Skip to content
Back to the Koch Institute website
+Share
Search
Keyword:
stem cells
100 Exhibits
Garden of Stem Cells: 3D Structures Blossom in a Synthetic Matrix
3D Structures Blossom in a Synthetic Matrix 2
3D Structures Blossom in a Synthetic Matrix 3
Behind the Scenes of RNA Interference 1
Behind the Scenes of RNA Interference 2
Body of Knowledge: Self-Organizing Brain Cells
Bone Repair Using Biocompatible Plastic, Image #2
Bone Repair Using Biocompatible Plastic, Image #1
Bone Repair Using Biocompatible Plastic, Image #3
Brain Organoid
Building a New Hip: Cartilage Grown on a Woven Polymer
Cardiomyocytes and Endothelial Cells Interact
Cartilage Grown from Adult Stem Cells in a 3-D Woven Polymer
Cell Differentiation in A Chimeric Heart
Cell Differentiation in A Chimeric Limb
Cell Differentiation in Chimeric Whiskers
Central Nervous System Tissue Model
Complex Structure Emerges from Stem Cells
Cryptic Origins of Epithelial Cells 1
Cryptic Origins of Epithelial Cells 2
Cryptic Origins of Epithelial Cells 3
Differentiation and Patterning of Cardiomyocytes 1
Differentiation and Patterning of Cardiomyocytes 2
Differentiation and Patterning of Cardiomyocytes 3
Duct Duct Goose 2
Duct Duct Goose 3
Duct Duct Goose 4
Environmental Cues Influence Morphogenesis in a Synthetic Matrix
Fasting Remodels the Gut Epithelium
Flatwork Regeneration 1
Flatworm Regeneration 2
Flatworm Regeneration 3
Flatworm Regeneration 4
From Stem Cells to Adipose
Gland of Opportunity 2: Modeling the Mammary
Gland of Opportunity 3: Modeling the Mammary
Induced Human Neurons Derived from Stem Cells
Inhibitory Neurons for Disease Modeling 1
Inhibitory Neurons for Disease Modeling 2
Inhibitory Neurons for Disease Modeling 3
Inside the Developing Brain 1
Inside the Developing Brain 2
Intestinal Organoid Induced for Differentiation
Intestinal Organoids Grow in a Synthetic Matrix
Joint Venture: Polymer Plus Stem Cells at 650x
Joint Venture: Polymer Plus Stem Cells at 950x
Keeping Abreast of Stem Cell Differentiation
Ketone Bodies in the Colon 1
Ketone Bodies in the Colon 2
Liver Organoid
Liver Progenitor Cells Grown from Adult Stem Cells
Living Drug Factories: The Secreted Life of Therapeutic Proteins
Making Heads of Tails of Breast Cancer 1
Making Heads of Tails of Breast Cancer 2
Making Heads of Tails of Breast Cancer 3
Making Heads of Tails of Breast Cancer 4
Mesenchymal Stem Cells in an Extracellular Matrix
Mesenchymal Stem Cells On a Plate
Mini-Brains On The Go 1
Mini-Brains on the Go 4
Mini-Brains on the Go 5
Mini-Brains on the Go 6
Modeling the Mind: Neurons Derived from Skin Cells
Moment of Truth: Gene Editing in Action
Multicolor Labeling of Pluripotent Stem Cells
Neural Progenitor Cells on a Hydrogel
Neurons Divide and Mature, Image #1
Neurons Divide and Mature, Image #2
On the Scent: Investigating an Anti-Aging Gene Inside the Nose
Order From Chaos: The Making of an Organ
Origin of an Adenoma
Pancreatic Beta Cell Differentiation
Planarian Brain and Eyes
Planarian Nervous System
Planarian Tissues & Stem Cells
Protecting Live Cellular Factories With Anticancer Crystalline Shields
Self-Assembly in a Next Generation Polymer
Snap ChAT: A Flatworm Creates a New Profile
Spatial Expressions: Snapshot of a Growing Tumor
Stem Cell Colonies Grow 1
Stem Cell Colonies Grow 2
Stem Cells Grown on Microdot Plates, Version #1
Stem Cells Grown on Microdot Plates, Version #4
Stem Cells Grown on Microdot Plates, Version #2
Stem Cells Grown on Microdot Plates, Version #3
Stem Cells Grown on Microdot Plates, Version #5
Stem Education: Imagine the Possibilities
Stem-Like Cancer Cells Interact with Immune Cells
Suit Your Cell: Designing Custom Biomaterials
Sunrise in the Eye: The Making of a Retina
The Case of the Missing Gene, Exhibit A
The Case of the Missing Gene, Exhibit B
The Case of the Missing Gene, Exhibit C
A Tri-culture Organoid System Develops in a Synthetic Hydrogel 1
A Tri-culture Organoid System Develops in a Synthetic Hydrogel 2
Tumor Cells Compete With Stem Cells 1
Tumor Cells Compete With Stem Cells 2
Tumor Cells Compete With Stem Cells 3
Tumor Cells Compete With Stem Cells 4
Up Close: Investigating an Anti-Aging Gene Inside the Nose
