Thermally modulated biomolecule transport through nanoconfined channels
نویسندگان
چکیده
In this work, a nanofluidic device containing both a feed cell and a permeation cell linked by nanopore arrays has been fabricated, which is employed to investigate thermally controlled biomolecular transporting properties through confined nanochannels. The ionic currents modulated by the translocations of goat antibody to human immunoglobulin G (IgG) or bovine serum albumin (BSA) are recorded and analyzed. The results suggest that the modulation effect decreases with the electrolyte concentration increasing, while the effects generated by IgG translocation are more significant than that generated by BSA translocation. More importantly, there is a maximum decreasing value in each modulated current curve with biomolecule concentration increasing for thermally induced intermolecular collision. Furthermore, the turning point for the maximum shifts to lower biomolecule concentrations with the system temperature rising (from 4°C to 45°C), and it is mainly determined by the temperature in the feed cell if the temperature difference exists in the two separated cells. These findings are expected to be valuable for the future design of novel sensing device based on nanopore and/or nanopore arrays.
منابع مشابه
Tuning nanopore surface polarity and rectification properties through enzymatic hydrolysis inside nanoconfined geometries.
Enzyme-catalyzed reactions inside nanoconfined geometries promote sensitive changes in the surface charge polarity and the concomitant permselective transport properties of the single conical nanopores.
متن کاملSimulation study of the transport properties of ions through ion channels serving as primary components of a nanobiosensor
Ion channels are naturally occurring pores through the proteins that regulate the passage of ions and thus maintain the concentration of ions inside and outside the cell. The ion channels control many physiological functions and they can show selectivity for a specific ion. Ion channels are mostly observed in nerve cells and muscle cells. The influx of ions into cells can be regulated by a gate...
متن کاملSimulation study of the transport properties of ions through ion channels serving as primary components of a nanobiosensor
Ion channels are naturally occurring pores through the proteins that regulate the passage of ions and thus maintain the concentration of ions inside and outside the cell. The ion channels control many physiological functions and they can show selectivity for a specific ion. Ion channels are mostly observed in nerve cells and muscle cells. The influx of ions into cells can be regulated by a gate...
متن کاملCharge-Selective Transport of Protein Molecules through Solid-State Nanochannels
In recent years, molecular transport through solid-state nanochannels mimicking selective transport properties of biological ion channels has attracted considerable attention. In both synthetic and biological channels, these properties strongly depend on size and surface charge. Especially, heavy ion track-etched nanochannels are widely used for selective transport and separation of molecules, ...
متن کاملChitosan-mediated in situ biomolecule assembly in completely packaged microfluidic devices.
We report facile in situ biomolecule assembly at readily addressable sites in microfluidic channels after complete fabrication and packaging of the microfluidic device. Aminopolysaccharide chitosan's pH responsive and chemically reactive properties allow electric signal-guided biomolecule assembly onto conductive inorganic surfaces from the aqueous environment, preserving the activity of the bi...
متن کامل