Chemistry: molecular biology and microbiology – Measuring or testing process involving enzymes or... – Involving nucleic acid
Reexamination Certificate
1997-03-04
2001-10-02
Myers, Carla J. (Department: 1655)
Chemistry: molecular biology and microbiology
Measuring or testing process involving enzymes or...
Involving nucleic acid
C435S091100, C435S091500, C435S091520, C436S094000, C536S024300
Reexamination Certificate
active
06297006
ABSTRACT:
FIELD OF THE INVENTION
This invention relates in general to methods and apparatus for nucleic acid analysis, and, in particular, to methods and apparatus for DNA analysis.
BACKGROUND
The rate of determining the sequence of the four nucleotides in DNA samples is a major technical obstacle for further advancement of molecular biology, medicine, and biotechnology. Nucleic acid sequencing methods which involve separation of DNA molecules in a gel have been in use since 1978. The other proven method for sequencing nucleic acids is sequencing by hybridization (SBH).
The traditional method of determining a sequence of nucleotides (i.e., the order of the A, G, C and T nucleotides in a sample) is performed by preparing a mixture of randomly-terminated, differentially labelled DNA fragments by degradation at specific nucleotides, or by dideoxy chain termination of replicating strands. Resulting DNA fragments in the range of 1 to 500 bp are then separated on a gel to produce a ladder of bands wherein the adjacent samples differ in length by one nucleotide.
The array-based approach of SBH does not require single base resolution in separation, degradation, synthesis or imaging of a DNA molecule. Using mismatch discriminative hybridization of short oligonucleotides K bases in length, lists of constituent K-mer oligonucleotides may be determined for target DNA. DNA sequence for the target DNA may be assembled by uniquely overlapping scored oligonucleotides.
There are several approaches available to achieve sequencing by hybridization. In a process called SBH Format 1, DNA samples are arrayed, and labeled probes are hybridized with the samples. Replica membranes with the same sets of sample DNAs may be used for parallel scoring of several probes and/or probes may be multiplexed. DNA samples may be arrayed and hybridized on nylon membranes. Each membrane array may be reused many times. Format 1 is especially efficient for batch processing large numbers of samples.
In SBH Format 2, probes are arrayed at locations on a Esubsrate which correspond to their respective sequences, and a labelled DNA sample fragment is hybridized to the arrayed probes. In this case, sequence information about a fragment may be determined in a simultaneous hybridization reaction with all of the arrayed probes. For sequencing other DNA fragments, the same oligonucleotide array may be reused. The arrays may be produced by spotting or by in situ synthesis of probes.
In Format 3 SBH, two sets of probes are used. One set may be in the form of arrays of probes with known positions, and another, labelled set may be stored in multiwell plates. In this case, target DNA need not be labelled. Target DNA and one or more labelled probes are added to the arrayed sets of probes. If one attached probe and one labelled probe both hybridize contiguously on the target DNA, they are covalently ligated, producing a detected sequence equal to the sum of the length of the ligated probes. The process allows for sequencing long DNA fragments, e.g. a complete bacterial genome, without DNA subjoining in smaller pieces.
In the present invention, SBH is applied to the efficient identification and sequencing of one: or more DNA samples. The procedure has many applications in DNA diagnostics, forensics, and gene mapping. It also may be used to identify mutations responsible for genetic disorders and other traits, to assess biodiversity and to produce many other types of data dependent on DNA sequence.
SUMMARY OF THE INVENTION
The present invention provides a method for detecting a target nucleic acid specie,; including the steps of providing an array of probes affixed to a substrate and a plurality of labeled probes wherein each labeled probe is selected to have a first nucleic acid sequence which is complementary to a first portion of a target nucleic acid and wherein the nucleic acid sequence of at least one probe affixed to the substrate is complementary to a second portion of the nucleic acid sequence of the target, the second portion being adjacent to the first portion; applying a target nucleic acid to the array under suitable conditions for hybridization of probe sequences to complementary sequences; introducing a labeled probe to the array; hybridizing a probe affixed to the substrate to the target nucleic acid; hybridizing the labeled probe to the target nucleic acid; affixing the labeled probe to an adjacently hybridized probe in the array; and detecting the labeled probe affixed to the probe in the array. According to preferred methods of the invention the array of probes affixed to the substrate comprises a universal set of probes. According to other preferred aspects of the invention at least two of the probes affixed to the substrate define overlapping sequences of the target nucleic acid sequence and more preferably at least two of the labelled probes define overlapping sequences of the target nucleic acid sequences. In this manner a overlapping probes can confirm the sequence of the sample nucleic acid. The invention also provides a method of determining expression of a member of a set of partially or completely sequenced genes in a cell type, a tissue or a tissue mixture comprising the steps of: defining pairs of fixed and labeled probes specific for the sequenced gene; hybridizing unlabeled nucleic acid sample and corresponding labeled probes to one or more arrays of fixed probes; forming covalent bonds between adjacent hybridized labeled and fixed probes; removing unligated probes; and determining, the presence of the sequenced gene by detection of labeled probes bound to prespecified locations in the array. Finally, according to a further aspect of the invention a method is provided of detecting the presence of an infectious agent characterized by a target nucleic acid sequence comprising the steps of: contacting a nucleic acid sample with a set of immobilized oligonucleotide probes attached to a solid substrate under hybridizing conditions wherein said first set of probes are capable of specific hybridization with different portions of said target nucleic acid sequence; contacting said sample with a set of labelled oligonucleotide probes in solution under hybridizing conditions wherein said second set of probes are capable of specific hybridization with different portions of said target nucleic acid sequence adjacent the first set of probes; ligating the immobilized probes and labelled probes that are immediately adjacent on a target sequence with a ligase; removing any non-ligated labelled probes; detecting the presence of said infectious agent by detecting the presence of said labelled probe.
Further, the present invention provides for an array of oligonucleotide probes comprising a nylon membrane; a plurality of subarrays of oligonucleotide probes on the nylon membrane, the subarrays comprising a plurality of individual spots wherein each spot is comprised of a plurality of oligonucleotide probes of the same sequence; and a plurality of hydrophobic barriers located between the subarrays on the nylon membrane, whereby the plurality of hydrophobic barriers prevents cross contamination between adjacent subarrays.
Still further, the present invention provides a method for sequencing a repetitive sequence, having a first end and a second end, in a target nucleic acid comprising the steps of: (a) providing a plurality of spacer oligonucleotides of varying lengths wherein the spacer oligonucleotides comprise the repetitive sequence; (b) providing a first oligonucleotide that is known to be adjacent to the first end of the repetitive sequence; (c) providing a plurality of second oligonucleotides one of which is adjacent to the second end of the repetitive sequence, wherein the plurality of second oligonucleotides is labeled; (d) hybridizing the first and the plurality of second oligonucleotides, and one of the plurality of spacer oligonucleotides to the target DNA; (e) ligating the hybridized oligonucleotides; (f) separating ligated oligonucleotides from unligated oligonucleotides; and (g) detecting label in the ligated oligonucleot
Drmanac Radoje T.
Drmanac Snezana
Hauser Brian
Hou Aaron
Hyseq Inc.
Marshall Gerstein & Borun
Myers Carla J.
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