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Protein dielectrophoresis: I. status of experiments and an empirical theory

 
: Hölzel, R.; Pethig, R.

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Micromachines 11 (2020), Nr.5, Art. 533, 22 S.
ISSN: 2072-666X
Englisch
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer IZI ()

Abstract
The dielectrophoresis (DEP) data reported in the literature since 1994 for 22 different globular proteins is examined in detail. Apart from three cases, all of the reported protein DEP experiments employed a gradient field factor ∇E2m that is much smaller (in some instances by many orders of magnitude) than the ~4 × 1021 V2/m3 required, according to current DEP theory, to overcome the dispersive forces associated with Brownian motion. This failing results from the macroscopic Clausius–Mossotti (CM) factor being restricted to the range 1.0 > CM > −0.5. Current DEP theory precludes the protein’s permanent dipole moment (rather than the induced moment) from contributing to the DEP force. Based on the magnitude of the β-dispersion exhibited by globular proteins in the frequency range 1 kHz–50 MHz, an empirically derived molecular version of CM is obtained. This factor varies greatly in magnitude from protein to protein (e.g., ~37,000 for carboxypeptidase; ~190 for phospholipase) and when incorporated into the basic expression for the DEP force brings most of the reported protein DEP above the minimum required to overcome dispersive Brownian thermal effects. We believe this empirically-derived finding validates the theories currently being advanced by Matyushov and co-workers.

: http://publica.fraunhofer.de/dokumente/N-596442.html