Nucleic acid mediated electron transfer
First Claim
1. A single-stranded nucleic acid containing one or multiple electron donor moieties and one or multiple electron acceptor moieties, wherein said electron donor and acceptor moieties are transition metal complexes covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acid, and wherein electron transfer can occur between said electron donor and acceptor moieties when said single stranded nucleic acid is hybridized to a target sequence.
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Abstract
The present invention provides for the selective covalent modification of nucleic acids with redox active moieties such as transition metal complexes. Electron donor and electron acceptor moieties are covalently bound to the ribose-phosphate backbone of a nucleic acid at predetermined positions. The resulting complexes represent a series of new derivatives that are bimolecular templates capable of transferring electrons over very large distances at extremely fast rates. These complexes possess unique structural features which enable the use of an entirely new class of bioconductors and photoactive probes.
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Citations
30 Claims
- 1. A single-stranded nucleic acid containing one or multiple electron donor moieties and one or multiple electron acceptor moieties, wherein said electron donor and acceptor moieties are transition metal complexes covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acid, and wherein electron transfer can occur between said electron donor and acceptor moieties when said single stranded nucleic acid is hybridized to a target sequence.
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2. A single-stranded nucleic acid containing one or multiple electron donor moieties and one or multiple electron acceptor moieties, wherein one of the electron donor or acceptor moieties is an electrode and the other is a transition metal complex covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acid, and wherein electron transfer can occur between said electron donor and acceptor moieties when said single stranded nucleic acid hybridizes to a target sequence.
- 7. A composition comprising a first single stranded nucleic acid containing one or multiple electron donor moieties and a second single stranded nucleic acid containing one or multiple electron acceptor moieties, wherein said electron donor and acceptor moieties are transition metal complexes covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said first and second single stranded nucleic acids, and wherein electron transfer can occur between said electron donor and said electron acceptor moieties when said first and second single stranded nucleic acids are adjacently hybridized to a target domain.
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8. A composition comprising a first single stranded nucleic acid containing one or multiple electron donor moieties and a second single stranded nucleic acid containing one or multiple electron acceptor moieties, wherein one of the electron transfer moieties is an electrode and the other is a transition metal complex covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone, and wherein electron transfer can occur between said electron donor and said electron acceptor moieties when said single stranded nucleic acids are adjacently hybridized to a target sequence.
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13. A method of detecting a target sequence in a nucleic acid sample comprising:
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a) hybridizing a single stranded nucleic acid containing one or multiple electron donor moieties and one or multiple electron acceptor moieties to said target sequence to form a hybridization complex, wherein said electron donor and electron acceptor moieties are transition metal complexes covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acids; and b) detecting electron transfer between said electron donor and acceptor moieties in the hybridization complex as an indicator of the presence or absence of said target sequence. - View Dependent Claims (15, 16, 17, 18)
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14. A method of detecting a target sequence in a nucleic acid sample comprising:
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a) hybridizing a single stranded nucleic acid containing one or multiple electron donor moieties and one or multiple electron acceptor moieties to said target sequence to form a hybridization complex, wherein one of said electron donor or acceptor moieties is an electrode and the other is a transition metal complex covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acid; and b) detecting electron transfer between said electron donor moieties and said electron acceptor moieties in the hybridization complex as an indicator of the presence or absence of said target sequence.
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19. A method of detecting a target sequence in a nucleic acid wherein said target sequence comprises a first target domain and a second target domain adjacent to said first target domain, said method comprising:
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a) hybridizing a first nucleic acid containing one or multiple electron donor moieties to said first target domain; b) hybridizing a second nucleic acid containing one or multiple electron acceptor moieties to said second target domain, wherein said electron donor and electron acceptor moieties are transition metal complexes covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acids; and c) detecting electron transfer between said electron donor and acceptor moieties while said first and second nucleic acids are hybridized to said first and second target domains as an indicator of the presence or absence of said target sequence in said nucleic acid sample. - View Dependent Claims (21, 22, 23, 24)
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20. A method of detecting a target sequence in a nucleic acid wherein said target sequence comprises a first target domain and a second target domain adjacent to said first target domain, said method comprising:
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a) hybridizing a first nucleic acid containing one or multiple electron donor moieties to said first target domain; b) hybridizing a second nucleic acid containing one or multiple electron acceptor moieties to said second target domain, wherein one of said electron donor and acceptor moieties is an electrode and the other is a transition metal complex covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acid; and c) detecting electron transfer between said electron donor and acceptor moieties while said first and second nucleic acids are hybridized to said first and second target domains as an indicator of the presence or absence of said target sequence in said nucleic acid sample.
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25. A method of detecting a target sequence in a nucleic acid wherein said target sequence comprises a first target domain, a second target domain, and an intervening target domain between said first and said second target domains, said method comprising:
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a) hybridizing a first nucleic acid containing one or multiple electron donor moieties to said first target domain; b) hybridizing a second nucleic acid containing one or multiple electron acceptor moieties to said second target domain, wherein said electron donor or acceptor moieties are transition metal complexes covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acid; c) hybridizing an intervening nucleic acid to said intervening target domain; and d) detecting electron transfer between said electron donor and acceptor moieties while said first, second and intervening nucleic acids are hybridized to said first, second and intervening target domains as an indicator of the presence or absence of said target sequence in said nucleic acid sample. - View Dependent Claims (27, 28, 29, 30)
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26. A method of detecting a target sequence in a nucleic acid wherein said target sequence comprises a first target domain, a second target domain, and an intervening target domain between said first and said second target domains, said method comprising:
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a) hybridizing a first nucleic acid containing one or multiple electron donor moieties to said first target domain; b) hybridizing a second nucleic acid containing one or multiple electron acceptor moieties to said second target domain, wherein one of said electron donor and acceptor moieties is an electrode and the other is a transition metal complex covalently attached to the 2'"'"' or 3'"'"' position of a ribose of the ribose-phosphate backbone of said nucleic acid; c) hybridizing an intervening nucleic acid to said intervening target domain; and d) detecting electron transfer between said electron donor moiety and said electron acceptor moiety while said first, second and intervening nucleic acids are hybridized to said first, second and intervening target domains as an indicator of the presence or absence of said target sequence in said nucleic acid sample.
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Specification