Abstract: Methods, kits, compositions, and systems are provided for culturing pluripotent stem cells to produce populations of cells comprising beta-like cells (e.g., pancreatic lineage, glucose-responsive, and/or insulin-producing). In particular, culture conditions are provided that result in the generation of beta-like cells from a starting culture of human pluripotent stem cells.

Abstract: Methods, kits, compositions, and systems are provided for culturing pluripotent stem cells to produce populations of cells comprising beta-like cells (e.g., pancreatic lineage, glucose-responsive, and/or insulin-producing). In particular, culture conditions are provided that result in the generation of beta-like cells from a starting culture of human pluripotent stem cells.

Abstract: Methods, kits, compositions, and systems are provided for culturing pluripotent stem cells to produce populations of cells comprising beta-like cells (e.g., pancreatic lineage, glucose-responsive, and/or insulin-producing). In particular, culture conditions are provided that result in the generation of beta-like cells from a starting culture of human pluripotent stem cells.

Abstract: Methods, kits, compositions, and systems are provided for culturing pluripotent stem cells to produce populations of cells comprising beta-like cells (e.g., pancreatic lineage, glucose-responsive, and/or insulin-producing). In particular, culture conditions are provided that result in the generation of beta-like cells from a starting culture of human pluripotent stem cells.

Abstract: Provided herein are systems and methods for identifying cell-specific differentiation markers. In particular, provided herein are systems and methods for generating induced pluripotent cells (IPS) from human cells, differentiating the IPS into differentiated cells, and identifying differentiation specific markers.

Abstract: Provided herein are systems and methods for identifying cell-specific differentiation markers. In particular, provided herein are systems and methods for generating induced pluripotent cells (IPS) from human cells, differentiating the IPS into differentiated cells, and identifying differentiation specific markers.

Abstract: Methods, kits, compositions, and systems are provided for culturing pluripotent stem cells to produce populations of cells comprising beta-like cells (e.g., pancreatic lineage, glucose-responsive, and/or insulin-producing). In particular, culture conditions are provided that result in the generation of beta-like cells from a starting culture of human pluripotent stem cells.

Abstract: Methods, kits, compositions, and systems are provided for culturing pluripotent stem cells to produce populations of cells comprising beta-like cells (e.g., pancreatic lineage, glucose-responsive, and/or insulin-producing). In particular, culture conditions are provided that result in the generation of beta-like cells from a starting culture of human pluripotent stem cells.

Abstract: Provided herein are systems and methods for identifying cell-specific differentiation markers. In particular, provided herein are systems and methods for generating induced pluripotent cells (IPS) from human cells, differentiating the IPS into differentiated cells, and identifying differentiation specific markers.

Abstract: Methods, kits, compositions, and systems are provided for culturing pluripotent stem cells to produce populations of cells comprising beta-like cells (e.g., pancreatic lineage, glucose-responsive, and/or insulin-producing). In particular, culture conditions are provided that result in the generation of beta-like cells from a starting culture of human pluripotent stem cells.

Abstract: Methods, kits, compositions, and systems are provided for culturing pluripotent stem cells to produce populations of cells comprising beta-like cells (e.g., pancreatic lineage, glucose-responsive, and/or insulin-producing). In particular, culture conditions are provided that result in the generation of beta-like cells from a starting culture of human pluripotent stem cells.

Abstract: Methods and devices for culturing human pluripotent stem cells to produce cells of the pancreatic lineage are disclosed. The methods include steps of culturing the stem cells under conditions that induce the expression of mesendoderm/primitive streak and definitive endoderm markers in a chemically defined medium including an effective amount of i) fibroblast growth factor, ii) Activin A, and iii) bone morphogenetic protein. The methods further include the steps of culturing cells under conditions favoring the formation of at least one of intact embryoid bodies and pancreatic progenitor PDX1+Ins? cells.

Abstract: Methods and devices for culturing human pluripotent stem cells to produce cells of the pancreatic lineage are disclosed. The methods include steps of culturing the stem cells under conditions that induce the expression of mesendoderm/primitive streak and definitive endoderm markers in a chemically defined medium including an effective amount of i) fibroblast growth factor, ii) Activin A, and iii) bone morphogenetic protein. The methods further include the steps of culturing cells under conditions favoring the formation of at least one of intact embryoid bodies and pancreatic progenitor PDX1+ Ins? cells.

Abstract: Methods are described to more efficiently produce cells of the endoderm and pancreatic lineage from mammalian pluripotent stem cells. These methods provide a simple, reproducible culture protocol using defined media components to enable consistent, large-scale production of pancreatic cell types for research or therapeutic uses.

Abstract: Methods are described to more efficiently produce cells of the endoderm and pancreatic lineage from mammalian pluripotent stem cells. These methods provide a simple, reproducible culture protocol using defined media components to enable consistent, large-scale production of pancreatic cell types for research or therapeutic uses.

Abstract: Methods are described to increase the proportion of endoderm committed cells and pancreatic lineage cells in a culture of human embryonic stem cells which are undergoing differentiation. The method also results in a stem cell derived cell culture which does not have tumorigenic capability.

Abstract: Methods are described to more efficiently produce cells of the endoderm and pancreatic lineage from mammalian pluripotent stem cells. These methods provide a simple, reproducible culture protocol using defined media components to enable consistent, large-scale production of pancreatic cell types for research or therapeutic uses.

Abstract: Methods are described to increase the proportion of endoderm committed cells and pancreatic lineage cells in a culture of human embryonic stem cells which are undergoing differentiation. The method also results in a stem cell derived cell culture which does not have tumorigenic capability.