The present disclosure relates to gene therapy targeting GluK2 subunit that can be used to inhibit epileptiform discharges. Short interfering RNA sequences against the human Grik2 gene sequence are described which are efficient in decreasing the expression of GluK2-containing KARs in neurons engineered to express the equivalent shRNA or miRNA. Using a tissue culture model of TLE, the examples remarkably demonstrate that viral expression of shRNA or miRNA inhibits the frequency of epileptiform discharges. Therefore, RNA therapeutics aimed at decreasing the expression of GluK2-containing KARs in neurons can remarkably prevent spontaneous epileptiform discharges in TLE. In particular, the present disclosure relates to a recombinant antisense oligonucleotide that targets a Grik2 mRNA. The present disclosure also relates to a method for treating epilepsy in a subject in need thereof, wherein the method comprises: administering an effective amount of a vector comprising an oligonucleotide encoding an inhibitory RNA that binds (e.g., hybridizes) specifically to Grik2 mRNA and inhibits expression of Grik2 in the subject.

Provided herein are methods, compositions, and kits, for capturing analytes from an embedded biological sample and spatially barcoding the analytes with an array.

The present disclosure relates to a method of assembling long nucleic acids by enzymatically ligating oligonucleotide molecules hybridized to an indexed splint oligonucleotide molecules. Also disclosed are oligonucleotide structures comprising an indexed splint oligonucleotide useful in performing the disclosed method.

A system for extracting analytes from a biological sample, which includes: an electronic pipette having pipette cones with a tip; a well support; a pipette holder including: a base which can removably house each well support; a pipette support into which the pipette is inserted, and which can move relative to the base between a first position in which the tips of the cones are inserted in a well of the support and at least one second position in which the tips are outside the wells; a housing facing the pipette cones above their tip when the pipette support is in the first position, and facing the tips of the pipette cones when the pipette support is in the second position; and a magnetized part removably inserted in the housing.

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 or 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 SIN CRISPR complex, as well as methods for the design and use of such vectors. Also provided are methods of directing SIN 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.

A system for editing of a target sequence at a locus of a host cell is disclosed. The system has a nucleic acid molecule comprising a nucleic acid segment comprising a targeting RNA sequence and an RNA segment that binds a protein. The system also has a nucleic acid molecule comprising a nucleic acid segment encoding a polypeptide with endonuclease activity fused to a protein that binds the RNA segment. The system also comprises a double stranded DNA molecule comprising DNA comprising at least one nucleotide sequence that is capable of binding to the target sequence at the locus.

This disclosure provides methods and compositions for sample processing, particularly for sequencing applications. Included within this disclosure are bead compositions, such as diverse libraries of beads attached to large numbers of oligonucleotides containing barcodes. Often, the beads provides herein are degradable. For example, they may contain disulfide bonds that are susceptible to reducing agents. The methods provided herein include methods of making libraries of barcoded beads as well as methods of combining the beads with a sample, such as by using a microfluidic device.

Compositions and methods for identifying and using cis-regulatory and decoy sequences are disclosed.

Methods of making and using bacterial display polypeptide libraries using circularly permuted OmpX (CPX) variants are disclosed. The invention further relates to methods for enhancing the display of proteins and peptides at the surface of bacteria by optimizing linkers and incorporating mutations at positions 165 and 166 of CPX.

The invention relates to a method for selecting an expressed sequence from a library, comprising the following steps: Each of a plurality of eukaryotic cells comprising a cell wall comprises a nucleic acid sequence member of a library, which is expressed as a target membrane protein in said eukaryotic cells. The cell wall of the cells is permeabilized. The permeabilized cells are labeled with a ligand capable of binding to the target membrane protein. The ligand bears a detectable label. A subset of the labelled cells is selected as a function of detectable label present. Finally, an expressed nucleic acid sequence is isolated from said selection of cells in an isolation step.