The invention relates to a gene construct comprising at least two nucleic acid sequences, wherein one of the nucleic acid sequences encodes FAH and a second nucleic acid sequence encodes a protein to be produced. This makes it possible to use FAH as a selection marker for the production of recombinant proteins, in particular antibodies. The invention further relates to plasmids, vectors or hepatocytes comprising the gene construct. Furthermore, the invention relates to a method for producing recombinant proteins in FAH(−/−) non-human mammals using the gene construct and FAH as a selection marker.

Provided are engineered meat products formed as a plurality of at least partially fused layers, wherein each layer comprises at least partially fused multicellular bodies comprising non-human myocytes and wherein the engineered meat is comestible. Also provided are multicellular bodies comprising a plurality of non-human myocytes that are adhered and/or cohered to one another; wherein the multicellular bodies are arranged adjacently on a nutrient-permeable support substrate and maintained in culture to allow the multicellular bodies to at least partially fuse to form a substantially planar layer for use in formation of engineered meat. Further described herein are methods of forming engineered meat utilizing said layers.

Compositions of genetically modified beta-like cells are encompassed. Also encompassed are methods of treatment of type 1 diabetes using these compositions or compositions that inhibit the function of the identified genes.

An object of the present invention is to provide a novel approach capable of conveniently producing a large quantity of substantially uniform size cell aggregates. Provided is a method for producing cell aggregates using a cell culture bag, the cell culture bag having a lower face comprising a plurality of recesses, the method comprising the steps of: (1) adding cells and a medium to the cell culture bag, stirring the contents, and culturing the cells while applying a pressure to the cell culture bag; and (2) recovering the formed cell aggregates after the completion of culture.

Engineered skin substitutes comprising an outer-facing portion and an inner-facing portion and methods of making the same are provided. The skin substitutes are configured to conform to a shape and a dimension of a body part of a subject, and have at least one surface that circles back on itself so as to enclose at least a portion of the body part. In some instances, dermis and epidermal layers can be formed in an air liquid interface. The exemplary skin substitutes are wearable and can be made to conform to a generic body part or a specific body part from a three-dimensional representation of the body part.

The present invention relates to the identification of a genomic integration site for heterologous polynucleotides in Chinese Hamster Ovary (CHO) cells resulting in high RNA and/or protein production. More specifically it relates to CHO cells comprising at least one heterologous polynucleotide stably integrated into the S100A gene cluster of the CHO genome and to methods for the production of said CHO cells. Further, the invention relates to a method for the production of a protein of interest using said CHO cell and to the use of said CHO cell for producing a protein of interest at high yield. Integration within these specific target regions leads to reliable, stable and high yielding production of an RNA and/or protein of interest, encoded by the heterologous polynucleotide.

The present invention provides a kidney production method including a step of tissue-specifically removing a metanephric mesenchyme of a metanephros of a non-human animal; a step of transplanting, into the metanephros, a kidney precursor cell derived from a non-human animal which is allogeneic or xenogeneic to the non-human animal; and a step of advancing development of the metanephros, which is a step in which the transplanted kidney precursor cell is differentiated and matured to form a part of the kidney.

The present invention relates to a method for isolating bona fide pancreatic progenitor cells and to cell populations enriched for bona fide pancreatic progenitor cells.

A column-based device and method for retrieving cells of interest were enclosed. The said device comprises a column comprising (i) an inner wall defining an inner chamber with inlet and outlet openings, (ii) a perforated plug disposed adjacent to the outlet opening, (iii) a sleeve insert with a channel and disposed within the chamber and adjacent to the perforated plug, and (iv) a filtering means housed within sleeve insert sandwiched between two sealing means. In particular, Tumor-derived endothelial cell clusters (TECCs) as characterized multiple nuclei, expression of endothelial markers (PECAM1, VWF and CDH5), and non-expression of leukocyte, megakaryocyte and platelets markers, may be retrieved using the disclosed device. Also encompassed are methods, reagents and kits for the diagnosis and prognosis of cancers by detecting for the presence of TECCs isolated from blood samples using the claimed device.

A system and method for studying cell injury mechanisms by applying biologically relevant mechanical impact to in vitro cell culture are disclosed. This approach is for maintaining consistent in vitro conditions during experiments, accommodating multiple cell populations, and monitoring each in real-time while achieving amplitude and time scale of input acceleration that mimic blunt injury cases. These multiplexed, environmental control capabilities enable characterizing the relationships between mechanical impact and cell injury in multivariate biological systems.