The present invention provides an isolated nucleic acid molecule comprising, or consisting of, the nucleic acid sequence of SEQ ID NO:1 or a nucleic acid sequence of at least 400 bp having at least 80% identity to said sequence of SEQ ID NO:1, wherein said isolated nucleic acid molecule specifically leads to the expression in direction selective retinal ganglion cells of a gene when operatively linked to a nucleic acid sequence coding for said gene.

The present disclosure relates to a method for targeted integration of a donor vector into a specific pre-defined genomic location of an isolated eukaryotic host cell. The vector and host cell together comprise nucleic acid components allowing for the selection of cells having integrated the donor vector into the pre-defined genomic location of the host cell. In addition, it provides for the identification of any random integrations of the donor vector(s) into other parts of the host cell genome. Once identified, such cells present an excellent alternative for subsequent recombinant protein production.

The present invention relates to a plasmid that encodes a fusion protein comprising a signal peptide and the extracellular domain of the B-cell activating factor receptor (BAFF-R), and optionally, a fragment of the constant region (Fc) of an immunoglobulin. The invention also relates to compositions comprising said plasmid, and to the use of same in the treatment and/or prevention of inflammatory diseases in fish, more preferably in salmonids.

Improved DNA vaccine plasmids are disclosed that contain novel immunostimulatory RNA compositions. The improved plasmids eliminate all extraneous sequences, incorporate a novel antibiotic free short RNA based selectable marker, increase eukaryotic expression using a novel chimeric promoter, improve yield and stability during bacterial production, and improve immunostimulation. These vectors are utilized in immunization to elicit improved immune responses or therapy to induce type 1 interferon production.

The present invention relates to a polynucleotide comprising at least one promoter and an S/MAR element, wherein said S/MAR element is located downstream of said promoter and wherein the nucleic acid sequence of said S/MAR element (S/MAR sequence) comprises at least 3sequence motifs ATTA (SEQ ID NO:1) per 100 nucleotides over a stretch of at most 200 nucleotides; the present invention further relates to a composition and to a host cell comprising said polynucleotide, and to the polynucleotide for use in medicine and for use in treating genetic disease. The present invention also relates to a kit and to a device comprising said polynucleotide, and to methods and uses related to the polynucleotide.

The present invention provides a novel modified protein which is to be used, as a novel detection tool relating to gene expression, for detecting a chromatin open structure more easily at a higher sensitivity than by the conventional technique. The present invention relates to: a nucleic acid binding fluorescent protein, said protein containing a DNA binding domain in which 3 or more TAL-repeats are repeatedly connected, characterized by binding independently from base sequences; and a method for fluorescent labeling of an open chromatin in a vital cell, said method comprising a step for transferring a gene encoding a nucleic acid binding protein into the vital cell, characterized in that the nucleic acid binding protein is a protein comprising a DNA binding domain, in which 3 or more TAL-repeats are repeatedly connected, and a fluorescent protein directly or indirectly bound thereto and the DNA binding domain binds to a nucleic acid independently from base sequences.

Provided are a genome editing system CRISPR-C2c1 for site-specific modification of target sequences in a cell genome and the use thereof, wherein the system comprises a C2c1 protein or variants thereof and a guide RNA. Also provided are a method for site-specific modification of target sequences in a cell genome using the genome editing system CRISPR-C2c1, and a pharmaceutical composition comprising the genome editing system CRISPR-C2c1.

A method for preparing a fish skin mucous gland bioreactor and its application, including: identifying genes specifically expressed in fish skin mucinous gland cells, promoters and secreted protein signal peptides, constructing transgenic expression vectors that can specifically express endogenous or heterologous biologically active substances in fish skin and mucous gland cells, developing stable genetic and transgenic fish that secrete bioactive substances into fish mucus, and using bioactive substances secreted by mucus glands for animal and plant growth, stress resistance and disease resistance, human health care and disease prevention, and commercial enzymes. The fish skin mucous gland bioreactor developed by the invention has the characteristics of easy breeding and expansion, more skin mucus secretion, convenient mucus collection, and easy purification of bioactive substances, and can realize the large-scale production of fish skin mucous gland bioreactor and efficient application.

Provided are a genome editing system CRISPR-C2c1 for site-specific modification of target sequences in a cell genome and the use thereof, wherein the system comprises a C2c1 protein or variants thereof and a guide RNA. Also provided are a method for site-specific modification of target sequences in a cell genome using the genome editing system CRISPR-C2c1, and a pharmaceutical composition comprising the genome editing system CRIPSR-C2c1.

The present invention discloses a SmartBac baculovirus expression system and application thereof. The system can comprise a acceptor plasmid (containing fragment A or fragments B and C) and a donor plasmid (containing fragment D); the fragment A contains a promoter, a sequence encoding a protease, a protease cleavage site, an insertion region of a gene encoding a target object to be expressed and a termination sequence; the fragment B contains a promoter, a sequence encoding a protease and a termination sequence; the fragment C contains a promoter, an insertion region of a gene encoding a target object to be expressed and a termination sequence; the fragment D contains a promoter, an insertion region of a gene encoding a target object to be expressed and a termination sequence. The present invention also provides three cloning strategies to achieve the expression of protein complexes with molecular weights of less than 600 kDa and the expression of protein complexes with molecular weights of no less than 600 kDa and efficient screening of a subunit most suitable for adding a purification tag. The present invention is of great significance for recombinantly expressing protein complexes with complex components and large molecular weights in insect cells.