Adler, C. E. and A. Sánchez Alvarado. 2015. Types or states? Cellular dynamics and regenerative potential. Trends Cell Biol. 25: 687–696.
PubMed Link
Bode, H. 2011. Axis formation in hydra. Annu. Rev. Genet. 45: 105–117.
PubMed Link
Bode, H. R. 2009. Axial patterning in Hydra. Cold Spring Harbor Persp. Biol. 1: a000463.
PubMed Link
Bode, H. R. 2012. The head organizer in Hydra. Int. J. Dev. Biol. 56: 473–478.
PubMed Link
Bode, P. M. and H. R. Bode. 1984. Patterning in Hydra. In G. M. Malacinski and S. V. Bryant (eds.), Pattern Formation. Macmillan, New York, pp. 213–241.
Borowiak, M., A. N. Garratt, T. Wüstefeld, M. Strehle, C. Trautwein and C. Birchmeier. 2004. Met provides essential signals for liver regeneration. Proc. Natl. Acad. Sci. USA 101: 10608–10613.
PubMed Link
Bridge, D. M., N. A. Stover and R. E. Steele. 2000. Expression of a novel receptor tyrosine kinase gene and a paired-like homeobox gene provides evidence of differences in patterning at the oral and aboral ends of hydra. Dev. Biol. 220: 253–262.
PubMed Link
Brockes, J. P. and A. Kumar. 2002. Plasticity and reprogramming of differentiated cells in amphibian regeneration. Nature Rev. Mol. Cell Biol. 3: 566–574.
PubMed Link
Broun, M. and H. R. Bode. 2002. Characterization of the head organizer in hydra. Development 129: 875–884.
PubMed Link
Broun, M., L. Gee, B. Reinhardt and H. R. Bode. 2005. Formation of the head organizer in hydra involves the canonical Wnt pathway. Development 132: 2907–2916.
PubMed Link
Broun, M., S. Sokol and H. R. Bode. 1999. Cngsc, a homologue of goosecoid, participates in the patterning of the head and is expressed in the organizer region of Hydra. Development 126: 5245–5254.
PubMed Link
Browne, E. N. 1909. The production of small hydranths in hydra by insertion of small grafts. J. Exp. Zool. 7: 1–23.
Link
Bryant, S. 1999. A regeneration renaissance. Semin. Cell Dev. Biol. 10: 313.
Butler, E. G. 1935. Studies on limb regeneration in X-rayed Ambystoma larvae. Anat. Rec. 62: 295–307.
Buzgariu, W., M. Crescenzi and B. Galliot. 2014. Robust G2 pausing of adult stem cells in Hydra. Differentiation 87: 83–99.
PubMed Link
Buzgariu, W., S. Al Haddad, S. Tomczyk, Y. Wenger and B. Galliot. 2015. Multi-functionality and plasticity characterize epithelial cells in Hydra. Tissue Barriers 3: e1068908.
PubMed Link
Campbell, R. D. 1967a. Tissue dynamics of steady state growth in Hydra littoralis. I. Patterns of cell division. Dev. Biol. 15: 487–502.
PubMed Link
Campbell, R. D. 1967b. Tissue dynamics of steady state growth in Hydra littoralis. II. Patterns of tissue movement. J. Morphol. 121: 19–28.
PubMed Link
Chera, S. and 7 others. 2009. Apoptotic cells provide an unexpected source of Wnt3 signaling to drive Hydra head regeneration. Dev. Cell 17: 279–289.
PubMed Link
Chernoff, E. A. G. and D. Stocum. 1995. Developmental aspects of spinal cord and limb regeneration. Dev. Growth Diff. 37: 133–147.
Link
Child. C. M. 1905. Studies on regulation. VII. Further experiments on form regulation in Leptoplana. J. Exp. Zool. 2: 253–285.
Crawford, K. and D. L. Stocum. 1988. Retinoic acid proximalizes level-specific properties responsible for intercalary regeneration in axolotl limbs. Development 104: 703–712.
PubMed Link
Curado, S. and D. Y. Stainier. 2006. The HeArt of regeneration. Cell 127: 462–464.
PubMed Link
Ding, B. S. and 12 others. 2010. Inductive angiocrine signals from sinusoidal endothelium are required for liver regeneration. Nature 468: 310–315.
PubMed Link
Dinsmore, C. E. (ed.) 1991. A History of Regeneration Research: Milestones in the Evolution of a Science. Cambridge University Press, New York.
Drachman, D. B. and Singer, M. 1971. Regeneration in botulinum-poisoned forelimbs of the newt, Triturus. Exp. Neurol. 32: 1–11.
PubMed Link
Endo, T., S. V. Bryant and D. M. Gardiner. 2004. A stepwise model system for limb regeneration. Dev. Biol. 270: 135–145.
PubMed Link
Fausto, N. and J. S. Campbell. 2005. The role of hepatocytes and oval cells in liver regeneration. Mech. Dev. 120: 117–130.
PubMed Link
Fernando, W. A. and 7 others. 2011.Wound healing and blastema formation in regenerating digit tips of adult mice. Dev. Biol. 350: 301–310.
PubMed Link
Gee, L. and 6 others. 2010. Beta-catenin plays a central role in setting up the head organizer in Hydra. Dev. Biol. 340: 116–124.
PubMed Link
Geng, J. and 8 others. 2015. Identification of the orphan gene Prod1 in basal and other salamander families. Evodevo 6: 9.
PubMed Link
Gentile, L., F. Cebrià, and K. Bartscherer. 2011. The planarian flatworm: An in vivo model for stem cell biology and nervous system regeneration. Disease Models Mech. 4: 12–19.
PubMed Link
Gierer, A. and 7 others. 1972. Regeneration of Hydra from reaggregated cells. Nature New Biol. 239: 98–101.
PubMed Link
Goss, R. J. 1969. Principles of Regeneration. Academic Press, New York.
Grens, A., H. Shimizu, S. A. Hoffmeister, H. R. Bode and T. Fijisawa. 1999. The novel signal peptides, pedibin and Hym-346, lower positional value thereby enhancing foot formation in hydra. Development 126: 517–524.
PubMed Link
Gupta, V. and K. D. Poss. 2012. Clonally dominant cardiomyocytes direct heart morphogenesis. Nature 484: 479–84.
PubMed Link
Gurley, K. A., J. C. Rink and A. Sánchez Alvarado. 2008. Beta-catenin defines head versus tail identity during planarian regeneration and homeostasis. Science 319: 323–327.
PubMed Link
Han, M. J., J. Y. An and W. S. Kim. 2001. Expression patterns of Fgf-8 during development and limb regeneration of the axolotl. Dev. Dyn. 220: 40–48.
PubMed Link
Harafuji, N., T. Takahashi, M. Hatta, H. Tezuka, F. Morishita, O. Matsushima and T. Fujisawa. 2001. Enhancement of foot formation in Hydra by a novel epitheliopeptide, Hym-323. Development 128: 437–446.
PubMed Link
Hayashi, T. and 6 others. 2010. Single-cell gene profiling of planarian stem cells using fluorescent activated cell sorting and its “index sorting” function for stem cell research. Dev. Growth Differ. 52: 131–144.
PubMed Link
Herlands, R. and H. Bode. 1974. The influence of tissue polarity on nematocyte migration in Hydra attenuata. Dev. Biol. 40: 323–339.
PubMed Link
Hicklin, J. and L. Wolpert. 1973. Positional information and pattern regulation in hydra: Formation of the foot end. J. Embryol. Exp. Morphol. 30: 727–740.
PubMed Link
Higgins, G. M. and R. M. Anderson. 1931. Experimental pathology of the liver. I. Restoration of the liver of the white rat following partial surgical removal. Arch. Pathol. 12: 186–202.
Hill, E. M. and C. P. Petersen. 2015. Wnt/Notum spatial feedback inhibition controls neoblast differentiation to regulate reversible growth of the planarian brain. Development 142: 4217–4229.
PubMed Link
Hobmayer, B. and 7 others. 2000. WNT signalling molecules act in axis formation in the diploblastic metazoan Hydra. Nature 407: 186–189.
PubMed Link [23]
Huang, S. M. and 35 others. 2009. Tankyrase inhibition stabilizes axin and antagonizes Wnt signalling. Nature 461: 614–620.
PubMed Link
Huang, W. and 8 others. 2006. Nuclear receptor-dependent bile acid signaling is required for normal liver regeneration. Science 312: 233–236.
PubMed Link
Huh, C.-G., V. M. Factor, A. Sánchez, K. Uchida, E. A. Conner and S. S. Thorgeirsson. 2004. Hepatocyte growth factor/c-met signaling pathway is required for efficient liver regeneration and repair. Proc. Natl. Acad. Sci. USA 101: 4477–4482.
PubMed Link
Iglesias, M., J. L. Gomez-Skarmeta, E. Saló and T. Adell. 2008. Silencing of Smed-b-catenin1 generates radial-like hypercephalized planarians. Development 135: 1215–1221.
PubMed Link
Kawakami, Y. and 6 others. 2006. Wnt/b-catenin signaling regulates vertebrate limb regeneration. Genes Dev. 20: 3232–3237.
PubMed Link
Kikuchi, K. and 9 others. 2010. Primary contribution to zebrafish heart regeneration by gata4(+) cardiomyocytes. Nature 464: 601–605.
PubMed Link
Knight, B., V. B. Matthews, J. K. Olynyk and G. C. Yeoh. 2005. Jekyll and Hyde: Evolving perspectives on the function and potential of the adult liver progenitor (oval) cell. BioEssays 27: 1192–1202.
PubMed Link
Knopf, F. and 10 others. 2011. Bone regenerates via dedifferentiation of osteoblasts in the zebrafish fin. Dev. Cell 20: 713–724.
PubMed Link
Kragl, M., D. Knapp, E. Nacu, S. Khattak, M. Maden, H. H. Epperlein and E. M. Tanaka. 2009. Cells keep a memory of their tissue origin during axolotl limb regeneration. Nature 460: 60–65.
PubMed Link
Kumar, A., J. P. Delgado, P. B. Gates, G. Neville, A. Forge and J. P. Brockes. 2011. The aneurogenic limb identifies developmental cell interactions underlying vertebrate limb regeneration. Proc. Natl. Acad. Sci. USA 108: 13588–13593.
PubMed Link
Kumar, A., P. B. Gates and J. P. Brockes. 2007. Positional identity of adult stem cells in salamander limb regeneration. Comptes Rendus Biologies 330: 485–490.
PubMed Link
Lehoczky, J. A., B. Robert and C. J. Tabin. 2011. Mouse digit tip regeneration is mediated by fate-restricted progenitor cells. Proc. Natl. Acad. Sci. USA 108: 20609–20614.
PubMed Link
Lengfeld, T. and 9 others. 2009. Multiple Wnts are involved in Hydra organizer formation and regeneration. Dev. Biol. 330: 186–199.
PubMed Link
Lenhoff, H. M. 1991. Ethel Browne Harvey, Hans Spemann, and the discovery of the organizer phenomenon. Biol. Bull. 181: 72–80.
Lepilina, A. and 6 others. 2006. A dynamic epicardial injury response supports progenitor cell activity during zebrafish heart regeneration. Cell 127, 607–619.
PubMed Link
Li, Q., H. Yang and T. P. Zhong. 2015. Regeneration across metazoan phylogeny: lessons from model organisms. J. Genet. Genomics 42: 57–70.
PubMed Link
Liu, S. Y. and 9 others. 2013. Reactivating head regrowth in a regeneration-deficient planarian species. Nature 500: 81–84.
PubMed Link
MacWilliams, H. K. 1983a. Hydra transplantation phenomena and the mechanism of hydra head regeneration. I. Properties of head inhibition. Dev. Biol. 96: 217–238.
PubMed Link
MacWilliams, H. K. 1983b. Hydra transplantation phenomena and the mechanism of hydra head regeneration. II. Properties of head activation. Dev. Biol. 96: 239–257.
PubMed Link
MacWilliams, H. K., F. C. Kafatos and W. H. Bossert. 1970. The feedback inhibition of basal disk regeneration in Hydra has a continuously variable intensity. Dev. Biol. 23: 380–398.
PubMed Link
Maden, M. 1983. The effect of vitamin A on the regenerating axolotl limb. J. Embryol. Exp. Morph. 77: 273–95.
PubMed Link
Makanae, A., K. Mitogawa and A. Satoh. 2014. Co-operative BMP and FGF signaling inputs convert skin wound healing to limb formation in urodele amphibians. Dev. Biol. 396: 57–66.
PubMed Link
Mars, W. M., M. L. Liu, R. P. Kitson, R. H. Goldfarb, M. K. Gabauer, G. K. Michalopoulos. 1995. Immediate early detection of urokinase receptor after partial hepatectomy and its implications for initiation of liver regeneration. Hepatology 21: 1695–1701.
PubMed Link
McCusker, C. and D. M. Gardiner. 2011. The axolotl model for regeneration and aging research: A mini-review. Gerontology 57: 565–571.
PubMed Link
McCusker, C. D. and D. M. Gardiner. 2014. Understanding positional cues in salamander limb regeneration: implications for optimizing cell-based regenerative therapies. Disease Models Mech. 7: 593–599.
PubMed Link
McCusker, C., J. Lehrberg, D. Gardiner. 2014. Position-specific induction of ectopic limbs in non-regenerating blastemas on axolotl forelimbs. Regeneration 1: 27–34.
PubMed Link
Meinhardt, H. 1993. A model for pattern formation of hypostome, tentacles, and foot in hydra: How to form structures close to each other, how to form them at a distance. Dev. Biol. 157: 321–333.
PubMed Link
Mescher, A. L. and R. A. Tassava. 1975. Denervation effects on DNA replication and mitosis during the initiation of limb regeneration in adult newts. Dev. Biol. 44: 187–197.
PubMed Link
Michalopoulos, G. K. and M. C. DeFrances. 1997. Liver regeneration. Science 276: 60–66.
PubMed Link
Moolten, F. L. and N. L. Bucher. 1967. Regeneration of rat liver: Transfer of humoral agent by cross circulation. Science 158: 272–274.
PubMed Link
Morais Da Silva, S., P. B. Gates and J. P. Brockes. 2002. The newt ortholog of CD59 is implicated in proximodistal identity during amphibian limb regeneration. Dev. Cell 3: 547–555.
PubMed Link
Morgan, T. H. 1901. Regeneration. New York: Macmillan.
Morrison, J. I., S. Lööf, S. P. He and A. Simon. 2006. Salamander limb regeneration involves the activation of a multipotent skeletal muscle satellite cell population. J. Cell Biol. 172: 433–440.
PubMed Link
Mullen, L. M., S. V. Bryant, M. A. Torok, B. Blumberg and D. M. Gardiner. 1996. Nerve dependency of regeneration: The role of Distal-less and FGF signaling in amphibian limb regeneration. Development 122: 3487–3497.
PubMed Link
Nacu, E., and E. M. Tanaka. 2011. Limb regeneration: A new development? Annu. Rev. Cell Dev. Biol. 27: 409–440.
PubMed Link
Newman, S. A. 1974. The interaction of the organizing regions of hydra and its possible relation to the role of the cut end of regeneration. J. Embryol. Exp. Morphol. 31: 541–555.
PubMed Link
Newmark, P. A. and A. Sánchez Alvarado. 2000. Bromodeoxyuridine specifically labels the regenerative stem cells of planarians. Dev. Biol. 220: 142–153.
PubMed Link
Niazi, I. A., M. J. Pescitelli and D. L. Stocum. 1985. Stage-dependent effects of retinoic acid on regenerating urodele limbs. W. Roux’ Archiv f Entwicklungsmechanik. 194: 355–363.
Link
Olthoff, K. M. 2003. Hepatic regeneration in living donor liver transplantation. Liver Transpl. 9: S35–S41.
PubMed Link
Pallas, P. S. 1766. Miscellanea zoologica, quibus novae imprimis atque obscurae animalium species Hagae Comitum. Apud Pterum van Cleef, Holland.
Paranjpe, S., W. C. Bowen, A. W. Bell, K. Nejak-Bowen, J. H. Luo and G. K. Michalopoulos. 2007. Cell cycle effects resulting from inhibition of hepatocyte growth factor and its receptor c-Met in regenerating rat livers by RNA interference. Hepatology 45: 1471–1477.
PubMed Link
Pascher, A. and 9 others. 2002. Donor evaluation, donor risks, donor outcome, and donor quality of life in adult-to-adult living donor liver transplantation. Liver Transp. 8: 829–837.
PubMed Link
Pearson, B. J. and Sánchez Alvarado, A. 2010. A planarian p53 homolog regulates proliferation and self-renewal in adult stem cell lineages. Development 137: 213–221.
PubMed Link
Pellettieri, J. and A. Sánchez Alvarado. 2007. Cell turnover and adult tissue homeostasis: From humans to planarians. Annu. Rev. Genet. 41: 83–105.
PubMed Link
Petersen, C. P. and P. W. Reddien. 2008. Smed-beta catenin-1 is required for anteroposterior blastema polarity in planarian regeneration. Science 319: 327–330.
PubMed Link
Petersen, C. P. and P. W. Reddien. 2011. Polarized notum activation at wounds inhibits Wnt function to promote planarian head regeneration. Science 332: 852–855.
PubMed Link
Porrello, E. R. and 6 others. 2011. Transient regenerative potential of the neonatal mouse heart. Science 331: 1078e1080.
PubMed Link
Poss, K. D., L. G. Wilson and M. T. Keating. 2002. Heart regeneration in zebrafish. Science 298: 2188–2190.
PubMed Link
Reddien, P. W. 2011. Constitutive gene expression and the specification of tissue identity in adult planarian biology. Trends Genet. 27: 277–285.
PubMed Link
Reddien, P. W. 2013. Specialized progenitors and regeneration. Development 140: 951–957.
PubMed Link
Reddien, P. W., N. J. Oviedo, J. R. Jennings, J. C. Jenkin and A. Sánchez Alvarado. 2005. SMEDWI-2 is a PIWI-like protein that regulates planarian stem cells. Science 310: 1327–1330.
PubMed Link
Riehle, K. J., Y. Y. Dan, J. S. Campbell and N. Fausto. 2011. New concepts in liver regeneration. J. Gastroenterol. Hepatol. 26 Suppl. 1: 203–212.
PubMed Link
Rinkevich, Y., P. Lindau, H. Ueno, M. T. Longaker and I. L. Weissman. 2011. Germ-layer and lineage-restricted stem/progenitors regenerate the mouse digit tip. Nature 476: 409–413.
PubMed Link
Roberts-Galbraith, R. H. and P. A. Newmark. 2015. On the organ trail: Insights into organ regeneration in the planarian. Curr. Opin. Genet. Dev. 32: 37–46.
PubMed Link
Sallin, P., A. S. de Preux Charles, V, Duruz, C. Pfefferli and A. Jaźwińska. 2015. A dual epimorphic and compensatory mode of heart regeneration in zebrafish. Dev. Biol. 399: 27–40.
PubMed Link
Satoh, A., K. Mitogawa and A. Makanae. 2015. Regeneration inducers in limb regeneration. Dev. Growth Differ. 57: 421–429.
PubMed Link
Schiliro, D. M., B. J. Forman and L. C. Javois. 1999. Interactions between the foot and bud patterning systems in Hydra vulgaris. Dev. Biol. 209: 399–408.
PubMed Link
Schmidt, T. and H. C. Schaller. 1976. Evidence for a foot-inhibiting substance in hydra. Cell Diff. 5: 151–159.
PubMed Link
Senyo, S. E.and 9 others. 2013. Mammalian heart renewal by pre-existing cardiomyocytes. Nature 493: 433e436.
PubMed Link
Shi, W., Z. Fang, L. Li and L. Luo. 2015. Using zebrafish as the model organism to understand organ regeneration. Sci. China Life Sci. 58: 343–351.
PubMed Link
Shibata, N. and 11 others. 2012. Comprehensive gene expression analyses in pluripotent stem cells of a planarian, Dugesia japonica. Int. J. Dev. Biol. 56: 93–102.
PubMed Link
Shostak, S. 1974. Bipolar inhibitory gradients’ influence on the budding region of Hydra viridis. Am. Zool. 14: 619–632.
Sidman, R. L. and M. Singer. 1951. Stimulation of forelimb regeneration in the newt, Triturus viridescens, by a sensory nerve supply isolated from the central nervous system. Am. J. Physiol. 165: 257–260.
PubMed Link
Sidman, R. L. and M. Singer. 1960. Limb regeneration without innervation of the apical epidermis in the adult newt, Triturus. J. Exp. Zool. 144: 105–110.
Siebert, S., S. Thomsen, M. M. Reiner and T. C. G. Bosch. 2005. Control of foot differentiation in Hydra: Phylogenetic footprinting indicates interactions of head, bud, and foot patterning systems. Mech. Dev. 122: 998–1007.
PubMed Link
Sikes, J. M. and P. A. Newmark. 2013. Restoration of anterior regeneration in a planarian with limited regenerative ability. Nature 500: 77–80.
PubMed Link
Simon, H. G., C. Nelson, D. Goff, E. Laufer, B. A. Morgan and C. Tabin. 1995. The differential expression of myogenic regulatory genes and msx-1 during dedifferentiation and redifferentiation of regenerating amphibian limbs. Dev. Dyn. 202: 1–12.
PubMed Link
Singer, M. 1946. The nervous system and regeneration of the forelimb of adult Triturus; the stimulating action of a regenerated motor supply. J. Exp. Zool. 101: 221–239.
Singer, M. 1952. The influence of the nerve in regeneration of the amphibian extremity. Quart. Rev. Biol. 27: 169–200.
Singer, M. 1954. Induction of regeneration of the forelimb of the postmetamorphic frog by augmentation of the nerve supply. J. Exp. Zool. 126: 419–472.
Singer, M. and J. D. Caston. 1972. Neurotrophic dependence of macromolecular synthesis in the early limb regenerate of the newt, Triturus. J. Embryol. Exp. Morphol. 28: 1–11.
PubMed Link
Singer, M. and L. Craven. 1948.The growth and morphogenesis of the regenerating forelimb of adult Triturus following denervation at various stages of development. J. Exp. Zool. 108: 279–308.
PubMed Link
Singh, B. N., N. Koyano-Nakagawa, A. Donaldson, C. V. Weaver, M. G. Garry and D. J. Garry. 2015. Hedgehog signaling during appendage development and regeneration. Genes (Basel). 6: 417–435.
PubMed Link
Singh, S. P., J. E. Holdway and K. D. Poss. 2012. Regeneration of amputated zebrafish fin rays from de novo osteoblasts. Dev. Cell 22: 879–886.
PubMed Link
Steele, R. 2002. Developmental signaling in Hydra: What does it take to build a “simple” animal? Dev. Biol. 248: 199–219.
PubMed Link
Stewart, S. and K. Stankunas. 2012. Limited dedifferentiation provides replacement tissue during zebrafish fin regeneration. Dev. Biol. 365: 339–349.
PubMed Link
Stocum, D. L. 1979. Stages of forelimb regeneration in Ambystoma maculatum. J. Exp. Zool. 209: 395–416.
PubMed Link
Stocum, D. L. 2011. The role of peripheral nerves in urodele limb regeneration. Eur. J. Neurosci. 34: 908–916.
PubMed Link
Stoick-Cooper, C. L. and 6 others. 2007. Distinct Wnt signaling pathways have opposing roles in appendage regeneration. Development 134: 479–489.
PubMed Link
Sunderland, M. E. 2010. Regeneration: Thomas Hunt Morgan’s window into development. J. Hist. Biol. 43: 325–361.
PubMed Link
Takano, J. and T. Sugiyama. 1983. Genetic analysis of developmental mechanisms in hydra. VIII. Head activation and head inhibition potentials of a slow-budding strain (L4). J. Embryol. Exp. Morphol. 78: 141–168.
PubMed Link
Tanaka, E. and P. W. Reddien. 2011. The cellular basis for animal regeneration. Dev. Cell 21: 172–185.
PubMed Link
Taub, R. 2004. Liver regeneration: From myth to mechanism. Nature Rev. Mol. Cell Biol. 5: 836–847.
PubMed Link
Technau, U. and 7 others. 2000. Parameters of self-organization in Hydra aggregates. Proc. Natl. Acad. Sci. USA 97(22): 12127–12131.
PubMed Link
Todd, T. J. 1823. On the process of reproduction of the members of the aquatic salamander. Quart. J. Sci. Lit. Arts 16: 84–96.
Umesono,Y. and others. 2013. The molecular logic for planarian regeneration along the anterior-posterior axis. Nature 500: 73–76.
PubMed Link
van Wolfswinkel, J. C., D. E. Wager and P. W. Reddien. 2014. Single-cell analysis reveals functionally distinct classes within the planarian stem cell compartment. Cell Stem Cell 15: 326–339.
PubMed Link
Wagner D. E., I. E. Wang and P. W. Reddien. 2011. Clonogenic neoblasts are pluripotent adult stem cells that underlie planarian regeneration. Science 332: 811–816.
PubMed Link
Wehner, D. and 11 others. 2014. Wnt/b-catenin signaling defines organizing centers that orchestrate growth and differentiation of the regenerating zebrafish caudal fin. Cell Rep. 6: 467–481.
PubMed Link
Wehner, D. and Weidinger G. 2015. Signaling networks organizing regenerative growth of the zebrafish fin. Trends Genet. 31: 336–343.
PubMed Link
White, P., J. E. Brestelli, K. H. Kaestner and L. E. Greenbaum. 2005. Identification of transcriptional networks during liver regeneration. J. Biol. Chem. 280: 3715–3722.
PubMed Link
Wilby, O. K. and G. Webster. 1970. Experimental studies on axial polarity in hydra. J. Embryol. Exp. Morphol. 24: 595–613.
PubMed Link
Wurtzel, O., L. E. Cote, A. Poirier, R. Satija, A. Regev and P. W. Reddien. 2015. A generic and cell-type-specific wound response precedes regeneration in planarians. Dev. Cell 35: 632–645.
PubMed Link
Yin, V. P. and K. D. Poss. 2008. New regulators of vertebrate appendage regeneration. Curr. Opin. Genet. Dev. 18: 381–386.
PubMed Link
Zhang, R. and 11 others. 2013. In vivo cardiac reprogramming contributes to zebrafish heart regeneration. Nature 498: 497–501.
PubMed Link
Zhong Z., L. Yang, Y. E. Zhang, Y. Xue and S. He. 2016. Correlated expression of retrocopies and parental genes in zebrafish. Mol. Genet. Genomics 291: 723–737.
PubMed Link