Bibframe Work

Introduction to optical tweezers

Exact theory of optical tweezers and its application to absolute calibration

Beyond the Hookean spring model : direct measurement of optical forces through light momentum changes

A surface-coupled optical trap with 1-bp precision via active stabilization

Implementation and tuning of an optical tweezers force-clamp feedback system

Custom-made microspheres for optical tweezers

Optical torque wrench design and calibration

High-resolution "fleezers" : dual-trap optical tweezers combined with single-molecule fluorescence detection

Versatile quadruple-trap optical tweezers for dual DNA experiments

Probing DNA-DNA interactions with a combination of quadruple-trap optical tweezers and microfluidics

Probing single helicase dynamics on long nucleic acids through fluorescence-force measurement

Mechanically watching the ClpXP proteolytic machinery

Deciphering the molecular mechanism of the bacteriophage [phi]29 DNA packaging motor

Single-molecule protein folding experiments using high-precision optical tweezers

Observing single RNA polymerase molecules down to base-pair resolution

Optical tweezers-based measurements of forces and dynamics at microtubule ends

Simultaneous manipulation and super-resolution fluorescence imaging of individual kinetochores coupled to microtubule tips

Measurement of force-dependent release rates of cytoskeletal motors

Measuring the kinetic and mechanical properties of non-processive myosins using optical tweezers

Quantifying force and viscoelasticity inside living cells using an active-passive calibrated optical trap

Measuring molecular forces using calibrated optical tweezers in living cells.