Abstract: The present invention relates to novel protein pores and their uses in analyte detection and characterisation. The invention particularly relates to an isolated pore complex formed by a CsgG-like pore and a modified CsgF peptide, or a homologue or mutant thereof, thereby incorporating an additional channel constriction or reader head in the nanopore. The invention further relates to a transmembrane pore complex and methods for production of the pore complex and for use in molecular sensing and nucleic acid sequencing applications.

Abstract: Provided is a method of characterising a polynucleotide using a transmembrane pore, wherein the pore is a double pore comprising a first Csg G pore, or a homologue thereof, and a second CsgG pore, or a homologue thereof.

Abstract: This disclosure relates to a virus-like particle in which a small molecule-protein complex is entrapped, ensuring the formation of the small molecule-protein complex under physiological conditions, while protecting the small molecule-protein complex during purification and identification. The disclosure further relates to the use of such virus-like particle for the isolation and identification of small molecule-protein complexes.

Abstract: The invention relates to a device and a method for growing and screening of plant samples, comprising a specialized multiwell plate system well-suited for housing granular media, for use in in vivo screening methods of uninterrupted plant tissue growth.

Abstract: This disclosure relates to the field of secondary metabolite production in plants. More specifically, the disclosure relates to chimeric genes encoding a bHLH protein of subfamily Iva comprising a bHLH domain and their use in the regulation of biosynthesis and/or production of secondary metabolites in plants and plant-derived cell cultures.

Abstract: This application relates to the field of neurodegenerative diseases, more particularly to the field of Parkinson's disease. In particular, the disclosure describes that inhibitors reducing FAS activity can be used for treatment of Parkinson's disease, in particular, the treatment of patients suffering from Parkinson's disease having loss of function mutations in PINK1 or PARKIN genes.

Abstract: The present invention relates to specific inhibitors of the cellulose synthase subunits 1 and 3 activity in plants, useful as a herbicide. In addition, the invention relates to mutant plants which are tolerant to the identified inhibitors. Specific mutant alleles of CESA1 and CESA3 genes can be used to obtain resistance in a plant when the inhibitors are used as herbicide.

Abstract: The present invention relates to the field of fermentation, more particularly to ethanol production. Even more particularly the present invention relates to reduced aroma production during fermentation processes. The present invention provides mutant alleles and chimeric genes useful to develop yeast strains to limit acetate ester levels during fermentation. In addition, the invention also relates to the use of such yeast strains as well as of compounds for the production of fermented foods and liquids with reduced acetate ester levels.

Abstract: The application discloses methods, kits and a novel biomarker to detect and/or to prognose inflammation in patients. The diagnostic test is based on measuring the ratio of galactosylated and non-galactosylated specific N-glycans as obtained by enzymatic treatment of the total mixture of proteins present in a body fluid such as blood, serum or plasma.

Abstract: The present application relates to the field of yeast and, specifically, to the identification of yeast alleles that are involved in maximal alcohol accumulation and/or in tolerance to high alcohol levels. Preferably, the alcohol is ethanol. The identified alleles can be combined or stacked with each other to construe and/or select high alcohol tolerant yeasts, most notably Saccharomyces species.

Abstract: The present invention relates to the field of GPCR structure biology and signaling. In particular, the present invention relates to protein binding domains directed against or capable of specifically binding to a functional conformational state of a G-protein-coupled receptor (GPCR). More specifically, the present invention provides protein binding domains that are capable of increasing the stability of a functional conformational state of a GPCR, in particular, increasing the stability of a GPCR in its active conformational state. The protein binding domains of the present invention can be used as a tool for the structural and functional characterization of G-protein-coupled receptors bound to various natural and synthetic ligands, as well as for screening and drug discovery efforts targeting GPCRs. Moreover, the invention also encompasses the diagnostic, prognostic and therapeutic usefulness of these protein binding domains for GPCR-related diseases.

Abstract: The present invention relates to the field of GPCR structure biology and signaling. In particular, the present invention relates to protein binding domains directed against or capable of specifically binding to a functional conformational state of a G-protein-coupled receptor (GPCR). More specifically, the present invention provides protein binding domains that are capable of increasing the stability of a functional conformational state of a GPCR, in particular, increasing the stability of a GPCR in its active conformational state. The protein binding domains of the present invention can be used as a tool for the structural and functional characterization of G-protein-coupled receptors bound to various natural and synthetic ligands, as well as for screening and drug discovery efforts targeting GPCRs. Moreover, the invention also encompasses the diagnostic, prognostic and therapeutic usefulness of these protein binding domains for GPCR-related diseases.

Abstract: The present invention relates to polypeptides comprising an immunoglobulin variable domain, binding with high affinity to serum albumin for increasing the half-life of therapeutic agents and compositions, in particular for therapeutic agents comprising multispecific immunoglobulin variable domains. Also provided herein are methods for the production of polypeptides comprising serum albumin binding immunoglobulin variable domains of the present invention.

Abstract: The invention relates to mutant forms of CsgG. The invention also related to analyte detection and characterisation using CsgG.

Abstract: The present invention relates to novel protein pores and their uses in analyte detection and characterisation. The invention particularly relates to an isolated pore complex formed by a CsgG-like pore and a modified CsgF peptide, or a homologue or mutant thereof, thereby incorporating an additional channel constriction or reader head in the nanopore. The invention further relates to a transmembrane pore complex and methods for production of the pore complex and for use in molecular sensing and nucleic acid sequencing applications.

Abstract: The disclosure relates to the field of glyco-engineering, more specifically, to eukaryotic cells wherein both an endoglucosaminidase and a glycoprotein are present. These cells can be used to deglycosylate or partly deglycosylate the (exogenous) glycoprotein, in particular, without the need for adding an extra enzyme. Methods are also provided for the application of these cells in protein production. According to one specific aspect, the eukaryotic cells are glyco-engineered yeast cells in which, additionally, at least one exogenous enzyme needed for complex glycosylation is present, e.g., allowing easier separation of differentially glycosylated glycoproteins.

Abstract: The present invention relates to immunoglobulin single variable domains that bind MIF and more in particular to polypeptides that comprise or essentially consist of one or more such immunoglobulin single variable domains; to nucleic acids encoding such polypeptides; to methods for preparing such polypeptides; to compositions and in particular to pharmaceutical compositions that comprise such polypeptides, for prophylactic, therapeutic or diagnostic purposes.

Abstract: The present application relates to tumor-associated dendritic cell (TADC) preparations and their use in treatment of tumor metastasis.

Abstract: This disclosure relates to the field of cancer, particularly the field of melanoma. It was found that a particular long non-coding RNA (lncRNA) is specifically up-regulated in melanoma (but not other tumor) cells as compared to melanocytes. Inhibition of this lncRNA in melanoma cells leads to induction of apoptosis and is a novel therapeutic strategy in the treatment of melanoma.

Abstract: The application relates to the field of cancer, particularly to the field of solid tumors. It was found that a particular long non-coding RNA (lncRNA), NEAT1, an essential architectural component of nuclear paraspeckles, is required for the survival of cancer, but not that of normal, non-transformed, cells. Inhibition of NEAT1 reduces cell viability of cancer cells and induces apoptosis. These data identify NEAT1 as a novel therapeutic target for treatment of solid tumors.