Researchers leverage their understanding of molecular motors to improve nanoscale artificial motors, aiming to bridge the ...
The team’s novel technique, detailed in a paper published in Advanced Functional Materials ( "In Vivo Screening of Barcoded ...
How can we ensure that life-saving drugs or genetic therapies reach their intended target cells without causing harmful side ...
Researchers use the knowledge of molecular motors to enhance the nanoscale artificial motor in hopes of leveling out the speed disparity between artificial motors and motor proteins.
Researchers engineered a DNA-nanoparticle motor achieving 30 nm/s speed, enhancing performance to rival natural motor ...
DNA-nanoparticle motors are exactly as they sound: tiny artificial motors that use the structures of DNA and RNA to propel motion by enzymatic RNA degradation. Essentially, chemical energy is ...
DNA-nanoparticle motors are exactly as they sound: tiny artificial motors that use the structures of DNA and RNA to propel ...
DNA-nanoparticle motors are exactly as they sound: tiny artificial motors that use the structures of DNA and RNA to propel ...
LMU researchers have investigated how cationic polymers organize on a molecular level when transporting RNA drugs. Cationic polymers are promising tools for transporting RNA therapeutics or RNA ...