Methods, agents, and compositions for promoting milk production in a mammal are provided. Agents useful for promoting milk production may include an agent that inhibits NOTCH4 activity. The agent may inhibit NOTCH4 activity by binding to ROBO2 and/or by binding to NOTCH4. The agent may inhibit NOTCH4 by competing with ROBO1 for binding to ROBO2, thereby making ROBO1 available to inhibit NOTCH4 activity. The agent may be a soluble ROBO1 extracellular domain or an anti-NOTCH4 antibody that inhibits NOTCH4 activity. The agent may be an RNAi construct that inhibits expression of NOTCH4 or an RNAi construct that inhibits expression of ROBO2. Also provided herein are transgenic mammals genetically modified for expression of a soluble ROBO1 extracellular domain; inhibition of expression of ROBO2; and/or inhibition of expression of NOTCH4. Methods for promoting milk production in such transgenic mammals by administering one or more of the agents disclosed herein are also provided.

This invention relates to methods and compounds for the production of sterile fish and other egg-producing aquatic animals. The methods include/the compounds are useful to cause disruption of gonadal development in fish or other egg-producing aquatic animals through the administration of compounds that lead to the failure of fertile gonadal development, and thus to reproductively sterile fish or other egg-producing aquatic animals. The methods and compounds are for use in e.g. aquaculture, the aquarium trade or control of invasive species.

Provided is a double-gene knockout vector system, a method for preparing porcine fibroblasts with both CD163 gene and CD13 gene being knocked-out, prepared porcine fibroblasts, and a method for preparing a gene-edited pig with both CD163 gene and CD13 gene being knocked-out. The vector system of the present disclosure comprises a CD163 gene knockout vector and a CD13 gene knockout vector. The CD163 gene knockout vector comprises a gene editing vector backbone and a DNA fragment ligated to the gene editing vector backbone, with a nucleotide sequence of the DNA fragment being shown in any one of SEQ ID NOs: 1-3. The CD13 gene knockout vector comprises a gene editing vector backbone and a DNA fragment ligated to the gene editing vector backbone, a nucleotide sequence of the DNA fragment being shown in any one of SEQ ID NOs: 4-6.

The present invention relates to transgenic blue ornamental fish, as well as methods of making such fish by in vitro fertilization techniques. Also disclosed are methods of establishing a population of such transgenic fish and methods of providing them to the ornamental fish industry for the purpose of marketing.

The invention provides cells and animals, as well as methods of producing cells and animals, that express at least one interfering RNA molecule to regulate the expression of a specific gene or family of genes. The invention further provides novel iRNA molecules, as well as DNA templates for producing iRNA molecules.

Methods and compositions are provided for generating targeted genetic modifications on the Y chromosome or a challenging target locus. Compositions include an in vitro culture comprising an XY pluripotent and/or totipotent animal cell (i.e., XY ES cells or XY iPS cells) having a modification that decreases the level and/or activity of an Sry protein; and, culturing these cells in a medium that promotes development of XY F0 fertile females. Such compositions find use in various methods for making a fertile female XY non-human mammal in an F0 generation.

The disclosure provides a method for breeding Carassius auratus strains without intermuscular bones, which comprises designing knockout target sites for the two copies of the bmp6, bmp6a and bmp6b, in the Carassius auratus genome, and then obtaining F2 generation individuals from a homozygous line with bmp6a and bmp6b double gene mutation through two rounds of gene knockout and screening, and then propagating by using the F2 generation individuals from the homozygous line with bmp6a and bmp6b double gene mutation to form a new Carassius auratus strain with intermuscular bone-deficient. Strains of Carassius auratus with less than 20 intermuscular bones and without intermuscular bones are obtained by the method of the present disclosure.

The subject invention provides materials and methods for producing animals with short hair length. In a preferred embodiment, this is accomplished by altering in the animal the nucleotide sequence that encodes the prolactin receptor (PRLR) protein such that a truncated version of the protein is produced. Advantageously, and surprisingly, the truncated protein produced according to the subject invention retains lactogenic functionality, but causes the animal to have a short-hair coat.

The invention encompasses methods for increasing genetic progress in livestock, and for genetic dissemination, including the use of amniocentesis to obtain fetal amniocytes for use in genomic evaluation and cloning.

The present invention relates to a factor VII composition having a substantially homogeneous isoelectric point and to a method for formulating such a composition. The present invention also relates to the therapeutic use of a factor VII composition having a substantially homogeneous isoelectric point.