

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Tethered particle motion method for studying transcript elongation by a single RNA polymerase molecule.

H Yin, R Landick and J Gelles

Department of Biochemistry, Brandeis University, Waltham, Massachusetts 02254.

ABSTRACT

Schafer et al. (Nature 352:444-448 (1991)) devised the tetheredparticle motion (TPM) method to detect directly the movementof single, isolated molecules of a processive nucleic acid polymerasealong a template DNA molecule. In TPM studies, the polymerasemolecule is immobilized on a glass surface, and a particle (e.g.,a 0.23 microns diameter polystyrene bead) is attached to oneend of the enzyme-bound DNA molecule. Time-resolved measurementsof the DNA contour length between the particle and the immobilizedenzyme (the "tether length") are made by determining the magnitudeof the Brownian motion of the DNA-tethered particle using lightmicroscopy and digital image processing. We report here improvedsample preparation methods that permit TPM data collection ontranscript elongation by the Escherichia coli RNA polymeraseat rates (approximately 10(2)-fold higher than those previouslyobtained) sufficient for practical use of microscopic kineticstechniques to analyze polymerase reaction mechanisms. In earlierTPM experiments, calculation of tether length from the observedBrownian motion was based on an untested numerical simulationof tethered bead Brownian motion. Using the improved methods,we have now empirically validated the TPM technique for tetherlengths of 308-1915 base pairs (bp) using calibration specimenscontaining particles tethered by individual DNA molecules ofknown lengths. TPM analysis of such specimens yielded a linearcalibration curve relating observed Brownian motion to tetherlength and allowed determination of the accuracy of the techniqueand measurement of how temporal bandwidth, tether length, andother experimental variables affect measurement precision. Undera standard set of experimental conditions (0.23 microns diameterbead, 0.23 Hz bandwidth, 23 degrees), accuracy is 108 and 258bp r.m.s. at tether lengths of 308 and 1915 bp, respectively.Precision improves linearly with decreasing tether length toan extrapolated instrumentation limit of 10 bp r.m.s. and improvesproportionally to the inverse square root of measurement bandwidth(1.9 x 10(2) bp Hz-1/2 for 1090-bp tethers). Measurements onlarge numbers of individual polymerase molecules reveal thattime-averaged single-molecule elongation rates are more variablethan is predicted from the random error in TPM measurements,demonstrating that the surface-immobilized RNA polymerase moleculesare kinetically heterogeneous.

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				M. D. Wang, M. J. Schnitzer, H. Yin, R. Landick, J. Gelles, and S. M. Block Force and Velocity Measured for Single Molecules of RNA Polymerase Science, October 30, 1998; 282(5390): 902 - 907. [Abstract] [Full Text]

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