This is a very small amount, notwithstanding the many billions of tasks that computers perform. If we could operate computers ...

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 motion by enzymatic RNA degradation. Essentially, chemical energy is ...

Researchers engineered a DNA-nanoparticle motor achieving 30 nm/s speed, enhancing performance to rival natural motor ...

Researchers leverage their understanding of molecular motors to improve nanoscale artificial motors, aiming to bridge the ...

DNA-nanoparticle motors are exactly as they sound: tiny artificial motors that use the structures of DNA and RNA to propel ...

In another study using this technology, we actually have to unfold a protein twice: once before it can go through the nanopore via electrophoretic force and once before it can come back up. There is ...

DNA-nanoparticle motors are exactly as they sound: tiny artificial motors that use the structures of DNA and RNA to propel ...

We even identified the 'gear lever', protein subunit NIPBL, in the cohesin SMC motor protein." To discover the reverse gear of SMC motors, the researchers used an advanced home-built microscope to ...

Despite their genius, DNA-nanoparticle motors don't have the speed of their biological counterparts, the motor protein, which is where the issue lies. This is where researchers come in to analyze ...