Advanced optical tweezers for the study of cellular and molecular biomechanics
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[1] S. Block,et al. Versatile optical traps with feedback control. , 1998, Methods in enzymology.
[2] S. Chu,et al. Observation of a single-beam gradient force optical trap for dielectric particles. , 1986, Optics letters.
[3] J. McIntosh,et al. The dynamic behavior of individual microtubules associated with chromosomes in vitro. , 1998, Molecular biology of the cell.
[4] M. Sheetz,et al. Tracking kinesin-driven movements with nanometre-scale precision , 1988, Nature.
[5] J. Happel,et al. Low Reynolds number hydrodynamics , 1965 .
[6] C. Bustamante,et al. Single-molecule study of transcriptional pausing and arrest by E. coli RNA polymerase. , 2000, Science.
[7] C. Schmidt,et al. Interference model for back-focal-plane displacement detection in optical tweezers. , 1998, Optics letters.
[8] Kenneth R. Spring,et al. Video Microscopy: The Fundamentals , 1986 .
[9] Mark J. Schnitzer,et al. Single kinesin molecules studied with a molecular force clamp , 1999, Nature.
[10] M. Schliwa,et al. Calibration of light forces in optical tweezers. , 1995, Applied optics.
[11] Michael P. Sheetz,et al. Laser tweezers in cell biology , 1998 .
[12] C. Schmidt,et al. Signals and noise in micromechanical measurements. , 1998, Methods in cell biology.
[13] J. Liphardt,et al. Reversible Unfolding of Single RNA Molecules by Mechanical Force , 2001, Science.