Publications
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Leakless end-to-end transport of small molecules through micron-length DNA nanochannels." Science Advances 8 (2022).
"Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). 
Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB) "Percolation transition prescribes protein size-specific barrier to passive transport through the nuclear pore complex." Nature Communications 13:5138 (2022). Supplementary Information (20.83 MB)
Supplementary Information (20.83 MB)