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Curr Pharm Biotechnol. 2013;14(4):441-4.

Measurements of single molecules in solution and live cells over longer observation times than those currently possible: the meaningful time.

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Helios Clinical Center of Emergency Medicine, Department for Internal Medicine, Alte-Koelner- Strasse 9, D-51688 Koeln-Wipperfuerth, Germany.


Monitoring translational diffusion of single molecules in solution or in a living cell, particularly DNA and proteins brings valuable information unperturbed by interaction with an artificial surface. The article derives theoretical relationships for time intervals during which just one molecule in the effective probe region can be studied, the time we call meaningful time. This time is greater than the transit time of the molecule through the detection volume, as a single molecule will likely reenter the detection volume several times during measurement. From the infinitely stretched molecular Poisson distribution of single molecules or particles, we select the contribution of the selfsame molecule or particle by applying rules for choosing appropriate statistics for the single-molecule trajectories. The results point to a useful and sensitive predictive power of the derived relationships. The meaningful time relationships are the criteria to check the experimental single molecule data measured under conditions of normal and anomalous Brownian diffusion of the molecules of interest. At femtomolar bulk concentration, it would be possible to observe an individual molecule over a second time interval or longer during which biological processes - and not conformational biophysical changes - are just starting.

[Indexed for MEDLINE]

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