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Confined Transport Behavior of Biomolecules within Tilted Nanopores.

Chaofan MaWei XuWei LiuChanghui XuGuangle QinDapeng ChenJingjie Sha
Published in: The journal of physical chemistry. B (2024)
The transport behavior of biomolecules at the confined nanoscale is very different from that of the bulk state. Numerous disease diagnostics and targeted drug treatments are performed based on nanochannels in cells. The specific structure and shape of nanochannels play an important role in the behavior and efficiency of substance transport. In this paper, we fabricated nanopores with different tilt angles and the same diameters using focused ion beam. The capture frequency and the blocking current amplitude of λ-DNA within large-angle nanopores decrease obviously, suggesting an increase in the energy barrier of large-angle nanopores and the fact that they stretch biomolecules to thinness. Most importantly, large-angle nanopores slow down λ-DNA transport by 2-4 times. MD simulations find that the sloped electroosmotic flow inside the tilted nanopores is the main factor contributing to the transport phenomena. The increase in the capture time of biomolecules by nanopores assists in obtaining more biological information from the current trajectories. Our study provides a new understanding of substance transport in specially shaped nanopores, which can be instrumental in providing fresh inspiration and approaches to the biomedical field.
Keyphrases
  • single molecule
  • solid state
  • atomic force microscopy
  • high resolution
  • healthcare
  • induced apoptosis
  • cell free
  • depressive symptoms
  • cell cycle arrest
  • cancer therapy
  • signaling pathway
  • resting state
  • adverse drug