Abstract: This disclosure relates to compositions and methods for three-dimensional spatial profiling of analytes in a biological sample. The methods include use of a hydrogel comprising one or more polymers that include a phenol moiety, an azide moiety, or an alkyne moiety.

Abstract: The present disclosure relates to recombinant adeno-associated vims (rAAV) delivery of a neurotrophin 3 (NT-3) polynucleotide. The disclosure provides rAAV and methods of using the rAAV for NT-3 gene therapy to improve muscle strength, stimulate muscle growth and to treat muscle wasting disorders, such as muscular dystrophy and Charcot-Marie-Tooth neuropathy.

Abstract: Provided are compositions and methods for selectively reducing the amount of antibiotic resistant and/or virulent bacteria in a mixed bacteria population, or for reducing any other type of unwanted bacteria in a mixed bacteria population. The compositions and methods involve targeting bacteria that are differentiated from other members of the population by at least one unique clustered regularly interspaced short palindromic repeats (CRISPR) targeted DNA sequence. The compositions and methods can be readily adapted to target any bacteria or any bacteria plasmid, or both.

Abstract: IN The present invention relates to a method for the recombinant production of DNA single stranded molecules, comprising the steps of (1) providing a pseudogene nucleic acid; (2) integrating the pseudogene nucleic acid into a vector, transforming bacterial cells with said vector and producing a precursor ssDNA from said vector under bacterial culture conditions; (3) isolating the precursor ssDNA from the bacterial culture; (4) digesting the precursor ss DNA under reaction conditions where self-cleaving DNA sequences become active; and (5) separating and obtaining the target single stranded DNA oligo- or polynucleotide(s). The method of the present invention is suitable for the mass production of DNA single stranded molecules. The present invention further relates to the use of the target single stranded DNA oligo- or polynucleotide(s), in particular in DNA nanotechnology, or as research tools.

Abstract: The present disclosure provides systems, compositions, and methods for simultaneously editing both strands of a double-stranded DNA sequence at a target site to be edited. Further provided herein are pharmaceutical compositions, polynucleotides, vectors, cells, and kits for simultaneously editing both strands of a double-stranded DNA sequence.

Abstract: Provided herein are methods and compositions for performing highly sensitive in vitro assays to define substrate preferences and off-target sites of nucleic-acid binding, modifying, and cleaving agents.

Abstract: The invention relates to modified Factor IX coding sequence, expression cassette, vectors such as viral (e.g., lenti- or adeno-associated viral) vectors, and gene transfer methods and uses. In particular, to target Factor IX nucleic acid to cells, tissues or organs for expression (transcription) of Factor IX.

Abstract: Presented herein are techniques for indexing of nucleic acid, e.g., for use in conjunction with sequencing. The techniques include generating indexed nucleic acid fragments from an individual sample, whereby the index sequence incorporated into each index site of the nucleic acid fragment is selected from a plurality of distinguishable of index sequences and such that the population of generated nucleic acid fragments represents each index sequence from the plurality. In this manner, the generated indexed nucleic acid fragments from a single sample are indexed with a diverse mix of index sequences that reduce misassignment due to index read errors associated with low sequence diversity.

Abstract: Provided herein are adeno-associated virus (AAV) compositions that can restore F8 gene function in a cell without co-transducing or co-administering an exogenous nuclease or a nucleotide sequence that encodes an exogenous nuclease. Also provided are methods of using the AAV compositions to correct an F8 gene mutation and/or treat a disease or disorder associated with an F8 gene mutation. Packaging systems for making the adeno-associated virus compositions are also provided.

Abstract: The present disclosure relates to compositions of matter and assay methods used to detect one or more target nucleic acids of interest in a sample. The compositions and methods allow one to control reaction kinetics of the cascade assay by two orders of magnitude via molecular design of one of the reaction components; further, varying molecular design also allows for quantification of target nucleic acids of interest over a large range of concentrations or discriminating between extremely low copy numbers of target nucleic acids of interest.

Abstract: This disclosure relates to methods of diagnosing and predicting renal disease, using one, two, or more biomarkers, including sTN-FR1, sTNFR2, sFAS, TNF, and IL-6.

Abstract: Provided herein are compositions and methods for inducing CRISPR/Cas-based editing of a target nucleic acid (e.g., target DNA or target RNA) in vitro or in a cell, using modified prime editing guide RNAs (pegRNAs) that incorporate one or more chemically-modified nucleotides. The modified pegRNAs disclosed herein may be used to induce Cas-mediated incorporation of one or more nucleotide changes and/or targeted mutagenesis of a target nucleic acid. The nucleotide change can include, e.g., one or more nucleotide changes, an insertion of one or more nucleotides, or a deletion of one or more nucleotides.

Abstract: A method for detecting the binding of a chromatin-associated factor of interest to a sequence of chromatin DNA in a cell, including: contacting a permeabilized cell or nucleus with a specific binding agent that specifically recognizes the chromatin-associated factor of interest, wherein the specific binding agent is linked to a nuclease that is inactive or an activatable transposome; activating the nuclease or transposase, thereby excising the sequence of chromatin DNA bound to the chromatin-associated factor of interest; isolating the excised DNA; and determining the sequence of the excised DNA, thereby detecting binding of a chromatin-associated factor of interest to a sequence of chromatin DNA in the cell.

Abstract: A method for isolating a protein complex comprising BCL10 and at least one, preferably all, of ROS1, LSD1, BTK, KU80, KU70, CUL4A, IMP3, thioredoxin, hTID1, DAP3, CDK1/CDC2, PRL1/PTP4A1 or NM23. Methods for using this complex to diagnose or prognose diseases including diabetes, obesity, cancer, neurodegenerative disease or inflammatory diseases associated with activation of NF-?B. Methods for distinguishing lean, obese and diabetic subjects based on expression of BCL10 and its ligands are also disclosed. The invention also pertains to pharmaceutical compositions comprising ligands for BCL10 or other components of this complex or agents such as siRNA or miRNA that regulate the expression of the protein components of this complex.

Abstract: Disclosed are engineered retrons and methods of use such as to modify the genome of a host (e.g., mammalian) cell by delivering the engineered retron or the encoded ncRNA in vitro or in vivo to the host (e.g., mammalian) cell.

Abstract: Disclosed herein are recombinant meganucleases engineered to recognize and cleave a recognition sequence present in the human mitochondrial DNA (mtDNA). The disclosure further relates to the use of such recombinant meganucleases in methods for producing genetically-modified eukaryotic cells, and to a population of genetically-modified eukaryotic cells wherein the mtDNA has been having modified or edited.

Abstract: The present disclosure provides a method for knocking out an N-myristoyltransferase (NMT) gene from Eimeria tenella, and belongs to the technical field of microorganisms. The method includes: mixing sporozoites of Eimeria tenella with a pCRISPR::EtNMT plasmid and a pEtNMT::DHFR plasmid, and subjecting a resulting mixture to electrotransformation to obtain NMT gene-knockout Eimeria tenella. The method provided by the present disclosure can successfully knock out the NMT gene from Eimeria tenella, which lays a foundation for studying the function of the Eimeria tenella gene and developing a vaccine therefor.

Abstract: The present disclosure relates to compositions of matter and assay methods used to detect one or more target nucleic acids of interest in a sample. The compositions and methods allow one to control reaction kinetics of the cascade assay by two orders of magnitude via molecular design of one of the reaction components; further, varying molecular design also allows for quantification of target nucleic acids of interest over a large range of concentrations or discriminating between extremely low copy numbers of target nucleic acids of interest.

Abstract: The claimed invention is directed towards a novel combination cell electroporation/cell culturing apparatus which can be termed a cell culture dish suitable for in vitro electroporation, and towards a device suitable for in vivo electroporation—both useful in methods suitable for the generation of developmentally-activated, pluripotent, pluripotent-like, multipotent, and/or self-renewing cells which are capable of beginning to differentiate in culture into a variety of cell types and capable of further differentiation in vivo. The claimed invention is also directed towards the generation of desirable, differentiating somatic cell populations transplantable to animals or patients, genetic modification of endogenous and exogenous cells, and the treatment of patients suffering from diseases that may be ameliorated by these methods. This invention also provides methods for preventing, treating, or retarding disease, for example, immunodeficiency virus (e.g. HIV-1, HIV-2, SIV, FIV, etc.) infection.

Abstract: Yeast having modified chromosomes are provided. The chromosomes are modified such that at least one of yeast histones H3, H4, H2A or H2B are fully or partially replaced by their human histone counterparts H3, H4, H2A or H2B, respectively. Histone amino acid substitutions are included. Cell fusions with the yeast having the modified chromosomes and non-yeast cells are provided. Methods for screening test agents using the yeast are also provided. Yeast with a mutated yeast DAD1 gene, the mutated DAD1 gene encoding an E50D mutation in yeast DAD1 protein, are provided, and provide a useful genetic background for making the yeast with partially or fully replaced histone(s).