Title :
Improvement of Silicon Nanotweezers Sensitivity for Mechanical Characterization of Biomolecules Using Closed-Loop Control
Author :
Lafitte, Nicolas ; Haddab, Yassine ; Le Gorrec, Yann ; Guillou, Herve ; Kumemura, Momoko ; Jalabert, Laurent ; Collard, Dominique ; Fujita, Hiroyuki
Author_Institution :
Inst. of Ind. Sci., Univ. of Tokyo, Tokyo, Japan
Abstract :
In this paper, we show that closed-loop control can be advantageously used for the characterization of mechanical properties of biomolecules using silicon nanotweezers (SNT). SNT have already been used in open-loop mode for the characterization of mechanical properties of DNA molecules. Up to now, such an approach allows the detection of stiffness variations equivalent to about 15 DNA molecules. Here, it is shown that this resolution is inversely proportional to the resonance frequency of the whole system and that real-time feedback control with state observer can drastically improve the performances of the tweezers used as biosensors. Such improvement is experimentally validated in the case of the manipulation of fibronectin molecules. The results are promising for the accurate characterization of biopolymers such as DNA molecules.
Keywords :
DNA; biochemistry; biomechanics; biosensors; chemical sensors; closed loop systems; elasticity; feedback; molecular biophysics; nanobiotechnology; proteins; radiation pressure; silicon; DNA molecules; Si; biopolymer characterization; biosensors; closed-loop control; fibronectin molecule manipulation; mechanical property characterization; open-loop mode; real-time feedback control; resonance frequency; silicon nanotweezer sensitivity; stiffness variation detection; Charge carrier processes; DNA; Electrodes; Observers; Resonant frequency; Sensitivity; State feedback; Biosensor; MEMS tweezers; parameter detection; sensitivity improvement; state feedback;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2014.2351415
