Add to ORKGUpon temperature changes, we observe a systematic shift of creep compliance curves J (t) for single living breast epithelial cells. We use a dual-beam laser trap (optical stretcher) to induce temperature jumps within milliseconds, while simultaneously measuring the mechanical response of whole cells to optical force. The cellular mechanical response was found to differ between sudden temperature changes compared to slow, long-term changes implying adaptation of cytoskeletal structure. Interpreting optically induced cell deformation as a thermorheological experiment allows us to consistently explain data on the basis of time–temperature superposition, well known from classical polymer physics. Measured time shift factors give access to the a...
DNA is known to be a mechanically and thermally stable structure. In its double stranded form it is ...
AbstractFluorescence laser tracking microrheometry (FLTM) is what we believe to be a novel method ab...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Biological Engineering Division, 2007.Includ...
Upon temperature changes, we observe a systematic shift of creep compliance curves J (t) for single ...
Temperature has a reliable and nearly instantaneous influence onmechanical responses of cells.As rec...
Stretching and heating are everyday experiences for skin and tissue cells. They are also standard pr...
Stretching and heating are everyday experiences for skin and tissue cells. They are also standard pr...
A cell is a complex material whose mechanical properties are essential for its normal functions. Hea...
Here we present the results of a study concerning the effect of temperature on cell mechanical prope...
AbstractMechanical characteristics of single biological cells are used to identify and possibly leve...
Microrheology, the study of fluids on micron length-scales, promises to reveal insights into cellula...
Biological cells can be classified as “active soft matter,” with mechanical characteristics modulate...
Mechanical characteristics of single biological cells are used to identify and possibly leverage int...
From a physical perspective biological cells consist of active soft matter that exist in a thermodyn...
We report a scaling law that governs both the elastic and frictional properties of a wide variety of...
DNA is known to be a mechanically and thermally stable structure. In its double stranded form it is ...
AbstractFluorescence laser tracking microrheometry (FLTM) is what we believe to be a novel method ab...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Biological Engineering Division, 2007.Includ...
Upon temperature changes, we observe a systematic shift of creep compliance curves J (t) for single ...
Temperature has a reliable and nearly instantaneous influence onmechanical responses of cells.As rec...
Stretching and heating are everyday experiences for skin and tissue cells. They are also standard pr...
Stretching and heating are everyday experiences for skin and tissue cells. They are also standard pr...
A cell is a complex material whose mechanical properties are essential for its normal functions. Hea...
Here we present the results of a study concerning the effect of temperature on cell mechanical prope...
AbstractMechanical characteristics of single biological cells are used to identify and possibly leve...
Microrheology, the study of fluids on micron length-scales, promises to reveal insights into cellula...
Biological cells can be classified as “active soft matter,” with mechanical characteristics modulate...
Mechanical characteristics of single biological cells are used to identify and possibly leverage int...
From a physical perspective biological cells consist of active soft matter that exist in a thermodyn...
We report a scaling law that governs both the elastic and frictional properties of a wide variety of...
DNA is known to be a mechanically and thermally stable structure. In its double stranded form it is ...
AbstractFluorescence laser tracking microrheometry (FLTM) is what we believe to be a novel method ab...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Biological Engineering Division, 2007.Includ...