Kinesin is a biomolecular motor that generates force and motility along microtubule cytoskeletons in cells. Owing to their ability to manipulate cellular nanoscale components, microtubule/kinesin systems show great promise as… Click to show full abstract
Kinesin is a biomolecular motor that generates force and motility along microtubule cytoskeletons in cells. Owing to their ability to manipulate cellular nanoscale components, microtubule/kinesin systems show great promise as actuators of nanodevices. However, classical in vivo protein production has some limitations for the design and production of kinesins. Designing and producing kinesins is laborious, and conventional protein production requires specific facilities to create and contain recombinant organisms. Here, we demonstrated the in vitro synthesis and editing of functional kinesins using a wheat germ cell-free protein synthesis system. The synthesized kinesins propelled microtubules on a kinesin-coated substrate and showed a higher binding affinity with microtubules than E. coli-produced kinesins. We also successfully incorporated affinity tags into the kinesins by extending the original sequence of the DNA template by PCR. Our method will accelerate the study of biomolecular motor systems and encourage their wider use in various nanotechnology applications.
               
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