Targeted Optimization of a Protein Nanomachine for Operation in Biohybrid Devices

Amrute-Nayak, Mamta; Diensthuber, Ralph P.; Steffen, Walter; Kathmann, Daniela; Hartmann, Falk K.; Fedorov, Roman; Urbanke, Claus; Manstein, Dietmar J.; Brenner, Bernhard; Tsiavaliaris, Georgios

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Wiley, Angewandte Chemie International Edition, 2(49), p. 312-316, 2010

DOI: 10.1002/anie.200905200

Wiley, Angewandte Chemie, 2(122), p. 322-326, 2009

DOI: 10.1002/ange.200905200

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Targeted Optimization of a Protein Nanomachine for Operation in Biohybrid Devices

Journal article published in 2009 by Mamta Amrute-Nayak, Ralph P. Diensthuber, Walter Steffen, Daniela Kathmann, Falk K. Hartmann, Roman Fedorov

, Claus Urbanke, Dietmar J. Manstein, Bernhard Brenner, Georgios Tsiavaliaris

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Abstract

"Chemical Equation Presented" A long life with controlled movement: Engineered protein nanomachines with defined and adjustable functional features offer opportunities for controlling movement on nano- to microscale biohybrid devices. Myosin motors (the picture shows a dimerlc motor) have now been constructed with optimized properties with regard to stability and regulation, including switchable processlvity and tight control of the velocity of movement.

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Targeted Optimization of a Protein Nanomachine for Operation in Biohybrid Devices

Abstract