Electrodes linked via conductive oligomers to nucleic acids
First Claim
Patent Images
1. A composition comprising:
- a) an electrode;
b) at least one nucleoside; and
c) a conductive oligomer covalently attached to both said electrode and said nucleoside, wherein said conductive oligomer has the formula;
wherein Y is an aromatic group;
n is an integer from 1 to 50;
g is either 1 or zero;
e is an integer from zero to 10; and
m is zero or 1;
wherein when g is 1, B-D is a conjugated bond; and
wherein when g is zero, e is 1 and D is preferably carbonyl, or a heteroatom moiety, wherein the heteroatom is selected from oxygen, sulfur, nitrogen or phosphorus.
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Abstract
The invention relates to nucleic acids covalently coupled to electrodes via conductive oligomers. More particularly, the invention is directed to the site-selective modification of nucleic acids with electron transfer moieties and electrodes to produce a new class of biomaterials, and to methods of making and using them.
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Citations
41 Claims
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1. A composition comprising:
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a) an electrode;
b) at least one nucleoside; and
c) a conductive oligomer covalently attached to both said electrode and said nucleoside, wherein said conductive oligomer has the formula;
wherein Y is an aromatic group;
n is an integer from 1 to 50;
g is either 1 or zero;
e is an integer from zero to 10; and
m is zero or 1;
wherein when g is 1, B-D is a conjugated bond; and
wherein when g is zero, e is 1 and D is preferably carbonyl, or a heteroatom moiety, wherein the heteroatom is selected from oxygen, sulfur, nitrogen or phosphorus. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 19, 30, 31)
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2. A composition comprising:
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a) an electrode;
b) at least one nucleoside; and
c) a conductive oligomer covalently attached to both said electrode and said nucleoside, wherein said conductive oligomer has the formula;
wherein n is an integer from 1 to 50;
m is O or 1;
C is carbon;
J is carbonyl or a heteroatom moeity, wherein the heteroatom is selected from the group consisting of nitrogen, silicon, phosphorus, sulfur; and
G is a bond selected from alkane, alkene or acetylene.
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11. A composition comprising:
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a) a first electron transfer moiety comprising an electrode;
b) a nucleic acid;
c) a second electron transfer moiety covalently attached to said nucleic acid; and
d) a conductive oligomer covalently attached to both said electrode and said nucleic acid. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
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20. A method of detecting a target sequence in a nucleic acid sample comprising
a) hybridizing a probe nucleic acid to said target sequence, if present, to form a hybridization complex, wherein said probe nucleic acid comprises: -
i) a conductive oligomer covalently attached to a first electron transfer moiety comprising an electrode and to a single stranded nucleic acid capable of hybridizing to said target sequence, said single stranded nucleic acid comprising a covalently attached second electron transfer moiety, wherein said conductive oligomer has the formula;
whereinY is an aromatic group;
n is an integer from 1 to 50;
g is either 1 or zero;
e is an integer from zero to 10;
andm is zero or 1;
wherein when g is 1, B-D is a conjugated bond; and
wherein when g is zero, e is 1 and D is preferably carbonyl, or a heteroatom moiety, wherein the heteroatom is selected from oxygen, sulfur, nitrogen or phosphorus; and
b) detecting electron transfer between said electrode and said second electron transfer moiety, if present, as an indicator of the present or absence of said target sequence.
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21. A method of detecting a target sequence in a nucleic acid sample comprising
a) hybridizing a probe nucleic acid to said target sequence, if present, to form a hybridization complex, wherein said probe nucleic acid comprises: -
i) a conductive oligomer covalently attached to a first electron transfer moiety comprising an electrode and to a single stranded nucleic acid capable of hybridizing to said target sequence, said single stranded nucleic acid comprising a covalently attached second electron transfer moiety, wherein said conductive oligomer has the formula;
whereinn is an integer from 1 to 50;
m is 0 or 1;
C is carbon;
J is carbonyl or a heteroatom moeity, wherein the heteroatom is selected from the group consisting of nitrogen, silicon, phosphorus, sulfur; and
G is a bond selected from alkane, alkene or acetylene; and
b) detecting electron transfer between said electrode and said second electron transfer moiety, if present, as an indicator of the present or absence of said target sequence.
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22. 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, said method comprising:
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a) hybridizing a first probe nucleic acid to said first target domain, if present, to form a hybridization complex, wherein said first probe nucleic acid comprises;
i) a conductive oligomer covalently attached to a first electron transfer moiety comprising an electrode and to a single stranded nucleic acid capable of hybridizing to said target sequence, wherein said conductive oligomer has the formula;
whereinY is an aromatic group;
n is an integer from 1 to 50;
g is either 1 or zero;
e is an integer from zero to 10; and
m is zero or 1;
wherein when g is 1, B-D is a conjugated bond; and
wherein when g is zero, e is 1 and D is preferably carbonyl, or a heteroatom moiety, wherein the heteroatom is selected from oxygen, sulfur, nitrogen or phosphorus;
b) hybridizing a second single stranded nucleic acid comprising a covalently attached electron transfer moiety to said second target domain; and
c) detecting electron transfer between said electrode and said second electron transfer moiety, if present, as an indicator of the present or absence of said target sequence.
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23. 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, said method comprising:
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a) hybridizing a first probe nucleic acid to said first target domain, if present, to form a hybridization complex, wherein said first probe nucleic acid comprises;
i) a conductive oligomer covalently attached to a first electron transfer moiety comprising an electrode and to a single stranded nucleic acid capable of hybridizing to said target sequence, wherein said conductive oligomer has the formula;
whereinn is an integer from 1 to 50;
m is 0 or 1;
C is carbon;
J is carbonyl or a heteroatom moeity, wherein the heteroatom is selected from the group consisting of nitrogen, silicon, phosphorus, sulfur; and
G is a bond selected from alkane, alkene or acetylene; and
b) hybridizing a second single stranded nucleic acid comprising a covalently attached electron transfer moiety to said second target domain; and
c) detecting electron transfer between said electrode and said second electron transfer moiety, if present, as an indicator of the present or absence of said target sequence.
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24. A method for attaching a conductive oligomer to a gold electrode comprising
a) adding an ethyl pyridine protecting group to a sulfur atom attached to a first subunit of said conductive oligomer.
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29. A conductive oligomer with a ethyl-pyridine protected sulfur atom.
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32. A composition comprising a conductive oligomer covalently attached to a nucleoside, wherein said conductive oligomer has the formula:
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33. A composition comprising a conductive oligomer covalently attached to a nucleoside, wherein said conductive oligomer has the formula:
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34. A composition comprising a conductive oligomer covalently attached to a phosphoramidite nucleoside, wherein said conductive oligomer has the formula:
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35. A composition comprising a conductive oligomer covalently attached to a phosphoramidite nucleoside, wherein said conductive oligomer has the formula:
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36. A composition comprising a conductive oligomer covalently attached to a CPG-nucleoside.
- 37. A composition comprising a nucleoside covalently linked to a metallocene.
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40. A composition comprising:
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a) an electrode;
b) at least one metallocene; and
c) a conductive oligomer covalently attached to both said electrode and said metallocene, wherein said conductive oligomer has the formula;
wherein n is an integer from 1 to 50;
m is 0 or 1;
C is carbon;
J is carbonyl or a heteroatom moeity, wherein the heteroatom is selected from the group consisting of nitrogen, silicon, phosphorus, sulfur; and
G is a bond selected from alkane, alkene or acetylene
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41. A composition comprising:
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a) an electrode;
b) at least one metallocene; and
c) a conductive oligomer covalently attached to both said electrode and said metallocene, wherein said conductive oligomer has the formula;
wherein Y is an aromatic group;
n is an integer from 1 to 50;
g is either 1 or zero;
e is an integer from zero to 10; and
m is zero or 1;
wherein when g is 1, B-D is a conjugated bond; and
wherein when g is zero, e is 1 and D is preferably carbonyl, or a heteroatom moiety, wherein the heteroatom is selected from oxygen, sulfur, nitrogen or phosphorus.
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Specification