| NABsys, Inc. Patent applications |
| Patent application number | Title | Published |
|---|
| 20100096268 | USE OF LONGITUDINALLY DISPLACED NANOSCALE ELECTRODES FOR VOLTAGE SENSING OF BIOMOLECULES AND OTHER ANALYTES IN FLUIDIC CHANNELS - Devices and methods for detecting an analyte are provided. Devices for voltage sensing of analytes may comprise a fluidic channel defined in a substrate, a pair of sensing electrodes disposed in a fluidic channel for sensing voltage therein, and a pair of electromotive electrodes for applying potential along the fluidic channel. The pair of sensing electrodes may include a first and second sensing electrode disposed at two discrete locations along the length of the fluidic channel and the pair of electromotive electrodes may be disposed at a first end and a second end of the fluidic channel. The fluidic channel may include a nanochannel or a microchannel. Methods for detecting an analyte may include the steps of disposing the analyte in a fluidic channel; applying a potential along the fluidic channel to generate an electrophoretic force therein such that the analyte is translocated from a first end of the fluidic channel to a second end of the fluidic channel; and measuring a voltage signal between a pair of sensing electrodes disposed in the fluidic channel as the analyte moves past the sensing electrodes. | 04-22-2010 |
| 20100078325 | DEVICES AND METHODS FOR DETERMINING THE LENGTH OF BIOPOLYMERS AND DISTANCES BETWEEN PROBES BOUND THERETO - Devices and methods for detecting the length of analytes and/or sequencing analytes are provided in which two or more electrical signals are obtained as an analyte traverses a fluidic channel. Detection of the relative position of probes hybridized to a biopolymer and/or the length of the analyte (e.g., a biopolymer) does not rely on the absolute time between detection events of a given electrical signal to determine a distance associated with the biopolymer. Instead, multiple signals are obtained (e.g., as functions of time) corresponding to a plurality of detector volumes at known locations along a fluidic channel through which the biopolymer passes, and the distances are determined from the multiple signals. | 04-01-2010 |
| 20090099786 | BIOPOLYMER SEQUENCING BY HYBRIDIZATION OF PROBES TO FORM TERNARY COMPLEXES AND VARIABLE RANGE ALIGNMENT - Methods for sequencing a biopolymer by forming local ternary complexes along the length of the double-stranded biopolymer target molecule using one or more probes and obtaining information about the location of the probe(s) using a detector. These methods offer particular advantage when implemented with nanopore (including micropore) detection systems. | 04-16-2009 |
