Abstract: Described herein are engineered antigen presenting cells that can be capable of modulating a target T-cell in a T-cell antigen specific manner. In some embodiments, the engineered APCs can include a modified antigen presentation pathway. Also described herein are methods of making and using the engineered antigen presenting cells.

Abstract: Methods and compositions for a single- or multi-pot protocol for the efficient end to end capture of RNAs (inclusive of their poly-A tail or their 3? end) is described. Capture oligonucleotides containing a 3? non-extendable end and a selectively cleavable base upstream of an oligo-dT or oligo-dN and a 5? sequence containing unique molecular identifiers, and 2) a deoxyuracil glycosylase that acts only on a deoxyuracil present in a DNA: DNA duplex or DNA/RNA heteroduplex are used. A dual template switching mechanism may be used.

Abstract: The present invention provides fusion proteins, polynucleotides, kits, as well as TALE- or CRISPR-Cas based systems and methods. The present invention relies on proximity-dependent biotinylation, which allows site-directed protein or DNA purification and identification. The present invention provides tools for delineating the genetics of disease mechanism and for the identification of therapeutic targets and markers.

Abstract: The invention provides for systems, methods, and compositions for altering expression of target gene sequences and related gene products. Provided are structural information on the Cas protein of the CRISPR-Cas system, use of this information in generating modified components of the CRISPR complex, vectors and vector systems which encode one or more components or modified components of a CRISPR complex, as well as methods for the design and use of such vectors and components. Also provided are methods of directing CRISPR complex formation in eukaryotic cells and methods for utilizing the CRISPR-Cas system. In particular the present invention comprehends optimized functional CRISPR-Cas enzyme systems. In particular the present invention comprehends engineered new guide architectures and enzymes to be used in optimized Staphylococcus aureus CRISPR-Cas enzyme systems.

Abstract: Disclosed herein are methods of eliciting an anti-cancer immune response by administering tumor-associated antigens, cells containing tumor-associated antigens, and/or nucleic acids encoding tumor-associated antigens. inducing immunogenic cell death in the cells expressing or containing the tumor-associated antigens. and optionally generating hyperactivated dendritic cells. Expression of tumor-associated antigens in a separate anatomical site generates a tumor avatar, which mimics the antigenic, but not immunosuppressive, environment of the tumor, with the generation of hyperactivated dendritic cells enhancing antigen presentation to elicit a robust anti-tumor T cell and antibody response. Also provided are compositions and kits containing nucleic acids and other components for use in the methods provided herein.

Abstract: The present invention features improved compounds, especially methods of identifying patients having cancer using biomarkers (e.g., PDE3A, SLFN12 and/or CREB3L1) that correlate with drug sensitivity and consequently treating a stratified patient population with an agent of the invention (e.g., Compounds 1-6 disclosed herein).

Abstract: Disclosed and claimed are mutation(s) or modification(s) of the CRISPR enzyme, for example a Cas enzyme such as a Cas9, which obtain an improvement, for instance a reduction, as to off-target effects of a CRISPR-Cas or CRISPR-enzyme or CRISPR-Cas9 system or complex containing or including such a mutated or modified Cas or CRISPR enzyme or Cas9. Methods for making and using and uses of such mutated or modified Cas or CRISPR enzyme or Cas9 and systems or complexes containing the same and products from such methods and uses are also disclosed and claimed.

Abstract: The present disclosure relates to compositions, methods and kits for enhancing ribosomal activities in a host cell, especially improvement of the translation activity of heterologous ribosomes within a host cell. Specifically, the instant disclosure provides a number of evolved rRNA sequences, which were remarkably identified to possess enhanced translation activities, improved orthogonal-ribosome binding site (o-RBS) and orthogonal anti-ribosome binding site (o-antiRBS) sequences, host cells possessing deletion or disruption of ribosome hibernation promoting factor (HPF) that thereby exhibit enhanced propagation of selection phage constructs during (PACE), among other aspects. New transgenic organisms harboring heterologous ribosomes and operons are also provided.

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

Abstract: The invention provides for systems, methods, and compositions for targeting nucleic acids. In particular, the invention provides non-naturally occurring or engineered DNA-targeting systems comprising a novel DNA-targeting CRISPR effector protein and at least one targeting nucleic acid component like a guide RNA Methods for making and using and uses of such systems, methods, and compositions and products from such methods and uses are also disclosed and claimed.

Abstract: Novel programmable targeting sequences and applications thereof. The targeting sequences can be engineered for binding to proteins, polypeptides, and other macromolecules.

Abstract: Embodiments disclosed herein provide nucleic acid constructs and methods of use thereof that induce a live cell to give off sub-samples of the cell's cytosolic content. The tem “cell” as used herein may be any cell type. In certain example embodiments, the cells are mammalian cells. The sampling can be general or can be targeted to a particular class of molecules or to specific types of molecules. The constructs facilitate generation of a read-out for high-throughput screens by combining engineered export with simple bulk sample and sample processing. Live cell sampling enables time course measurements and expands, for example, the applicability of transcriptional profiles obtained by single cell gene expression analysis.

Abstract: Provided herein are methods and compositions for selectively promoting inflammasome activity in myeloid cells.

Abstract: Provided herein are methods for screening biological functions of microscale biological systems comprises segregating each microscale biological system from a set of microscale biological systems to be screened into individual discrete volumes, the individual discrete volume comprising a first polymer. The first polymer is then forced or allowed to polymerize to form a set of polymerized beads that encapsulate an individual microscale biological system. The polymerized beads are further encapsulated in a second droplet comprising a second polymer and one or more reporter elements. The reporter elements are configured to produce a readout upon detecting the absence or presence of a biological function to be screened. The second polymer is then forced or allowed to polymerize to form an outer capsule around each individual bead thereby forming a set of encapsulated beads. One or more biological functions of the double-encapsulated system are identified by detecting the readout of the reporters.

Abstract: The subject matter disclosed herein is generally directed to novel CD8+ tumor infiltrating lymphocyte (TIL) subtypes associated with response to immunotherapy treatment. Specifically, the subtypes are associated with checkpoint blockade therapy. Moreover, the subject matter disclosed herein is generally directed to methods and compositions for use of the subtypes. Also, disclosed herein are gene signatures and markers associated with the subtypes and use of said signatures and markers. Further disclosed are therapeutic methods of using said gene signatures and immune cell subtypes. Further disclosed are pharmaceutical compositions comprising populations of CD8+ TILs enriched for a specific subtype.

Abstract: The present disclosure relates to compositions and methods for the diagnosis and treatment or prevention of proteinopathies, particularly MUC1-associated kidney disease (ADTKD-MUC1 or MKD), Retinitis Pigmentosa (e.g., due to rhodopsin mutations), autosomal dominant tubulo-interstitial kidney disease due to UMOD mutation(s) (ADTKD-UMOD), and other forms of toxic proteinopathies resulting from mutant protein accumulation in the ER or other secretory pathway compartments and/or vesicles, among others. The disclosure also identifies and provides TMED9-binding agents as capable of treating or preventing proteinopathies of the secretory pathway, and further provides methods for identifying additional TMED9-binding agents.

Abstract: Provided herein includes a method for generating an error-corrected genome assembly for an organism comprising: generating a genomic contact map derived from a DNA proximity ligation assay conducted on one or more samples from the organism or a closely related species; superimposing a reference assembled genome derived from whole genome sequencing of one or more samples from the organism on top of the genomic contact map using computer software; correcting errors in the reference assembled genome through a computer user interface to obtain a corrected assembly file, wherein errors in the reference assembled genome are visualized by observing aberrant contacts in the genomic contact map; and applying the corrected assembly file to the reference assembled genome.

Abstract: The invention provides for delivery, engineering and optimization of systems, methods, and compositions for manipulation of sequences and/or activities of target sequences. Provided are delivery systems and tissues of organ which are targeted as sites for delivery. Also provided are vectors and vector systems some of which encode one or more components of a CRISPR complex, as well as methods for the design and use of such vectors. Also provide dare methods of directing CRISPR complex formation in eukaryotic cells to ensure enhanced specificity for target recognition and avoidance of toxicity and to edit or modify a target site in a genomic locus of interest to alter or improve the status of a disease or a condition.

Abstract: Systems and methods for capturing cells of interest from a larger group of cells are provided. In some embodiments, the cells are held within cell culture media inside a chamber during laser dissection.

Abstract: A FabI inhibitor called fabimycin that has impressive activity against >200 clinical isolates of E. coli, K. pneumoniae, and A. baumannii. Fabimycin has activity in multiple mouse models of infection caused by Gram-negative bacteria, including a model of urinary tract infection. Fabimycin has translational promise, and its discovery provides data indicating that antibiotics whose spectrum of activity is restricted to Gram-positive bacteria can be systematically modified to accumulate in Gram-negative bacteria and be effective against these problematic pathogens.