Abstract: The subject matter disclosed herein is generally directed to methods and compositions for tagging cells of interest, tracking evolution of the tagged cells, and recovering the original tagged cells for further study. Specifically, cells are tagged with a DNA construct encoding a barcode sequence comprising a guide sequence. Barcoded cells can then be recovered using a reporter construct having CRISPR target sequences specific for the cell having a barcode of interest.

Abstract: The subject matter disclosed herein is generally directed to methods and compositions for tagging cells of interest, tracking evolution of the tagged cells, and recovering the original tagged cells for further study. Specifically, cells are tagged with a DNA construct encoding a barcode sequence comprising a guide sequence. Barcoded cells can then be recovered using a reporter construct having CRISPR target sequences specific for the cell having a barcode of interest.

Abstract: The subject matter disclosed herein is generally directed to methods and compositions for tagging cells of interest, tracking evolution of the tagged cells, and recovering the original tagged cells for further study. Specifically, cells are tagged with a DNA construct encoding a barcode sequence comprising a guide sequence. Barcoded cells can then be recovered using a reporter construct having CRISPR target sequences specific for the cell having a barcode of interest.

Abstract: Described herein are embodiments of methods to rationally design CRISPR-Cas system-based therapeutics and therapies based on expression of a DNA-damage response signature in a cell. In some embodiments, the methods include screening a set of CRISPR-Cas systems by expressing each CRISPR-Cas system in a test cell population and modifying one or more target sequences in the test cell population; screening in the test cell population for each CRISPR-Cas system and expression of a DNA-damage response signature; and selecting one or more CRISPR-Cas systems that do not result in expression of a DNA-damage response signature.

Abstract: The present invention provides an association between copy loss of SF3B1 in cancer and sensitivity to SF3B1 suppression. Cancer cells harboring partial SF3B1 copy-loss are more sensitive because they lack a reservoir of SF3b complex that protects cells with normal SF3B1 copy number from cell death upon SF3B1 suppression. The invention also provides methods for treating cancer, especially cancer with SF3B1 copy loss, by suppressing the expression or activity of SF3B1.

Abstract: The present invention provides methods for screening and diagnosing pediatric low-grade glioma (PLGG) based on a correlation between angiocentric glioma and MYB-QKI rearrangement. Specific methods for detecting the rearrangement encompass cytogenetic methods, DNA sequencing, RNA sequencing and antibody-based methods to detect the fusion protein.

Abstract: A method for diagnosis of different stages of endometrial cancer and for evaluating the probability of survival for an individual suffering from endometrial carcinoma, and for stratification of a therapy regimen for an endometrial tumor or monitoring therapeutic efficacy in an individual suffering considers the expression status of STMN1 gene or protein. A kit for use in the methods allows for determining amplifications and deletions of chromosomal regions 3q26.32 and 12p12.1, determining alterations of the gene expression profile of the genes (gene signature): upregulation of the genes PLEKHK1, ATP10B, NMU, MMP1, ATAD2, NETO2, TNNI3, PHLDA2, OVOL1 and down-regulation of the genes: NDP, KIAA1434, MME, CFH, MOXD1, SLC47A1, RBP1, PDE8B, ASRGL1, ADAMTS19, EFHD1, ABCA5, NPAS3, SCML1, TNXB, ENTPD3, AMY1A, ENPP, RASL11B, PDZK3, or the expression status of the STMN1 gene or protein.

Abstract: The present invention relates to a method for diagnosis of different stages of endometrial cancer in an individual. Further, the present invention relates to a method for evaluating the probability of survival for an individual suffering from endometrial carcinoma. In another aspect, the present invention relates to the stratification of therapy regimen of endometrial tumor, ovarian cancer, breast cancer, non-small lung cancer or hormone refractory prostate cancer therapy in an individual or monitoring therapeutic efficacy in an individual suffering from the same based on the expression status of STMN1 gene or protein. Moreover, the present invention relates to a kit for use in any of the above referenced methods comprising a means for determining amplifications and deletions of chromosomal regions 3q26.32 and 12p12.