Abstract: Methods of identifying allele-specific changes in genomic DNA copy number are disclosed. Methods for identifying homozygous deletions and genetic amplifications are disclosed. An array of probes designed to detect presence or absence of a plurality of different sequences is also disclosed. The probes are designed to hybridize to sequences that are predicted to be present in a reduced complexity sample. The methods may be used to detect copy number changes in cancerous tissue compared to normal tissue. The methods may be used to diagnose cancer and other diseases associated with chromosomal anomalies.

Abstract: The present invention provides methods for reducing the complexity of a nucleic acid sample to interrogate a collection of target sequences. Complexity reduction can be accomplished by annealing one or more target-specific primers to a nucleic acid sample containing genomic DNA and elongating the primers using a DNA polymerase with a high processivity rate. Labeled nucleotides or a labeled primer may be incorporated into the extension products and the labeled extension products may be separated from the unlabeled nucleic acid by affinity purification. The enriched sample may be further amplified using a target specific or non-specific amplification method. The invention further provides for analysis of the above sample to interrogate sequences of interest such as polymorphisms and to detect translocations and map translocation breakpoints. The amplified sample may be hybridized to an array, which may be specifically designed to interrogate the amplified fragments.

Abstract: The present invention provides for novel methods and kits for reducing the complexity of a nucleic acid sample to interrogate a collection of target sequences. In one embodiment complexity reduction can be accomplished by extension of a locus specific capture probe followed by amplification of the extended capture probe using common primers. The locus specific capture probes may be attached to a solid support. Multiple DNA sequences may be amplified simultaneously to produce a reduced complexity sample. The invention further provides for analysis of the above sample to interrogate sequences of interest such as polymorphisms. The amplified sample may be hybridized to an array, which may be specifically designed to interrogate the desired fragments for the presence or absence of a polymorphism.

Abstract: Methods and kits for synthesizing a plurality of oligonucleotides are provided. Methods for providing a plurality of oligonucleotides enriched for full length oligonucleotides are provided. Truncated oligonucleotides are preferentially removed from the sample by digestion. Methods are also provided for amplification of a plurality of oligonucleotides.

Abstract: The present invention provides for novel methods and kits for determining the methylation status of a cytosine in a nucleic acid sample. The methylation status of a plurality of cytosines may be determined simultaneously. In one embodiment methylation status is determined using methylation specific modification of cytosines followed by locus specific amplification, single base extension at the interrogation position and identification of the extended base by array hybridization. In another embodiment methylation specific modification of a cytosine is detected by hybridization to an array of probes that are perfectly complementary to either the methylated product of modification or the unmethylated product of modification. In another embodiment methylation status is determined using methylation specific restriction enzymes coupled with hybridization to an array.

Abstract: Methods for genotyping polymorphisms using a locus specific primer that is complementary to a region near a selected polymorphism are described. Methods for synthesizing pools of locus specific primers that incorporate some degenerate positions are also disclosed. A plurality of different sequence capture probes are synthesized simultaneously using degenerate oligonucleotide synthesis. The sequence of the locus specific regions of the capture probes are related in that they have some bases that are identical in each sequence in the plurality of sequences and positions that vary from one locus specific region to another. The sequences are selected based on proximity to a polymorphism of interest and because they conform to a similar sequence pattern.

Abstract: Methods of identifying changes in genomic DNA copy number are disclosed. Methods for identifying homozygous deletions and genetic amplifications are disclosed. An array of probes designed to detect presence or absence of a plurality of different sequences is also disclosed. The probes are designed to hybridize to sequences that are predicted to be present in a reduced complexity sample. The methods may be used to detect copy number changes in cancerous tissue compared to normal tissue. The methods may be used to diagnose cancer and other diseases associated with chromosomal anomalies.

Abstract: The present invention provides for novel methods and kits for reducing the complexity of a nucleic acid sample to interrogate a collection of target sequences. In one embodiment complexity reduction can be accomplished by extension of a locus specific capture probe followed by amplification of the extended capture probe using common primers. The locus specific capture probes may be attached to a solid support. Multiple DNA sequences may be amplified simultaneously to produce a reduced complexity sample. The invention further provides for analysis of the above sample to interrogate sequences of interest such as polymorphisms. The amplified sample may be hybridized to an array, which may be specifically designed to interrogate the desired fragments for the presence or absence of a polymorphism.

Abstract: Methods of identifying changes in genomic DNA copy number are disclosed. Methods for identifying homozygous deletions and genetic amplifications are disclosed. An array of probes designed to detect presence or absence of a plurality of different sequences is also disclosed. The probes are designed to hybridize to sequences that are predicted to be present in a reduced complexity sample. The methods may be used to detect copy number changes in cancerous tissue compared to normal tissue. The methods may be used to diagnose cancer and other diseases associated with chromosomal anomalies.

Abstract: The present invention provides for novel methods and kits for determining the methylation status of a cytosine in a nucleic acid sample. The methylation status of a plurality of cytosines may be determined simultaneously. In one embodiment methylation status is determined using methylation specific modification of cytosines followed by locus specific amplification, single base extension at the interrogation position and identification of the extended base by array hybridization. In another embodiment methylation specific modification of a cytosine is detected by hybridization to an array of probes that are perfectly complementary to either the methylated product of modification or the unmethylated product of modification. In another embodiment methylation status is determined using methylation specific restriction enzymes coupled with hybridization to an array.

Abstract: Methods of identifying changes in genomic DNA copy number are disclosed. Methods for identifying homozygous deletions and genetic amplifications are disclosed. An array of probes designed to detect presence or absence of a plurality of different sequences is also disclosed. The probes are designed to hybridize to sequences that are predicted to be present in a reduced complexity sample. The methods may be used to detect copy number changes in cancerous tissue compared to normal tissue. The methods may be used to diagnose cancer and other diseases associated with chromosomal anomalies.

Abstract: The present invention provides for novel methods and kits for reducing the complexity of a nucleic acid sample to interrogate a collection of target sequences. In one embodiment complexity reduction can be accomplished by extension of a locus specific capture probe followed by amplification of the extended capture probe using common primers. The locus specific capture probes may be attached to a solid support. Multiple DNA sequences may be amplified simultaneously to produce a reduced complexity sample. The invention further provides for analysis of the above sample to interrogate sequences of interest such as polymorphisms. The amplified sample may be hybridized to an array, which may be specifically designed to interrogate the desired fragments for the presence or absence of a polymorphism.