Abstract: The present invention discloses novel methods, compositions, and uses thereof for removing or overcoming immunosuppression. More specifically, the methods and compositions disclosed herein target effector Treg cells by modulating ST2 and/or IL-33 signaling using pharmaceutical inhibitors and/or genetic ablation, whereby the levels and/or activities of effector Treg cells in a tumor microenvironment are inhibited, and the infiltration of effector CD8+ cytotoxic T cells into tumor microenvironment increases. As a result, tumor growth is inhibited and tumor volume is reduced. The present invention also provides methods for identifying and isolating effector Treg cells in a population of heterogeneous cells.

Abstract: The invention provides for systems, methods, and compositions for targeting nucleic acids. In particular, the invention provides non-naturally occurring or engineered RNA-targeting systems comprising a novel RNA-targeting Cas13b effector protein and at least one targeting nucleic acid component like a guide RNA or crRNA.

Abstract: The instant specification provides for evolved base editors which overcome deficiencies of those in art (including increased efficiency and/or decreased requirement for specific sequence-context at an editing site) and which are obtained a result of a phage-assisted continuous evolution (PACE) system. In particular, the instant specification provides for evolved cytidine base editors (e.g., based on APOBEC1, CDA, or AID cytidine deaminase domains) which overcome deficiencies of those in art (including increased efficiency and/or decreased requirement for specific sequence-context at an editing site) and which are obtained a result of a phage-assisted continuous evolution (PACE) system.

Abstract: The present invention features compositions and methods for treating proliferative diseases such as cancer (e.g., sarcoma, pancreas, prostate, head and neck, liver, and breast cancer) that inhibit the growth of NF-?B and/or Hippo associated neoplasias.

Abstract: A system and method for determining the exact pair of alleles corresponding to polymorphic genes from sequencing data and for using the polymorphic gene information in formulating an immunogenic composition. Reads from a sequencing data set mapping to the target polymorphic genes in a canonical reference genome sequence, and reads mapping within a defined threshold of the target gene sequence locations are extracted from the sequencing data set. Additionally, all reads from the set data set are matched against a probe reference set, and those reads that match with a high degree of similarity are extracted. Either one, or a union of both these sets of extracted reads are included in a final extracted set for further analysis. Ethnicity of the individual may be inferred based on the available sequencing data which may then serve as a basis for assigning prior probabilities to the allele variants. The extracted reads are aligned to a gene reference set of all known allele variants.

Abstract: The present disclosure provides adenine base editors (ABEs) that are variants of known adenine base editors. The adenosine deaminase domain of a known ABE was modified to produce adenosine deaminase variants. The deaminase variants provided herein have broader compatibility with diverse napDNAbp domains, such as Cas homologs, for base editing applications. The ABEs provided herein comprise a deaminase variant and a napDNAbp domain. The ABEs provided herein exhibit reduced off-target editing effects while retaining high on-target editing efficiencies. These ABEs exhibit reduced off-target DNA editing effects and reduced off-target editing effects in cellular mRNA. In addition, methods for targeted nucleic acid editing are provided. Further provided are pharmaceutical compositions comprising the ABEs. Also provided are vectors and kits useful for the generation and delivery of the ABEs, including vector systems for engineering the ABEs through directed evolution.

Abstract: Provided herein are nucleic acid molecules that target the BCL11A enhancer functional regions, compositions comprising the nucleic acid molecules and methods for increasing fetal hemoglobin levels in a cell by disrupting BCL11A expression at the genomic level. Also provided herein are methods and compositions relating to the treatment of hemoglobinopathies by reinduction of fetal hemoglobin levels. In particular, the nucleic acid molecules target the +62, +58, and/or the +55 enhancer functional regions.

Abstract: The present invention relates to the analysis of complex single cell sequencing libraries. Disclosed are methods for enrichment of library members based on the presence of cell-of origin barcodes to identify and concentrate DNA that is relevant to interesting cells or components that would be expensive or difficult to study otherwise. Also, disclosed are methods of capturing cDNA library molecules by use of CRISPR systems, hybridization or PCR. The present invention allows for identifying the properties of rare cells in single cell RNA-seq data and accurately profile them through clustering approaches. Further information on transcript abundances from subpopulations of single cells can be analyzed at a lower sequencing effort. The methods also allow for linking TCR alpha and beta chains at the single cell level.

Abstract: The present invention provides for methods to obtain multiple information-rich samples at different time points from the same cell while minimally disrupting the cell. The subject matter disclosed herein is generally related to nucleic acid constructs for continuous monitoring of live cells. Specifically, the subject matter disclosed herein is directed to nucleic acid constructs that encode a fusion protein and a construct RNA sequence that induce live cells to self-report cellular contents while maintaining cell viability. The present invention may be used to monitor gene expression in single cells while maintaining cell viability.

Abstract: The disclosure provides novel methods, compositions, and kits that combine hybrid capture using short allele-specific probes with duplex molecular” barcoding and noise modeling within each sample to afford high accuracy sequencing of rare mutations at low cost.

Abstract: The application relates to a deep scanning mutagenesis library to interrogate phenotypic changes in a population of cells comprising a plurality of CRISPR-Cas system guide RNAs targeting genomic sequences within at least one continuous genomic region, wherein the guide RNAs target at least 100 genomic sequences upstream of a PAM sequence for every 1000 base pairs within the continuous genomic region and methods for their use.

Abstract: The disclosure is directed to compositions and methods that are useful for the treatment of a neoplasia. Specifically, methods for inducing cell death or reducing cell survival of a neoplastic cell (e.g., rhabomyosarcoma) and methods of treating a subject having a neoplasia characterized by a loss of VPS4 expression are disclosed.

Abstract: The disclosure provides methods of deaminating adenosine and cytosine bases in a target nucleic acid sequence in an USH2A gene comprising contacting the USH2A gene with a base editor in association with a guide RNA (gRNA). In some aspects, base editing is used to restore US2HA function by disrupting a splice site in the USH2A gene sequence to induce skipping of an exon containing a mutation, while in other embodiments, base editing is used to restore US2HA function by correcting a point mutation e.g., in an exon) so as to correct mutations. The disclosure also provides complexes of adenosine base editors and guide RNAs, and complexes of cytidine base editors and guide RNAs. The disclosure further provides pharmaceutical compositions and cells comprising these complexes. The disclosure also provides vectors encoding these complexes, base editors, and gRNAs. In some embodiments, the methods and compositions provided herein are used to treat Usher syndrome and autosomal recessive retinitis pigmentosa (arRP).

Abstract: The present invention relates to novel dopamine D2 receptor ligands. The invention further relates to functionally-biased dopamine D2 receptor ligands and the use of these compounds for treating or preventing central nervous system and systemic disorders associated with dysregulation of dopaminergic activity.

Abstract: Disclosed herein are methods for inducing insulin secretion in a glucose-dependent manner and compounds for use in these methods.

Abstract: Compositions and methods are provided herein for conducting prime editing of a target DNA molecule (e.g., a genome) that enables the incorporation of a nucleotide change and/or targeted mutagenesis. The compositions include fusion proteins comprising nucleic acid programmable DNA binding proteins (napDNAbp) and a polymerase (e.g., reverse transcriptase), which is guided to a specific DNA sequence by a modified guide RNA, named an PEgRNA. The PEgRNA has been altered (relative to a standard guide RNA) to comprise an extended portion that provides a DNA synthesis template sequence which encodes a single strand DNA flap which is synthesized by the polymerase of the fusion protein and which becomes incorporated into the target DNA molecule.

Abstract: The invention provides, inter alia, methods for uniquely labeling populations of agents of interest using random combinations of oligonucleotides. The oligonucleotides may comprise a unique nucleotide sequence and/or one or more non-nucleic acid detectable moieties.

Abstract: The disclosure provides adenosine deaminases that are capable of deaminating adenosine in DNA to treat cancers, such as melanoma and glioblastoma. The disclosure also provides fusion proteins, guide RNAs and compositions comprising a Cas9 (e.g., a Cas9 nickase) domain and adenosine deaminases that deaminate adenosine in DNA, for example in a STAT3 gene. In some embodiments, adenosine deaminases provided herein are used to modify the STAT3 gene so that its protein product, STAT3, is unable to be activated. In some embodiments, the methods and compositions provided herein are used to treat melanoma or glioblastoma.

Abstract: Provided herein include methods and compositions for analyzing nucleic acid in individual cells. In some embodiments, the methods herein include generating, within individual cells, fragmented cellular genomic DNA and cDNA copies of cellular RNA molecules, barcoding the fragmented genomic DNA and the cDNA within each cell such that the genomic DNA and the cDNA from the same cell receive the same unique barcode sequence, isolating the barcoded genomic DNA and cDNA, and characterizing one or more features of the individual cells based, at least in part, on sequencing of the isolated barcoded genomic DNA and the cDNA.

Abstract: Provided herein is a lateral flow diagnostic device and methods of using thereof. The device comprises a substrate and a first end, wherein the first end comprises a sample loading portion. The first end may further comprise a first region loaded with a detectable ligand, a CRISPR effector system, a detection construct, a first test band comprising a biotin ligand, and a second test band comprising a capture molecule for the detectable ligand. The detection construct may comprise an RNA oligonucleotide, having a first molecule such as FITC on a first end and a second molecule such as FAM on a second end. Contacting the sample loading portion with a sample causes the sample to flow from the sample loading portion of the substrate towards the first and second capture regions, thereby generating a detectable signal, which may be indicative of a disease state.