Presented are methods and compositions for spatial detection and analysis of nucleic acids in a tissue sample. The methods can enable the characterization of transcriptomes and/or genomic variations in tissues while preserving spatial information about the tissue.

The present disclosure relates generally to methods and materials for use in detecting abnormalities of the number of whole chromosomes or chromosome regions (aneuploidy). It has particular utility for assessing the risk of aneuploidy of eggs (i.e., oocytes), fertilized eggs or embryos developed therefrom in the context of in vitro fertilization.

A method for determining the presence of a copy number imbalance in genomic DNA of a test sample is provided. The method can separately measure hybridization of a single test sample to a first hybridization array and hybridization of a plurality of reference samples to a plurality of other, respective test arrays. A determination of copy number can be based on the best fit reference array, relative to the test array. The best fit can be determined based on the closest or most similar signal-to-noise ratio of the measured signals.

A method for determining the presence of a copy number imbalance in genomic DNA of a test sample is provided. The method can separately measure hybridization of a single test sample to a first hybridization array and hybridization of a plurality of reference samples to a plurality of other, respective test arrays. A determination of copy number can be based on the best fit reference array, relative to the test array. The best fit can be determined based on the closest or most similar signal-to-noise ratio of the measured signals.

The invention combines the fields of comparative genomic hybridisation (CGH) analysis and SNP array analysis. It relates to methods for detecting and mapping genetic abnormalities associated with various diseases. In particular the invention provides a method for simultaneously performing array CGH and SNP array analysis on a genomic DNA sample comprising contacting a nucleic acid array which comprises a first probe set and a second probe set with a genomic DNA sample, comprising a test and reference sample, under hybridisation conditions, comparing the amount of test sample and reference sample hybridised to the hybridisation probes of the first probe set, comparing the amount of test sample and reference sample hybridised to the hybridisation probes of the second probe set; and using the data obtained to determine the copy number of at least one locus; and at least one SNP in the genomic DNA sample.

The invention combines the fields of comparative genomic hybridisation (CGH) analysis and SNP array analysis. It relates to methods for detecting and mapping genetic abnormalities associated with various diseases. In particular the invention provides a method for simultaneously performing array CGH and SNP array analysis on a genomic DNA sample comprising contacting a nucleic acid array which comprises a first probe set and a second probe set with a genomic DNA sample, comprising a test and reference sample, under hybridisation conditions, comparing the amount of test sample and reference sample hybridised to the hybridisation probes of the first probe set, comparing the amount of test sample and reference sample hybridised to the hybridisation probes of the second probe set; and using the data obtained to determine the copy number of at least one locus; and at least one SNP in the genomic DNA sample.

The present invention relates to a system and method of genomic profiling and is particularly useful in genomic differentiation of heterogeneous and polyclonal neoplastic cell populations, preferably of flow sorted formalin fixed paraffin embedded samples. The present invention includes methods of improving resolution for identifying aberration in variable carcinoma genomes and/or heterogeneous cell populations. The present invention also includes kits configured to improve genomic resolution and the ability to identify genomic aberration in variable and/or heterogeneous cell populations.

The present invention relates to a system and method of genomic profiling and is particularly useful in genomic differentiation of heterogeneous and polyclonal neoplastic cell populations, preferably of flow sorted formalin fixed paraffin embedded samples. The present invention includes methods of improving resolution for identifying aberration in variable carcinoma genomes and/or heterogeneous cell populations. The present invention also includes kits configured to improve genomic resolution and the ability to identify genomic aberration in variable and/or heterogeneous cell populations.

A method for determining the presence of a copy number imbalance in genomic DNA of a test sample is provided. The method can separately measure hybridization of a single test sample to a first hybridization array and hybridization of a plurality of reference samples to a plurality of other, respective test arrays. A determination of copy number can be based on the best fit reference array, relative to the test array. The best fit can be determined based on the closest or most similar signal-to-noise ratio of the measured signals.

A method for determining the presence of a copy number imbalance in genomic DNA of a test sample is provided. The method can separately measure hybridization of a single test sample to a first hybridization array and hybridization of a plurality of reference samples to a plurality of other, respective test arrays. A determination of copy number can be based on the best fit reference array, relative to the test array. The best fit can be determined based on the closest or most similar signal-to-noise ratio of the measured signals.