Nucleic acid analysis techniques
First Claim
1. A method of identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
- (a) providing one or more oligonucleotide arrays said arrays comprising probe oligonucleotides attached to a surface;
(b) hybridizing said nucleic acid samples to said one or more arrays to form hybrid duplexes between nucleic acids in said nucleic acid samples and probe oligonucleotides in said one or more arrays that are complementary to said nucleic acids or subsequences thereof;
(c) contacting said one or more arrays with a nucleic acid ligase; and
(d) determining differences in hybridization between said nucleic acid samples wherein said differences in hybridization indicate differences in said nucleic acid levels.
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Accused Products
Abstract
The present invention provides a simplified method for identifying differences in nucleic acid abundances (e.g., expression levels) between two or more samples. The methods involve providing an array containing a large number (e.g. greater than 1,000) of arbitrarily selected different oligonucleotide probes where the sequence and location of each different probe is known. Nucleic acid samples (e.g. mRNA) from two or more samples are hybridized to the probe arrays and the pattern of hybridization is detected. Differences in the hybridization patterns between the samples indicates differences in expression of various genes between those samples. This invention also provides a method of end-labeling a nucleic acid. In one embodiment, the method involves providing a nucleic acid, providing a labeled oligonucleotide and then enzymatically ligating the oligonucleotide to the nucleic acid. Thus, for example, where the nucleic acid is an RNA, a labeled oligoribonucleotide can be ligated using an RNA ligase. In another embodiment, the end labeling can be accomplished by providing a nucleic acid, providing labeled nucleoside triphosphates, and attaching the nucleoside triphosphates to the nucleic acid using a terminal transferase.
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Citations
48 Claims
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1. A method of identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing one or more oligonucleotide arrays said arrays comprising probe oligonucleotides attached to a surface;
(b) hybridizing said nucleic acid samples to said one or more arrays to form hybrid duplexes between nucleic acids in said nucleic acid samples and probe oligonucleotides in said one or more arrays that are complementary to said nucleic acids or subsequences thereof;
(c) contacting said one or more arrays with a nucleic acid ligase; and
(d) determining differences in hybridization between said nucleic acid samples wherein said differences in hybridization indicate differences in said nucleic acid levels. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing one or more oligonucleotide arrays comprising probe oligonucleotides wherein said probe oligonucleotides comprise a constant region and a variable region;
(b) hybridizing said nucleic acid samples to said one or more arrays to form hybrid duplexes between nucleic acids in said nucleic acid samples and said variable regions that are complementary to said nucleic acids or subsequences thereof; and
(c) determining differences in hybridization between said nucleic acid samples wherein said differences in hybridization indicate differences in said nucleic acid levels. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A method of identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing one or more arrays of oligonucleotides each array comprising pairs of probe oligonucleotides where the members of each pair of probe oligonucleotides differ from each other in preselected nucleotides;
(b) hybridizing said nucleic acid samples to said one or more arrays to form hybrid duplexes between nucleic acids in said nucleic acid samples and probe oligonucleotides in said one or more arrays that are complementary to said nucleic acids or subsequences thereof;
(c) determining the differences in hybridization between said nucleic acid samples wherein said differences in hybridization indicate differences in said nucleic acid levels. - View Dependent Claims (25)
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26. A method of identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing one or more arrays of oligonucleotide arrays each array comprising more than 100 different probe oligonucleotides wherein;
each different probe oligonucleotide is localized in a predetermined region of the array;
each different probe oligonucleotide is attached to a surface through a terminal covalent bond;
the density of said probe different oligonucleotides is greater than about 60 different oligonucleotides per 1 cm2;
(b) hybridizing said nucleic acid samples to said one or more arrays to form hybrid duplexes between nucleic acids in said nucleic acid samples and probe oligonucleotides in said one or more arrays that are complementary to said nucleic acids or subsequences thereof;
(c) determining the differences in hybridization between said nucleic acid samples wherein said differences in hybridization indicate differences in said nucleic acid levels. - View Dependent Claims (27)
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28. A method of identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing one or more oligonucleotide arrays each comprising probe oligonucleotides wherein said probe oligonucleotides are not chosen to hybridize to nucleic acids derived from particular preselected genes or mRNAs;
(b) hybridizing said nucleic acid samples to said one or more arrays to form hybrid duplexes between nucleic acids in said nucleic acid samples and probe oligonucleotides in said one or more arrays that are complementary to said nucleic acids or subsequences thereof; and
(d) determining differences in hybridization between said nucleic acid samples wherein said differences in hybridization indicate differences in said nucleic acid levels. - View Dependent Claims (29, 30)
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31. A method of identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing one or more oligonucleotide arrays each comprising probe oligonucleotides wherein said probe oligonucleotides comprise a nucleotide sequence or subsequences selected according to a process selected from the group consisting of a random selection, a haphazard selection, a nucleotide composition biased selection, and all possible oligonucleotides of a preselected length;
(b) hybridizing said nucleic acid samples to said one or more arrays to form hybrid duplexes between nucleic acids in said nucleic acid samples and probe oligonucleotides in said one or more arrays that are complementary to said nucleic acids or subsequences thereof; and
(c) determining differences in hybridization between said nucleic acid samples wherein said differences in hybridization indicate differences in said nucleic acid levels. - View Dependent Claims (32)
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33. A method of simultaneously monitoring the expression of a multiplicity of genes, said method comprising:
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(a) providing a pool of target nucleic acids comprising RNA transcripts of one or more of said genes, or nucleic acids derived from said RNA transcripts;
(b) hybridizing said pool of nucleic acids to an oligonucleotide array comprising probe oligonucleotides immobilized on a surface;
(c) contacting said oligonucleotide array with a ligase; and
(d) quantifying the hybridization of said nucleic acids to said array wherein said quantifying provides a measure of the levels of transcription of said genes. - View Dependent Claims (34)
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35. A method of simultaneously monitoring the expression of a multiplicity of genes, said method comprising:
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(a) providing one or more oligonucleotide arrays comprising probe oligonucleotides wherein said probe oligonucleotides comprise a constant region and a variable region;
(b) providing a pool of target nucleic acids comprising RNA transcripts of one or more of said genes, or nucleic acids derived from said RNA transcripts;
(c) hybridizing said pool of nucleic acids to said array of oligonucleotide probes; and
(d) quantifying the hybridization of said nucleic acids to said array wherein said quantifying provides a measure of the levels of transcription of said genes. - View Dependent Claims (36)
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37. A method of making a nucleic acid array for identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing an oligonucleotide array comprising probe oligonucleotides wherein said probe oligonucleotides comprise a constant region and a variable region;
(b) hybridizing one or more of said nucleic acid samples to said arrays to form hybrid duplexes of said variable region and nucleic acids in said nucleic acid samples comprising subsequences complementary to said variable region;
(c) attaching the sample nucleic acids comprising said hybrid duplexes to said array of probe oligonucleotides; and
(d) removing unattached nucleic acids to provide a high density oligonucleotide array bearing sample nucleic acids attached to said array.
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38. A method of making a nucleic acid array for identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing an array comprising more than 100 different probe oligonucleotides wherein;
each different probe oligonucleotide is localized in a predetermined region of the array;
each different probe oligonucleotide is attached to a surface through a terminal covalent bond;
the density of said probe different oligonucleotides is greater than about 60 different oligonucleotides per 1 cm2;
(b) contacting said array one or more of said two or more nucleic acid samples whereby nucleic acids of said one of said two or more nucleic acid samples form hybrid duplexes with probe oligonucleotides in said arrays;
(c) attaching the sample nucleic acids comprising said hybrid duplexes to said array of probe oligonucleotides; and
(d) removing unattached nucleic acids to provide a high density oligonucleotide array bearing sample nucleic acids attached to said array.
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39. A kit for identifying differences in nucleic acid levels between two or more nucleic acid samples, said kit comprising:
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a container containing one or more oligonucleotide arrays said arrays comprising probe oligonucleotides attached to a surface; and
a container containing a ligase.
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40. A kit for identifying differences in nucleic acid levels between two or more nucleic acid samples, said kit comprising:
a container containing one or more oligonucleotide arrays said arrays comprising probe oligonucleotides wherein said probe oligonucleotides comprise a constant region and a variable region/ - View Dependent Claims (41)
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42. A method of labeling a nucleic acid, said method comprising the steps of:
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(a) providing a nucleic acid;
(b) amplifying said nucleic acid to form amplicons;
(c) fragmenting said amplicons to form fragments of said amplicons; and
(d) coupling a labeled moiety to at least one of said fragments.
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43. A method of labeling a nucleic acid, said method comprising the steps of:
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(a) providing a nucleic acid;
(b) transcribing said nucleic acid to formed a transcribed nucleic acid;
(c) fragmenting said transcribed nucleic acid to form fragments of said transcribed nucleic acid; and
(d) coupling a labeled moiety to at least one of said fragments.
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44. A method of labeling a nucleic acid comprising the steps of:
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(a) providing at least one nucleic acid coupled to a support;
(b) providing a labeled moiety capable of being coupled with a terminal transferase to said nucleic acid;
(c) providing said terminal transferase; and
(d) coupling said labeled moiety to said nucleic acid using said terminal transferase.
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44-1. A method of labeling a nucleic acid comprising the steps of:
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(a) providing at least two nucleic acids coupled to a support;
(b) increasing the number of monomer units of said nucleic acids to form a common nucleic acid tail on said at least two nucleic acids;
(c) providing a labeled moiety capable of recognizing said common nucleic acid tails; and
(d) contacting said common nucleic acid tails and said labeled moiety.
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45. A method of labeling a nucleic acid comprising the steps of:
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(a) providing at least one nucleic acid coupled to a support;
(b) providing a labeled moiety capable of being coupled with a ligase to said nucleic acid;
(c) providing said ligase; and
(d) coupling said labeled moiety to said nucleic acid using said ligase.
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46. A compound having the formula:
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47. A compound having the formula:
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48. A method of identifying differences in nucleic acid levels between two or more nucleic acid samples, said method comprising the steps of:
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(a) providing one or more oligonucleotide arrays each comprising probe oligonucleotides wherein said probe oligonucleotides comprise a nucleotide sequence or subsequences selected according to a process selected from the group consisting of a random selection, a haphazard selection, a nucleotide composition biased selection, and all possible oligonucleotides of a preselected length;
(b) providing software describing the location and sequence of probe oligonucleotides on said array;
(c) hybridizing said nucleic acid samples to said one or more arrays to form hybrid duplexes between nucleic acids in said nucleic acid samples and probe oligonucleotides in said one or more arrays that are complementary to said nucleic acids or subsequences thereof;
(d) operating said software such that said hybridizing indicates differences in said nucleic acid levels.
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Specification