scholarly article | Q13442814 |
P356 | DOI | 10.1002/REG2.10 |
P8608 | Fatcat ID | release_wjih2aprlve6vobuqnthp5rzim |
P932 | PMC publication ID | 4906668 |
P698 | PubMed publication ID | 27499858 |
P5875 | ResearchGate publication ID | 259932569 |
P2093 | author name string | Jeffrey Lehrberg | |
David Gardiner | |||
Catherine McCusker | |||
P2860 | cites work | A histone demethylase is necessary for regeneration in zebrafish | Q24648837 |
Positional information is reprogrammed in blastema cells of the regenerating limb of the axolotl (Ambystoma mexicanum) | Q27304376 | ||
Skin regeneration in adult axolotls: a blueprint for scar-free healing in vertebrates | Q27307724 | ||
Retinoic acid regulates morphogenesis and patterning of posterior foregut derivatives | Q28511721 | ||
Anatomic demarcation by positional variation in fibroblast gene expression programs | Q33253243 | ||
Cell differentiation and cell fate during urodele tail and limb regeneration | Q34268911 | ||
A stepwise model system for limb regeneration | Q34319889 | ||
Nerve dependency of regeneration: the role of Distal-less and FGF signaling in amphibian limb regeneration | Q34410025 | ||
Identification of a novel retinoic acid receptor in regenerative tissues of the newt | Q35530107 | ||
Studies on the mechanism of retinoid-induced pattern duplications in the early chick limb bud: temporal and spatial aspects | Q36213820 | ||
Retinoic acid, local cell-cell interactions, and pattern formation in vertebrate limbs | Q36312884 | ||
Limb regeneration in higher vertebrates: developing a roadmap | Q36322749 | ||
Proximodistal identity during vertebrate limb regeneration is regulated by Meis homeodomain proteins | Q38322021 | ||
Identification and expression pattern of a second isoform of the newt alpha retinoic acid receptor | Q40535459 | ||
Re-examining jaw regeneration in urodeles: what have we learnt? | Q41172673 | ||
Conversion by retinoic acid of anterior cells into ZPA cells in the chick wing bud. | Q41179763 | ||
Delta retinoic acid receptor isoform delta 1 is distinguished by its exceptional N-terminal sequence and abundance in the limb regeneration blastema | Q42615795 | ||
Nerve independent limb induction in axolotls | Q44979052 | ||
Analysis of Hox-4.5 and Hox-3.6 expression during newt limb regeneration: differential regulation of paralogous Hox genes suggest different roles for members of different Hox clusters | Q48127502 | ||
Retinoic acid induces polarizing activity but is unlikely to be a morphogen in the chick limb bud. | Q48232725 | ||
Trophic functions of the neuron. VI. Other trophic systems. Neurotrophic control of limb regeneration in the newt | Q48570693 | ||
Nerve-induced ectopic limb blastemas in the Axolotl are equivalent to amputation-induced blastemas. | Q51974251 | ||
The effect of retinoic acid on positional memory in the dorsoventral axis of regenerating axolotl limbs. | Q52107244 | ||
Retinoic acid modifies positional memory in the anteroposterior axis of regenerating axolotl limbs. | Q52141243 | ||
Endogenous distribution of retinoids during normal development and teratogenesis in the mouse embryo. | Q52209713 | ||
Limbs generated at site of tail amputation in marbled balloon frog after vitamin A treatment. | Q52233143 | ||
Intercalary regeneration around the circumference of the cockroach leg | Q52430475 | ||
Pattern regulation in epimorphic fields | Q52435489 | ||
Positional identity of adult stem cells in salamander limb regeneration | Q59595267 | ||
Supernumerary limbs in amphibians: Experimental production in Notophthalmus viridescens and a new interpretation of their formation | Q67450999 | ||
Retinoic acid and chick limb bud development | Q68326368 | ||
Teratogenic effects of retinoic acid and dimethylsulfoxide on embryonic chick wing and somite | Q68524595 | ||
Retinoic-acid-induced pattern completion in regenerating double anterior limbs of urodeles | Q70677726 | ||
The effect of vitamin A on the regenerating axolotl limb | Q71147231 | ||
Activation of a single retinoic acid receptor isoform mediates proximodistal respecification | Q71527092 | ||
Distal regeneration and symmetry | Q81021435 | ||
Axial characteristics of nerve induced supernumerary limbs in the axolotl | Q89558868 | ||
P433 | issue | 1 | |
P304 | page(s) | 27-34 | |
P577 | publication date | 2014-02-16 | |
P1433 | published in | Regeneration (Oxford, England) | Q27725418 |
P1476 | title | Position-specific induction of ectopic limbs in non-regenerating blastemas on axolotl forelimbs | |
P478 | volume | 1 |
Q45152712 | Cartilage and bone cells do not participate in skeletal regeneration in Ambystoma mexicanum limbs. |
Q98948090 | Characterizing the regenerative capacity and growth patterns of the Texas blind salamander (Eurycea rathbuni) |
Q91543679 | FGF, BMP, and RA signaling are sufficient for the induction of complete limb regeneration from non-regenerating wounds on Ambystoma mexicanum limbs |
Q35849238 | Positional plasticity in regenerating Amybstoma mexicanum limbs is associated with cell proliferation and pathways of cellular differentiation. |
Q60939561 | Regenerative Models for the Integration and Regeneration of Head Skeletal Tissues |
Q35553244 | Regulation of Axolotl (Ambystoma mexicanum) Limb Blastema Cell Proliferation by Nerves and BMP2 in Organotypic Slice Culture |
Q46164942 | Regulation of regeneration by Heparan Sulfate Proteoglycans in the Extracellular Matrix. |
Q89987947 | Remembering where we are: Positional information in salamander limb regeneration |
Q28084759 | The axolotl limb blastema: cellular and molecular mechanisms driving blastema formation and limb regeneration in tetrapods |
Q26738615 | The relationship between growth and pattern formation |
Q38215734 | Understanding positional cues in salamander limb regeneration: implications for optimizing cell-based regenerative therapies |
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