We suggest the discrimination of single DNA bases via transverse ionic transport, namely by detecting the ionic current that flows in a channel while a single-stranded DNA is driven through an intersecting nanochannel. Our all-atom molecular dynamics simulations indeed show that the ionic currents of the four bases are statistically distinct, thus offering another possible approach to sequencing DNA
AbstractEach species from bacteria to human has a distinct genetic fingerprint. Therefore, a mechani...
Nanoscale a-hemolysin pores can be used to ana-lyze individual DNA or RNA molecules. Serial examinat...
We calculate the transverse current through double-stranded DNA nucleotides using ab initio techniqu...
We report theoretical studies of charge transport in single-stranded DNA in the direction perpendicu...
It has been proposed that single molecules of DNA could be sequenced by measuring the physical prope...
AbstractWe study theoretically the feasibility of using transverse electronic transport within a nan...
We study theoretically the effects of dephasing on DNA sequencing in a nanopore via transverse elect...
It has been theoretically suggested and experimentally demonstrated that fast and low-cost sequencin...
DNA sequencing, i.e., the process of determining the succession of nucleotides on a DNA strand, has ...
A nanofluidic device is described that is capable of electrically monitoring the driven translocatio...
Electric field-driven translocation of DNA strands through biological nanopores has been shown to pr...
Experimental and simulation studies of nucleic acid transport through nanosized channels, both biolo...
AbstractPrevious theoretical studies have shown that measuring the transverse current across DNA str...
Reports ofDNAtranslocation measurements have been increasing rapidly in recent years due to advancem...
We propose an approach for nanopore-based DNA sequencing using characteristic transverse differentia...
AbstractEach species from bacteria to human has a distinct genetic fingerprint. Therefore, a mechani...
Nanoscale a-hemolysin pores can be used to ana-lyze individual DNA or RNA molecules. Serial examinat...
We calculate the transverse current through double-stranded DNA nucleotides using ab initio techniqu...
We report theoretical studies of charge transport in single-stranded DNA in the direction perpendicu...
It has been proposed that single molecules of DNA could be sequenced by measuring the physical prope...
AbstractWe study theoretically the feasibility of using transverse electronic transport within a nan...
We study theoretically the effects of dephasing on DNA sequencing in a nanopore via transverse elect...
It has been theoretically suggested and experimentally demonstrated that fast and low-cost sequencin...
DNA sequencing, i.e., the process of determining the succession of nucleotides on a DNA strand, has ...
A nanofluidic device is described that is capable of electrically monitoring the driven translocatio...
Electric field-driven translocation of DNA strands through biological nanopores has been shown to pr...
Experimental and simulation studies of nucleic acid transport through nanosized channels, both biolo...
AbstractPrevious theoretical studies have shown that measuring the transverse current across DNA str...
Reports ofDNAtranslocation measurements have been increasing rapidly in recent years due to advancem...
We propose an approach for nanopore-based DNA sequencing using characteristic transverse differentia...
AbstractEach species from bacteria to human has a distinct genetic fingerprint. Therefore, a mechani...
Nanoscale a-hemolysin pores can be used to ana-lyze individual DNA or RNA molecules. Serial examinat...
We calculate the transverse current through double-stranded DNA nucleotides using ab initio techniqu...