Voltage biased solid-state nanopores are used to detect and characterize individual single stranded DNA molecules of fixed micrometer length by operating a nanopore detector at pH values greater than ∼11.6. The distribution of observed molecular event durations and blockade currents shows that a significant fraction of the events obey a rule of constant event charge deficit (ecd) indicating that they correspond to molecules translocating through the nanopore in a distribution of folded and unfolded configurations. A surprisingly large component is unfolded. The result is an important milestone in developing solid-state nanopores for single molecule sequencing applications.Engineering and Applied SciencesPhysic
DNA sequencing, i.e., the process of determining the succession of nucleotides on a DNA strand, has ...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Nanopores could potentially be used to perform single molecule DNA sequencing at low cost and with h...
Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices...
Nanopores have been used as ultrasensitive tools in sequencing of DNA, in RNA and protein conformati...
Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices...
Charged single molecules of DNA can be detected and characterized with a voltage-biased solid-state ...
Nanopore DNA analysis is an emerging technique that involves electrophoretically driving DNA molecu...
The use of biological "nanopores" as sensors for single molecules like DNA was recently demonstrated...
Reports ofDNAtranslocation measurements have been increasing rapidly in recent years due to advancem...
This thesis describes experimental work on a novel type of devices capable of detecting single-(bio)...
Solid-state nanopores have been developed as a prominent tool for single molecule analysis in versat...
AbstractSolid-state nanopores have received increasing interest over recent years because of their p...
Thesis (Ph.D.)--Boston UniversitySince the first report of single-molecule detection using the biolo...
Single molecule sensors in which nanoscale pores within biological or artificial membranes act as me...
DNA sequencing, i.e., the process of determining the succession of nucleotides on a DNA strand, has ...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Nanopores could potentially be used to perform single molecule DNA sequencing at low cost and with h...
Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices...
Nanopores have been used as ultrasensitive tools in sequencing of DNA, in RNA and protein conformati...
Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices...
Charged single molecules of DNA can be detected and characterized with a voltage-biased solid-state ...
Nanopore DNA analysis is an emerging technique that involves electrophoretically driving DNA molecu...
The use of biological "nanopores" as sensors for single molecules like DNA was recently demonstrated...
Reports ofDNAtranslocation measurements have been increasing rapidly in recent years due to advancem...
This thesis describes experimental work on a novel type of devices capable of detecting single-(bio)...
Solid-state nanopores have been developed as a prominent tool for single molecule analysis in versat...
AbstractSolid-state nanopores have received increasing interest over recent years because of their p...
Thesis (Ph.D.)--Boston UniversitySince the first report of single-molecule detection using the biolo...
Single molecule sensors in which nanoscale pores within biological or artificial membranes act as me...
DNA sequencing, i.e., the process of determining the succession of nucleotides on a DNA strand, has ...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Nanopores could potentially be used to perform single molecule DNA sequencing at low cost and with h...