The present invention provides compositions comprising chimeric polypeptides that bind to free ubiquitin proteins or free ubiquitin-like proteins with high affinity, as well as chimeric polypeptides that bind to both free and conjugated ubiquitin proteins or free and conjugated ubiquitin-like proteins, and methods of using the chimeric polypeptides to determine the amount of free or total ubiquitin or free or total ubiquitin-like proteins in various types of samples.

The present disclosure relates to methods, cells, and compositions for producing a product of interest, e.g., a recombinant protein. In particular, the present disclosure provides improved mammalian cells expressing the product of interest, where the cells (e.g., Chinese Hamster Ovary (CHO) cells) have reduced or eliminated activity, e.g., expression, of certain host cell proteins, e.g., enzymes including, but not limited to, certain lipases, esterases, and/or hydrolases.

The disclosure relates to methods for treating cancers (e.g., cancers having a BRCA1 and/or BRCA2 mutation(s)) by administering to the subject an effective amount of a ubiquitin-specific protease 1 (USP1) inhibitor.

The present invention provides compositions comprising chimeric polypeptides that bind to free ubiquitin proteins or free ubiquitin-like proteins with high affinity, as well as chimeric polypeptides that bind to both free and conjugated ubiquitin proteins or free and conjugated ubiquitin-like proteins, and methods of using the chimeric polypeptides to determine the amount of free or total ubiquitin or free or total ubiquitin-like proteins in various types of samples.

Disclosed are host cells that have modulated DUB gene product activity and methods of using such host cells for increased AAV vector production yield. The disclosure also provides fusion proteins that comprise a DUB domain from a DUB gene product and a viral protein domain, and methods of increasing production of AAV vectors from a host cell that comprise expressing at least one of these fusion proteins in the host cell.

The invention relates to methods for increasing plant yield, and in particular grain yield by reducing or abolishing the expression and/or activity of OTUB1 in a plant. Also described are genetically altered plants characterised by the above phenotype and methods of producing such plants.

The invention relates to means and methods for removing a proteolytic cleavage site from a protein comprising providing a cell that expresses pre-mRNA encoding the protein with an anti-sense oligonucleotide that induces skipping of the exonic sequence that encodes the proteolytic cleavage site, the method further comprising allowing translation of mRNA produced from the pre-mRNA.

Disclosed are methods for modulating splicing of Ataxin 3 mRNA in an animal with modified oligonucleotides. Such compounds and methods are useful to treat, prevent, or ameliorate spinocerebellar ataxia type 3 (SCA3) in an individual in need thereof.

The present disclosure provides, inter alia, a recombinant engineered deubiquitinase (DUB) and methods for treating or ameliorating an inherited ion channelopathy, such as long QT syndrome, Brugada syndrome, or cystic fibrosis, in a subject. Further provided are methods for screening mutations causing such inherited ion channelopathies for a trafficking-deficient mutation that is treatable by the recombinant engineered DUB disclosed herein.

Described are methods for removing a proteolytic cleavage site, the HCHWA-D mutation or the amino acids encoded by a trinucleotide repeat expansion from a protein comprising providing a cell that expresses pre-mRNA encoding the protein with an anti-sense oligonucleotide that induces skipping of the exonic sequence that comprises the proteolytic cleavage site, HCHWA-D mutation or trinucleotide repeat expansion, respectively, the method further comprising allowing translation of mRNA produced from the pre-mRNA.