Blastema
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- TOR Signaling Regulates Planarian Stem Cells and Controls Localized and Organismal Growth
- Hedgehog Signaling During Appendage Development and Regeneration
- Hedgehog Signaling Controls Dorsoventral Patterning, Blastema Cell Proliferation and Cartilage Induction During Axolotl Tail
- ERK Signaling Controls Blastema Cell Differentiation During Planarian Regeneration
- Retinoic Acid Coordinately Proximalizes Regenerate Pattern and Blastema Differential Affinity in Axolotl Limbs
- Cells Keep a Memory of Their Tissue Origin During Axolotl Limb Regeneration
- Acidic Fibroblast Growth Factor Is Present in Regenerating Limb Blastemas of Axolotls and Binds Specifically to Blastema Tissues
- Mammalian Regeneration and Regenerative Medicine
- Regeneration of the Flatworm
- Specialized Progenitors and Regeneration Peter W
- An Extracellular Matrix Molecule of Newt and Axoloti Regenerating Limb Blastemas and Embryonic Limb Buds: Immunological Relationship of MT1 Antigen with Tenascin
- Regeneration in Planaria Secondary Article
- The Fine Structure of Blastema Cells and Differentiating Cartilage Cells in Regenerating Limbs of Amblysto~A Larvae*
- Damage-Induced Reactive Oxygen Species Enable Regenerative Signalling by the Rapid Repositioning of Hedgehog Expressing Cells
- Furnishing Wound Repair by the Subcutaneous Fascia
- The Planarian Neoblast: the Rambling History of Its Origin and Some Current Black Boxes JAUME BAGUÑÀ*
- The Regulative Ability of the Limb Regeneration Blastema of Notophthalmus Viridescens : Experiments in Situ