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Growing Self-Organizing Mini-Guts from a Single Intestinal Stem Cell: Mechanism and Applications
by
Sato, Toshiro
, Clevers, Hans
in
Adult Stem Cells - physiology
/ adults
/ Animals
/ Cell Count
/ Cell culture
/ Cell Culture Techniques
/ Cell lines
/ Cellular differentiation
/ Colorectal carcinoma
/ colorectal neoplasms
/ Construction
/ Crypts
/ Culture
/ Cystic fibrosis
/ Daughter cells
/ Disease Models, Animal
/ Enteroendocrine cells
/ Ephrin-B1 - metabolism
/ Epithelial cells
/ Epithelium
/ Humans
/ Intestinal Mucosa - physiology
/ Intestine, Small - growth & development
/ Intestines
/ medicine
/ Mesenchymal stem cells
/ Mice
/ Morphogenesis
/ Organoids
/ Organs
/ Receptors, G-Protein-Coupled - genetics
/ Regenerative Medicine
/ REVIEWS
/ Stem Cell Niche
/ Stem cells
/ Three dimensional
/ Wnt Proteins - metabolism
2013
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Growing Self-Organizing Mini-Guts from a Single Intestinal Stem Cell: Mechanism and Applications
by
Sato, Toshiro
, Clevers, Hans
in
Adult Stem Cells - physiology
/ adults
/ Animals
/ Cell Count
/ Cell culture
/ Cell Culture Techniques
/ Cell lines
/ Cellular differentiation
/ Colorectal carcinoma
/ colorectal neoplasms
/ Construction
/ Crypts
/ Culture
/ Cystic fibrosis
/ Daughter cells
/ Disease Models, Animal
/ Enteroendocrine cells
/ Ephrin-B1 - metabolism
/ Epithelial cells
/ Epithelium
/ Humans
/ Intestinal Mucosa - physiology
/ Intestine, Small - growth & development
/ Intestines
/ medicine
/ Mesenchymal stem cells
/ Mice
/ Morphogenesis
/ Organoids
/ Organs
/ Receptors, G-Protein-Coupled - genetics
/ Regenerative Medicine
/ REVIEWS
/ Stem Cell Niche
/ Stem cells
/ Three dimensional
/ Wnt Proteins - metabolism
2013
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Do you wish to request the book?
Growing Self-Organizing Mini-Guts from a Single Intestinal Stem Cell: Mechanism and Applications
by
Sato, Toshiro
, Clevers, Hans
in
Adult Stem Cells - physiology
/ adults
/ Animals
/ Cell Count
/ Cell culture
/ Cell Culture Techniques
/ Cell lines
/ Cellular differentiation
/ Colorectal carcinoma
/ colorectal neoplasms
/ Construction
/ Crypts
/ Culture
/ Cystic fibrosis
/ Daughter cells
/ Disease Models, Animal
/ Enteroendocrine cells
/ Ephrin-B1 - metabolism
/ Epithelial cells
/ Epithelium
/ Humans
/ Intestinal Mucosa - physiology
/ Intestine, Small - growth & development
/ Intestines
/ medicine
/ Mesenchymal stem cells
/ Mice
/ Morphogenesis
/ Organoids
/ Organs
/ Receptors, G-Protein-Coupled - genetics
/ Regenerative Medicine
/ REVIEWS
/ Stem Cell Niche
/ Stem cells
/ Three dimensional
/ Wnt Proteins - metabolism
2013
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Growing Self-Organizing Mini-Guts from a Single Intestinal Stem Cell: Mechanism and Applications
Journal Article
Growing Self-Organizing Mini-Guts from a Single Intestinal Stem Cell: Mechanism and Applications
2013
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Overview
Recent examples have highlighted how stem cells have the capability to initiate morphogenesis in vitro; that is, to generate complex structures in culture that closely parallel their in vivo counterparts. Lgr5, the receptor for the Wnt-agonistic R-spondins, marks stem cells in multiple adult organs of mice and humans. In R-spondin-based three-dimensional cultures, these Lgr5 stem cells can grow into ever-expanding epithelial organoids that retain their original organ identity. Single Lgr5 stem cells derived from the intestine can be cultured to build epithelial structures that retain hallmarks of the in vivo epithelium. Here, we review the mechanisms that support this notable example of self-organization and discuss applications of this technology for stem cell research, disease modeling (e.g., for colorectal cancer and cystic fibrosis), and regenerative medicine.
Publisher
American Association for the Advancement of Science,The American Association for the Advancement of Science
Subject
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