Abstract: A cell culture substrate including a substrate provided with a non-porous surface and a cell culture coating layer that covers at least a portion of the non-porous surface, wherein the cell culture coating layer is implemented such that particles formed of fusion proteins for culturing cells are aggregated to form at least a portion of the surface, the fusion proteins comprising functional peptides bound to mussel adhesive proteins. In particular, despite containing compounds such as proteins that are beneficial to culturing cells, the cell culture substrate can be stored at room temperature for a long period of time over several years, exhibiting excellent storage stability, while activities of such compounds that are beneficial to culturing of the cells remain unchanged or only suffer minimal degradation so that the cells can be cultured at an initially-designed level.

Abstract: A cell culture substrate including a fibrous web in which fibers are integrated, and a cell culture coating layer comprising a coating film connecting at least some fibers from among fibers positioned on one surface of the fibrous web, wherein the cell culture coating layer is realized through a fusion protein for cell culture in which a functional peptide is bound to a mussel adhesive protein. Thus, the substrate can be stored at room temperature for a long period of time, i.e., several years, despite containing protein-like substances that aid in cell culture, and thus exhibits very high storage stability. At the same time, the activity of substances that aid in cell culture is maintained at the same level or is reduced only minimally, thus enabling cell culture at an initially designed level.

Abstract: Described is a three-dimensional (3D) microenvironment presenting defined biochemical and physical cues that regulate cellular behavior and use of the microenvironment. A composition to form the 3D microenvironment is provided by combining one or more natural or synthetic polymeric materials and substrate proteins recombinantly or chemically functionalized with a variety of bioactive peptides such as extracellular matrix-derived or growth factor-derived peptides. Also described are devices and methods for screening for optimal combinations of the bioactive motifs in order to create an extracellular microenvironment that can regulate specific cellular behavior such as cell growth, proliferation, migration or differentiation.

Abstract: The present disclosure relates to a three-dimensional micro-environment structure for controlling cell behavior, a three-dimensional surface and an array for controlling cell behavior, and a method for manufacturing the three-dimensional micro-environment structure.

Abstract: Described is a three-dimensional (3D) microenvironment presenting defined biochemical and physical cues that regulate cellular behavior and use of the microenvironment. A composition to form the 3D microenvironment is provided by combining one or more natural or synthetic polymeric materials and substrate proteins recombinantly or chemically functionalized with a variety of bioactive peptides such as extracellular matrix-derived or growth factor-derived peptides. Also described are devices and methods for screening for optimal combinations of the bioactive motifs in order to create an extracellular microenvironment that can regulate specific cellular behavior such as cell growth, proliferation, migration or differentiation.

Abstract: This disclosure provides for a three-dimensional (3D) microenvironment presenting defined physical or mechanical cues that regulate cellular behavior and use of the matrix. The disclosure also provides for devices and methods for screening for optimal combinations of physical and mechanical cues in order to create a microenvironment that can regulate specific cellular behavior such as cell growth, proliferation, migration or differentiation.

Abstract: This disclosure provides for a three-dimensional (3D) microenvironment presenting defined physical or mechanical cues that regulate cellular behavior and use of the matrix. The disclosure also provides for devices and methods for screening for optimal combinations of physical and mechanical cues in order to create a microenvironment that can regulate specific cellular behavior such as cell growth, proliferation, migration or differentiation.

Abstract: This disclosure provides a three-dimensional (3D) microenvironment presenting defined biochemical and physical cues that regulate cellular behavior and use of the microenvironment. A composition to form the 3D microenvironment is provided by combining one or more natural or synthetic polymeric materials and substrate proteins recombinantly or chemically functionalized with a variety of bioactive peptides such as extracellular matrix-derived or growth factor-derived peptides. The disclosure also provides for devices and methods for screening for optimal combinations of the bioactive motifs in order to create an extracellular microenvironment that can regulate specific cellular behavior such as cell growth, proliferation, migration or differentiation.