Biological warfare agent sensor system employing ruthenium-terminated oligonucleotides complementary to target live agent DNA sequences
First Claim
1. A sensor system capable of detecting target live microorganisms in real time in a fluid environment, said sensor system being immersed in said fluid environment such that said sensor system is surrounded by said fluid environment, each of said target live microorganisms having unique nucleic acid, a portion of which, as a single strand, represents a target sequence of nucleotides, said sensor system comprising:
- A. a first assembly comprising;
(a) a sensor cell in the form of a replaceable cartridge and comprising;
(i) at least one electrode, and(ii) at least one single-stranded oligonucleic acid in electrical communication with said at least one electrode, said at least one single-stranded oligonucleic acid being complementary to said target sequence of nucleotides and therefore capable of hybridizing therewith to form a hybridization complex, said at least one single-stranded oligonucleic acid containing at least one electron donor moiety and at least one electron acceptor moiety, said electron donor moiety and said electron acceptor moiety being covalently attached to said at least one single-stranded oligonucleic acid, said sensor cell having an outer casing that defines an internal volume of said sensor cell;
(b) at least one inlet port defined by said outer casing, said at least one inlet port allowing fluidic communication between said fluid environment surrounding said sensor system and said internal volume of said sensor cell, such that fluid from said fluid environment may be imported into said sensor cell, said fluid including cells having cell walls encapsulating nucleic acid;
(c) a cell wall disrupter to lyse said cell walls such that said encapsulated nucleic acid is released into said internal volume of said sensor cell;
(d) an electron transfer rate measuring system for measuring the electron transfer rate through said at least one single-stranded oligonucleic acid, said single-stranded oligonucleic acid exhibiting a base electron transfer rate in the absence of said target sequence of nucleotides and an increased electron transfer rate in the presence of said target sequence, having formed said hybridization complex wherein said electron transfer rate measuring system initiates electron transfer by a mechanism selected from the group consisting of cyclic voltammetry, pulse polarography, and impedance measurements;
(e) a microcontroller to compare said measured electron transfer rate with said base electron transfer rate to determine the presence or absence of said target sequence of nucleotides in said fluid; and
(f) a communication system for relaying information regarding said presence or absence of said target sequence of nucleotides in said fluid environment surrounding said sensor system to a user of said sensor system; and
B. a second assembly comprising;
(a) a power source for supplying power to operate said sensor system; and
(b) a pump powered by said power source to import a fluid sample from said fluid environment surrounding said sensor system into said sensor cell through said at least one inlet port,wherein said first assembly and said second assembly are capable of fluidically and electrically communicating therebetween.
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Accused Products
Abstract
A sensor system and method are provided that are capable of the real-time detection of target live microorganisms, such as biological warfare agents. The sensor system includes a highly-sensitive, highly-selective sensor cell that comprises a single-stranded oligonucleic acid sequence that is complementary to a portion of the DNA of a target live microorganism, the oligonucleic acid having been modified with the covalent attachment of electron donor and acceptor moieties. In the presence of the targeted microorganism, hybridization occurs between the modified oligonucleic acid and the microorganism'"'"'s DNA, such that the electron conductance between the electron transfer moieties greatly increases, thereby providing a means of detecting the presence of the target live microorganism. Aside from the sensor cell, the sensor system also includes an inlet port in the sensor cell wall by which to introduce a sample from the fluid environment into the sensor cell; a cell wall disrupter to release the nucleic acid of the fluid sample into the sensor cell; an electron transfer rate measuring system to gauge the electron transfer rate between the electron transfer moieties of the modified oligonucleic acid; a power source; a microcontroller to analyze the measured electron transfer rate for evidence of hybridization; and a communication system for relaying information regarding the presence or absence of the target live microorganism to the user of the sensor system. It is contemplated that the sensor system, exclusive of a battery and pump pack, will be only slightly larger than a pack of cigarettes and light enough to be comfortably worn and carried by personnel.
314 Citations
13 Claims
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1. A sensor system capable of detecting target live microorganisms in real time in a fluid environment, said sensor system being immersed in said fluid environment such that said sensor system is surrounded by said fluid environment, each of said target live microorganisms having unique nucleic acid, a portion of which, as a single strand, represents a target sequence of nucleotides, said sensor system comprising:
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A. a first assembly comprising; (a) a sensor cell in the form of a replaceable cartridge and comprising; (i) at least one electrode, and (ii) at least one single-stranded oligonucleic acid in electrical communication with said at least one electrode, said at least one single-stranded oligonucleic acid being complementary to said target sequence of nucleotides and therefore capable of hybridizing therewith to form a hybridization complex, said at least one single-stranded oligonucleic acid containing at least one electron donor moiety and at least one electron acceptor moiety, said electron donor moiety and said electron acceptor moiety being covalently attached to said at least one single-stranded oligonucleic acid, said sensor cell having an outer casing that defines an internal volume of said sensor cell; (b) at least one inlet port defined by said outer casing, said at least one inlet port allowing fluidic communication between said fluid environment surrounding said sensor system and said internal volume of said sensor cell, such that fluid from said fluid environment may be imported into said sensor cell, said fluid including cells having cell walls encapsulating nucleic acid; (c) a cell wall disrupter to lyse said cell walls such that said encapsulated nucleic acid is released into said internal volume of said sensor cell; (d) an electron transfer rate measuring system for measuring the electron transfer rate through said at least one single-stranded oligonucleic acid, said single-stranded oligonucleic acid exhibiting a base electron transfer rate in the absence of said target sequence of nucleotides and an increased electron transfer rate in the presence of said target sequence, having formed said hybridization complex wherein said electron transfer rate measuring system initiates electron transfer by a mechanism selected from the group consisting of cyclic voltammetry, pulse polarography, and impedance measurements; (e) a microcontroller to compare said measured electron transfer rate with said base electron transfer rate to determine the presence or absence of said target sequence of nucleotides in said fluid; and (f) a communication system for relaying information regarding said presence or absence of said target sequence of nucleotides in said fluid environment surrounding said sensor system to a user of said sensor system; and B. a second assembly comprising; (a) a power source for supplying power to operate said sensor system; and (b) a pump powered by said power source to import a fluid sample from said fluid environment surrounding said sensor system into said sensor cell through said at least one inlet port, wherein said first assembly and said second assembly are capable of fluidically and electrically communicating therebetween. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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Specification