1. |
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Orientation |
Lecture Introduction |
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2. |
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Introduction to Developmental Biology |
General introduction of developmental biology and its application |
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Introduction to Developmental Biology |
General introduction of developmental biology and its application |
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3. |
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Common feature of development Ⅰ |
Common features of embryonic development ,metamorphosis and regeneration |
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Common feature of development Ⅱ |
Conception of embryonic development, morphogenesis and their mechanism |
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4. |
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Experimental embryology |
Experimental methods for fate mapping; clonal analysis |
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Experimental embryology |
Experimental methods for fate mapping; clonal analysis |
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5. |
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Techniques for the study of development |
Introduction of techniques for developmental biology: biochemical methods, immunohistochemistry, cell labeling and sorting. |
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6. |
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Major model system: model animal |
Xenopus oogenesis and early development;gastrulation |
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7. |
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Xenopus Ⅰ |
Early development; neurulation and fate map |
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7. |
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Xenopus Ⅱ |
Mesoderm induction and neural induction |
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7. |
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Xenopus |
Early development of xenopus |
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8. |
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Mouse and human Ⅰ |
Fertilization and early embryology development of mouse |
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8. |
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Mouse and human Ⅱ |
Mouse model for organogenesis and genetic manipulation |
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Mouse and human |
Early embryonic development of mouse |
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9. |
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Organogenesis: Tissue organization and stem cells Ⅰ |
Tissue types, renewal and stem cell introduction |
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9. |
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Organogenesis: Tissue organization and stem cells Ⅱ |
Stem cell identification and conception of adult stem cell |
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10. |
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Organogenesis: Tissue organization and stem cells Ⅲ |
Stem cell introduction, characterization and application in regenerative medicine |
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Organogenesis: Tissue organization and stem cells |
Tissue organization, stem cell and application in regenerative medicine |
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