Isolated polynucleotides comprising a transcriptional unit are disclosed, the transcriptional unit comprising:

(i) a nucleic acid sequence that encodes a secreted protein of interest;

(ii) an endoplasmic reticulum (ER) targeting sequence as set forth in SEQ ID NO: 2, said ER targeting sequence being heterologous to said secreted protein of interest;

(iii) a promoter; and

(iv) a transcription termination site.

The present invention relates to an adeno-associated virus (AAV), comprising an insertion of at least 6-8 amino acids between the positions corresponding to position 587 and 588 of SEQ ID NO: 1. Also envisioned are AAVs of the present invention for use as a medicament and pharmaceutical compositions comprising the AAV of the present invention. Further, the present invention relates to an in vitro use of AAV of the present invention for transduction of the nucleus of retinal cells. Also concerned is a method for screening an insertion sequence as well as a peptide obtainable by the method for screening. Also contemplated are kits comprising the AAV of the present invention.

Compositions and methods are provided for modifying a genomic locus of interest in a eukaryotic cell, a mammalian cell, a human cell or a non-human mammalian cell using a large targeting vector (LTVEC) comprising various endogenous or exogenous nucleic acid sequences as described herein. Further methods combine the use of the LTVEC with a CRISPR/Cas system. Compositions and methods for generating a genetically modified non-human animal comprising one or more targeted genetic modifications in their germline are also provided.

The present invention is directed to non-naturally occurring peptides containing a membrane-penetrating amino acid sequence and further at least one polycationic moiety or peptide sequence. The peptides are suitable for use in delivery a cargo to the interior of a cell. Suitable cargo includes nucleic acid molecules (including DNA, RNA or PNA), polypeptides, or other biologically active molecules. The present invention is further directed to transfection complexes containing the non-naturally occurring peptides of the present invention in non-covalent association with at least one cationic lipid and a cargo to be delivered to the interior of a cell. The invention further relates to methods for the preparation and use of the non-naturally occurring peptides for the formation of transfection complexes and the delivery of a cargo to the interior of a cell in culture, an animal or a human. The invention also relates to compositions and kits useful for transfecting cells.

This invention relates to methods for increasing carbon fixation and/or increasing biomass production in a plant, comprising: introducing into a plant, plant part, and/or plant cell heterologous polynucleotides encoding (1) a succinyl CoA synthetase, (2) a 2-oxoglutarate:ferredoxin oxidoreductase, (3) a 2-oxoglutarate carboxylase, (4) an oxalosuccinate reductase, or (5) an isocitrate lyase, or (6) a succinyl CoA synthetase and a 2-oxoglutarate:ferredoxin oxidoreductase, (7) a 2-oxoglutarate carboxylase and an oxalosuccinate reductase polypeptide, and/or (8) a 2-oxoglutarate carboxylase polypeptide, an oxalosuccinate reductase polypeptide and an isocitrate lyase polypeptide to produce a stably transformed plant, plant part, and/or plant cell, wherein said heterologous polynucleotides are from a bacterial and/or an archaeal species. Additionally, transformed plants, plant parts, and/or plant cells are provided as well as products produced from the transformed plants, plant parts, and/or plant cells.

The present invention relates to a transgenic CHO cell line in which the BMP receptor gene BMPRIA or BMPRII is knocked out. The BMP type I receptor BMPRIA or BMP type II receptor BMPRII gene which plays an important role in intracellular signal transduction in CHO cells is knocked out to prevent the activation of self concentration control pathway and the signal transduction mediated by BMP in CHO cells, so that the productivity of a target protein to be produced can be improved.

The present invention provides anti-tau constructs. Anti-tau constructs of the invention are polynucleotide sequences encoding a polypeptide comprising at least one tau binding moiety and optionally comprising a signal peptide and/or a purification moiety. The present invention also provides isolated polypeptides encoded by anti-tau constructs, vectors comprising anti-tau constructs, and isolated cells comprising said vectors.

This application discloses the compositions comprising biologically active synthetic nanoparticle constructs and methods of use thereof to modify gene expression including transcriptional activation and transcriptional repression.

The present invention relates to a transgenic CHO cell line in which the BMP receptor gene BMPRIA or BMPRII is knocked out. The BMP type I receptor BMPRIA or BMP type II receptor BMPRII gene which plays an important role in intracellular signal transduction in CHO cells is knocked out to prevent the activation of self concentration control pathway and the signal transduction mediated by BMP in CHO cells, so that the productivity of a target protein to be produced can be improved.

A novel vector, composition and method of treating a neurological disorder characterized by deficient UBE3A is presented. The UBE3A gene, which encodes for E6-AP, a ubiquitin ligase, was found to be responsible for Angelman syndrome (AS). A unique feature of this gene is that it undergoes maternal imprinting in a neuron-specific manner. In the majority of AS cases, there is a mutation or deletion in the maternally inherited UBE3A gene, although other cases are the result of uniparental disomy or mismethylation of the maternal gene. A UBE3A protein construct was generated with additional sequences that allow the secretion from cells and uptake by neighboring neuronal cells. This UBE3A vector may be used in gene therapy to confer a functional E6-AP protein into the neurons and rescue disease pathology.