The present invention is related generally to analysis of polynucleotides, particularly polynucleotides derived from genomic DNA. The invention provides methods, compositions and systems for such analysis. Encompassed by the invention are arrays of polynucleotides in which the polynucleotides have undergone multiple rounds of amplification in order to increase the strength of signals associated with single polynucleotide molecules.

The present invention is related generally to analysis of polynucleotides, particularly polynucleotides derived from genomic DNA. The invention provides methods, compositions and systems for such analysis. Encompassed by the invention are arrays of polynucleotides in which the polynucleotides have undergone multiple rounds of amplification in order to increase the strength of signals associated with single polynucleotide molecules.

Provided are immune cell RNA sequencing methods. In some embodiments, the methods comprise producing a circularized DNA comprising a complementary DNA (cDNA) and a known heterologous sequence, wherein the cDNA is produced from an immune cell RNA. Such methods further comprise performing rolling circle amplification using the circularized DNA as template to produce a concatemer comprising repeating segments comprising the cDNA and the known heterologous sequence. Such methods further comprise sequencing the concatemer or fragments thereof. Also provided are methods comprising producing immune cell RNA sequencing reads using a R2C2 sequencing method, extracting HLA reads from the sequencing reads, and producing allele-specific HLA sequences from the extracted HLA reads. Also provided are computer-readable media, systems, compositions and kits that find use, e.g., in practicing the methods of the present disclosure.

Provided are immune cell RNA sequencing methods. In some embodiments, the methods comprise producing a circularized DNA comprising a complementary DNA (cDNA) and a known heterologous sequence, wherein the cDNA is produced from an immune cell RNA. Such methods further comprise performing rolling circle amplification using the circularized DNA as template to produce a concatemer comprising repeating segments comprising the cDNA and the known heterologous sequence. Such methods further comprise sequencing the concatemer or fragments thereof. Also provided are methods comprising producing immune cell RNA sequencing reads using a R2C2 sequencing method, extracting HLA reads from the sequencing reads, and producing allele-specific HLA sequences from the extracted HLA reads. Also provided are computer-readable media, systems, compositions and kits that find use, e.g., in practicing the methods of the present disclosure.

The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

Disclosed herein are compositions and methods for detecting biological molecules and biomarkers associated with prostate cancer. Disclosed herein are compositions and methods for detecting biological molecules and biomarkers associated with castration-resistant prostate cancer wherein such biological molecules and biomarkers comprise androgen-receptor splice variants that can be used to develop effective therapeutic regimens for prostate cancer patients. Disclosed herein are methods of using biological molecules and biomarkers related to androgen-receptor splice variants for assessing therapeutic resistance to drugs such as enzalutamide and abiraterone.

Disclosed herein are compositions and methods for detecting biological molecules and biomarkers associated with prostate cancer. Disclosed herein are compositions and methods for detecting biological molecules and biomarkers associated with castration-resistant prostate cancer wherein such biological molecules and biomarkers comprise androgen-receptor splice variants that can be used to develop effective therapeutic regimens for prostate cancer patients. Disclosed herein are methods of using biological molecules and biomarkers related to androgen-receptor splice variants for assessing therapeutic resistance to drugs such as enzalutamide and abiraterone.