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Last Updated: April 24, 2024

Claims for Patent: 7,846,659

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Summary for Patent: 7,846,659

Title:	Arrays of nucleic acid probes for analyzing biotransformation genes
Abstract:	The invention provides arrays of immobilized probes, and methods employing the arrays, for detecting mutations in the biotransformation genes, such as cytochromes P450. For example, one such array comprises four probe sets. A first probe set comprises a plurality of probes, each probe comprising a segment of at least three nucleotides exactly complementary to a subsequence of a reference sequence from a biotransformation gene, the segment including at least one interrogation position complementary to a corresponding nucleotide in the reference sequence. Second, third and fourth probe sets each comprise a corresponding probe for each probe in the first probe set. The probes in the second, third and fourth probe sets are identical to a sequence comprising the corresponding probe from the first probe set or a subsequence of at least three nucleotides thereof that includes the at least one interrogation position, except that the at least one interrogation position is occupied by a different nucleotide in each of the four corresponding probes from the four probe sets.
Inventor(s):	Cronin; Maureen T. (Los Altos, CA), Miyada; Charles G (San Jose, CA), Hubbell; Earl A. (Los Angeles, CA), Chee; Mark (Palo Alto, CA), Fodor; Stephen P. A. (Palo Alto, CA), Huang; Xiaohua C. (Mountain View, CA), Lipshutz; Robert J. (Palo Alto, CA), Lobban; Peter E. (Mountain View, CA), Morris; MacDonald S. (Felton, CA), Sheldon; Edward L. (San Diego, CA)
Assignee:	Affymetrix, Inc. (Santa Clara, CA)
Application Number:	11/401,482
Patent Claims:	1. An array of oligonucleotide probes immobilized on a solid support, the array comprising at least two sets of oligonucleotide probes, (1) a first probe set comprising a plurality of probes, each probe comprising a segment of at least three nucleotides exactly complementary to a subsequence of a reference sequence, the segment including at least one interrogation position complementary to a corresponding nucleotide in the reference sequence, (2) a second probe set comprising a corresponding probe for each probe in first probe set, the corresponding probe in the second probe set being identical to a sequence comprising the corresponding probe from the first probe set or a subsequence of at least three nucleotides thereof that includes the at least one interrogation position, except that the at least one interrogation position is occupied by a different nucleotide in each of the two corresponding probes from the first and second probe sets; wherein the probes in the first probe set have at least three interrogation positions respectively corresponding to each of three contiguous nucleotides in the reference sequence; provided that the array does not contain a complete set of probes of a given length, wherein a complete set is all permutations of nucleotides A,C, G and T/U: and wherein the reference sequence is from a biotransformation gene, wherein said biotransformation gene encodes an enzyme that is a reductase, an oxidase, a hydrolase or a transferase. 2. An array of oligonucleotide probes immobilized on a solid support, the array comprising at least four sets of oligonucleotide probes, (1) a first probe set comprising a plurality of probes, each probe comprising a segment of at least three nucleotides exactly complementary to a subsequence of a reference sequence, the segment including at least one interrogation position complementary to a corresponding nucleotide in the reference sequence, (2) second, third and fourth probe sets, each comprising a corresponding probe for each probe in the first probe set, the probes in the second, third and fourth probe sets being identical to a sequence comprising the corresponding probe from the first probe set or a subsequence of at least three nucleotides thereof that includes the at least one interrogation position, except that the at least one interrogation position is occupied by a different nucleotide in each of the four corresponding probes from the four probe sets; provided the array lacks a complete set of probes of a given length, wherein a complete set is all permutations of nucleotides A, C, G and T/U; and wherein the reference sequence is from a biotransformation gene, wherein said biotransformation gene encodes an enzyme that is a reductase, an oxidase, a hydrolase or a transferase. 3. The array of claim 1 wherein the reference sequence is from a biotransformation gene encoding an enzyme selected from the group consisting of a cytochrome P450, N-acetyl transferase II, glucose 6-phosphate dehydrogenase, pseudocholinesterase, catechol-O-methyl transferase, and dihydropyridine dehydrogenase. 4. The array of claim 2, wherein the reference sequence is from a biotransformation gene encoding an enzyme selected from the group consisting of a cytochrome P450, N-acetyl transferase II, glucose 6-phosphate dehydrogenase, pseudocholinesterase, catechol-O-methyl transferase, and dihydropyridine dehydrogenase. 5. The array of claim 4, wherein the enzyme is P450 2D6 or P450. 6. The array of claim 2, wherein the reference sequence includes a site of a mutation and a site of a silent polymorphism. 7. The array of claim 6, wherein the silent polymorphism is in an intron or flanking region of a gene. 8. The array of claim 2, wherein the first probe set has at least 3 interrogation positions respectively corresponding to each of 3 contiguous nucleotides in the reference sequence. 9. The array of claim 2, wherein the array has between 100 and 100,000 probes. 10. The array of claim 2, wherein the probes are linked to the support via a spacer. 11. The array of claim 2, wherein the segment in each probe of the first probe set that is exactly complementary to the subsequence of the reference sequence is 9-21 nucleotides. 12. A method of comparing a target nucleic acid with a reference sequence comprising a predetermined sequence of nucleotides, the method comprising: (a) hybridizing a sample comprising the target nucleic acid to an array of oligonucleotide probes immobilized on a solid support, the array comprising: (1) a first probe set comprising a plurality of probes, each probe comprising a segment of at least three nucleotides exactly complementary to a subsequence of the reference sequence, the segment including at least one interrogation position complementary to a corresponding nucleotide in the reference sequence, wherein the reference sequence is from a biotransformation gene, wherein said biotransformation gene encodes an enzyme that is a reductase, an oxidase, a hydrolase or a transferase; (2) a second probe set comprising a corresponding probe for each probe in the first probe set, the corresponding probe in the second probe set being identical to a sequence comprising the corresponding probe from the first probe set or a subsequence of at least three nucleotides thereof that includes the at least one interrogation position, except that the at least one interrogation position is occupied by a different nucleotide in each of the two corresponding probes from the first and second probe sets; wherein, the probes in the first probe set have at least three interrogation positions respectively corresponding to each of at least three nucleotides in the reference sequence, and (b) determining which probes, relative to one another, in the first and second probe sets specifically bind to the target nucleic acid, the relative specific binding of corresponding probes in the first and second probe sets indicating whether a nucleotide in the target sequence is the same or different from the corresponding nucleotide in the reference sequence. 13. The method of claim 12, wherein the determining step comprises: (1) comparing the relative specific binding of two corresponding probes from the first and second probe sets; (2) assigning a nucleotide in the target sequence as the complement of the interrogation position of the probe having the greater specific binding; and (3) repeating (1) and (2) until each nucleotide of interest in the target sequence has been assigned. 14. The method of claim 12, wherein the array further comprises third and fourth probe sets, each comprising a corresponding probe for each probe in the first probe set, the probes in the second, third and fourth probe sets being identical to a sequence comprising the corresponding probe from the first probe set or a subsequence of at least three nucleotides thereof that includes the at least one interrogation position, except that the at least one interrogation position is occupied by a different nucleotide in each of the four corresponding probes from the four probe sets; and the determining step comprises determining which probes, relative to one another, in the first, second, third and fourth probe sets specifically bind to the target nucleic acid, the relative specific binding of corresponding probes in the first, second, third and fourth probe sets indicating whether a nucleotide in the target sequence is the same or different from the corresponding nucleotide in the reference sequence. 15. The method of claim 14, wherein: the reference sequence includes a site of a mutation in the biotransformation gene and a silent polymorphism in or flanking the biotransformation gene; the target nucleic acid comprises one or more different alleles of the biotransformation gene; and the relative specific binding of probes having an interrogation position aligned with the silent polymorphism indicates the number of different alleles and the relative specific binding of probes having an interrogation position aligned with the mutation indicates whether the mutation is present in at least one of the alleles. 16. The method of claim 14, wherein the determining comprises: (1) comparing the relative specific binding of four corresponding probes from the first, second, third and fourth probe sets; (2) assigning a nucleotide in the target sequence as the complement of the interrogation position of the probe having the greatest specific binding; and (3) repeating (1) and (2) until each nucleotide of interest in the target sequence has been assigned.

Details for Patent 7,846,659

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Applicant	Tradename	Biologic Ingredient	Dosage Form	BLA	Approval Date	Patent No.	Expiredate
Merck Sharp & Dohme Corp.	INTRON A	interferon alfa-2b	For Injection	103132	06/04/1986	⤷ Try a Trial	2013-10-26
Merck Sharp & Dohme Corp.	INTRON A	interferon alfa-2b	For Injection	103132		⤷ Try a Trial	2013-10-26
Merck Sharp & Dohme Corp.	INTRON A	interferon alfa-2b	Injection	103132		⤷ Try a Trial	2013-10-26
>Applicant	>Tradename	>Biologic Ingredient	>Dosage Form	>BLA	>Approval Date	>Patent No.	>Expiredate

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