The present invention relates inter alia to expression vector production as well as application to the production of host cells for protein repertoire expression and high-throughput screening. The invention also relates to primers useful for PCR amplification of nucleotide sequences encoding human antibody variable domains.

The present invention relates inter alia to expression vector production as well as application to the production of host cells for protein repertoire expression and high-throughput screening. The invention also relates to primers useful for PCR amplification of nucleotide sequences encoding human antibody variable domains.

CRISPR-based gene-drive system for inhibiting antibiotic resistance of bacteria, including Escherichia coli that efficiently copies a gRNA cassette and adjacent cargo that are flanked with sequences homologous to the targeted gRNA/Cas9 cleavage site. This “pro-active” genetic system (Pro-AG) functionally inactivates an antibiotic resistance marker on a high copy number plasmid with greater efficiency than control CRISPR-based methods. Pro-AG can effectively edit large plasmids or single-copy genomic targets, or introduce functional genes, with numerous applications to biotechnology and biomedicine.

There is disclosed a method for whole genome amplification and analysis of multiple target molecules in a biological sample including genomic DNA and target molecules comprising the steps of contacting the biological sample with at least one binding agent, directed to at least one of the target molecules, conjugated with a tagged oligonucleotide, which comprises a binding-agent barcode sequence (BAB) and a unique molecular identifier sequence (UMI); carrying out a separating step to selectively remove unbound binding agent thus obtaining a labeled biological sample; simultaneously carrying out on the labeled biological sample a whole genome amplification and an amplification of the tagged oligonucleotide; preparing a massively parallel sequencing library from the amplified tagged oligonucleotide; sequencing the massively parallel sequencing library; retrieving the sequences of the BAB and UMI from each sequencing read; counting the number of distinct UMI for each binding agent.

Nucleic acid and cell preservative compositions. Methods of preserving nucleic acids and/or cells in a blood or other biological sample, and kits for preserving nucleic acids and/or cells in a blood or other biological sample are also described. The preservative compositions, methods and kits afford the isolation of genomic and cell-free DNA and RNA from myriad biological samples that display good yields, purity, integrity and, in the context of RNA, amplifiability.

This disclosure provides compositions and methods for altering or changing the tissue tropism, e.g., liver tropism, of adeno-associated viruses (AAV).

The present invention discloses an in-vitro culture, induction, activation and cryopreservation method and cell bank establishment for immune cells. The method includes the follows: using a dedicated amplification medium of immune cells to perform first-stage amplification culture on mononuclear cells to obtain preliminarily amplified immune cells; using a dedicated induction medium of immune cells to perform second-stage induction and amplification culture on the preliminarily amplified immune cells to obtain induced immune cells; using a dedicated activation medium of immune cells to perform third-stage activation and amplification culture on the induced immune cells to obtain a large number of immune cells with activation functions; using a dedicated cryopreserving fluid of immune cells to cryopreserve the immune cells to obtain cryopreserved immune cells; and performing preservation according to ABO/RH typing and HLA typing; and establishing an information file of immune cells for retrieval to construct an immune cell bank.

Disclosed are cells that have stably integrated into their genomes exogenous nucleic acid sequences, such as transgenes, within or proximal to the integration site of a sequence comprising at least part of an endogenous retrovirus (ERV) or a LTR-retrotransposon (LTR-RT), or instead of a sequence encompassing an ERV or a LTR-RT that is part or was part of the genome of the cell, as well as method of producing and using such cells. Advantageously, a high level and/or stable production of the transgene expression product(s) can be achieved. Transgene integration and expression may be furthered by modulating the DNA repair pathways of the cell, e.g., by transiently expressing a gene encoding a protein that forms part of a DNA repair pathway during transgene integration.

In some embodiments, the invention relates to methods and reagents for the identification of compounds that traverse he cell membrane of an animal cell. In some embodiments, the invention provides additional methods for determining if a candidate compound that traverses an animal cell membrane is able to modulate an intracellular target, as well as reagents and kits for reagents and kits for performing the disclosed methods.

Systems and kits are disclosed herein for genetic engineering (such as for DNA cleavage and gene-editing), which include catalytic nucleic acids and catalytic nucleic acid-assisting reagents. Methods of genetic engineering are also described, in which both catalytic nucleic acid-assisting reagents and catalytic nucleic acids are specific for a target site, thus, providing high-fidelity genetic engineering.