Flickering spectroscopy

Flickering analysis of cellular or membranous structures is a widespread technique for measuring the bending modulus and other properties from the power spectrum of thermal fluctuations.

First demonstrated theoretically by Brochard and Lennon in 1975,[1] flickering spectroscopy has become a widespread technique due to its simplicity and lack of specialised equipment beyond a brightfield microscope. It is used in structures such as red blood cells, giant unilamellar vesicles and other cell-like structures.

Theoretical overview

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Considering a quasi-spherical shell subject to thermal undulations according to Langevin dynamics, one can express the time-averaged mean square amplitudes of the fluctuation modes as

 

where where   and   index the fluctuation mode corresponding to spherical harmonics   and   is the reduced membrane tension,   is the spontaneous curvature and   is the bending modulus, as defined by the Helfrich hamiltonian.[2]

Experimental procedure and analysis

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The equatorial plane of a cell-like structure can be imaged using phase contrast microscopy to obtain a video showing the fluctuations of the membrane.

On the video, the contours can be found using image analysis algorithms, which can then be used to determine the power spectrum of the fluctuation modes in real space amplitude. This can be used, following the steps above, to obtain relevant parameters such as the bending modulus, which is useful for a number of applications in membrane structure research.[3]

References

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  1. ^ Brochard, F.; Lennon, J. F. (1975-11-01). "Frequency spectrum of the flicker phenomenon in erythrocytes". Journal de Physique. 36 (11): 1035–1047. doi:10.1051/jphys:0197500360110103500. ISSN 0302-0738.
  2. ^ Seifert, Udo (1997-02-01). "Configurations of fluid membranes and vesicles". Advances in Physics. 46 (1): 13–137. Bibcode:1997AdPhy..46...13S. doi:10.1080/00018739700101488. ISSN 0001-8732.
  3. ^ Dimova, Rumiana (2014-06-01). "Recent developments in the field of bending rigidity measurements on membranes". Advances in Colloid and Interface Science. Special issue in honour of Wolfgang Helfrich. 208: 225–234. doi:10.1016/j.cis.2014.03.003. ISSN 0001-8686. PMID 24666592.