DEVICES AND METHODS FOR DETERMINING THE LENGTH OF BIOPOLYMERS AND DISTANCES BETWEEN PROBES BOUND THERETO
First Claim
1. A device for determining a length of an analyte by detecting electrical signals, the device comprising:
- a fluidic channel defined in a substrate; and
a plurality of sensing electrodes disposed along a length of the fluidic channel for detection of two or more electrical signals corresponding to two or more detector volumes disposed along the fluidic channel,wherein (i) said sensing electrodes are configured for connection to a measurement tool for capturing said electrical signals corresponding to said detector volumes, (ii) the fluidic channel is a nanochannel or a microchannel, (iii) relative positions of the sensing electrodes are known, and (iv) the captured electrical signals in conjunction with the relative positions of the sensing electrodes indicate the length of the analyte.
6 Assignments
0 Petitions
Accused Products
Abstract
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 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.
7 Citations
58 Claims
-
1. A device for determining a length of an analyte by detecting electrical signals, the device comprising:
-
a fluidic channel defined in a substrate; and a plurality of sensing electrodes disposed along a length of the fluidic channel for detection of two or more electrical signals corresponding to two or more detector volumes disposed along the fluidic channel, wherein (i) said sensing electrodes are configured for connection to a measurement tool for capturing said electrical signals corresponding to said detector volumes, (ii) the fluidic channel is a nanochannel or a microchannel, (iii) relative positions of the sensing electrodes are known, and (iv) the captured electrical signals in conjunction with the relative positions of the sensing electrodes indicate the length of the analyte. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 52, 53)
-
-
23. A method for determining a length of an analyte, the method comprising the steps of:
-
disposing the analyte in a fluidic channel defined in a substrate; applying a potential along the fluidic channel; translocating the analyte from a first end of the fluidic channel to a second end of the fluidic channel; detecting two or more electrical signals as the analyte moves through the fluidic channel, said two or more electrical signals corresponding to two or more detector volumes of the fluidic channel, said two or more electrical signals being detected using a plurality of sensing electrodes disposed along the length of the fluidic channel; and determining the length of the analyte by analyzing the two or more detected electrical signals, wherein (i) said sensing electrodes are configured for connection to a measurement tool for capturing said electrical signals corresponding to said detector volumes, (ii) the fluidic channel is a nanochannel or a microchannel, (iii) relative positions of the sensing electrodes are known, and (iv) the captured electrical signals in conjunction with the relative positions of the sensing electrodes indicate the length of the analyte. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 32, 55)
-
-
31. (canceled)
-
33-51. -51. (canceled)
-
54. A system for sequencing a biopolymer, the system comprising:
-
(a) a fluidic channel defined in a substrate; (b) a plurality of sensing electrodes disposed along a length of the fluidic channel for detection of two or more electrical signals corresponding to two or more detector volumes disposed along the fluidic channel, wherein the fluidic channel is configured such that a biopolymer with at least a first plurality of probes attached thereto may pass therethrough, wherein said sensing electrodes are configured for connection to a measurement tool for capturing said electrical signals corresponding to said detector volumes as said biopolymer passes through the fluidic channel, wherein the fluidic channel is a nanochannel or a microchannel, and wherein relative positions of the sensing electrodes are known; and (c) an analyzing module that determines at least a portion of the sequence of the biopolymer based at least in part on a plurality of the captured electrical signals.
-
-
56. An apparatus for sequencing a biopolymer, the apparatus comprising:
-
(a) a fluidic channel defined in a substrate; and (b) a plurality of sensing electrodes disposed along a length of the fluidic channel for detection of two or more electrical signals corresponding to two or more detector volumes disposed along the fluidic channel, wherein the fluidic channel is configured such that a biopolymer with at least a first plurality of probes attached thereto may pass therethrough, wherein said sensing electrodes are configured for connection to a measurement tool for capturing said electrical signals corresponding to said detector volumes as said biopolymer passes through the fluidic channel, wherein the fluidic channel is a nanochannel or a microchannel, wherein relative positions of the sensing electrodes are known, and wherein the captured electrical signals in conjunction with the relative positions of the sensing electrodes indicate at least a portion of the sequence of the biopolymer.
-
-
57. A device for voltage sensing of analytes, the device comprising:
-
a fluidic channel defined in a substrate; a first and a second pair of sensing electrodes disposed in the channel for sensing voltage therein, the second pair of sensing electrodes being disposed distal to the first pair of sensing electrodes, and each pair of sensing electrodes comprising a first and a second electrode disposed at two discrete locations along a length of the channel; and a pair of electromotive electrodes disposed at a first end and a second end of the channel for applying a potential along the channel, wherein the channel comprises a nanochannel or a microchannel. - View Dependent Claims (58)
-
Specification