Papers associated with prrx1

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	Inducible and tissue-specific cell labeling in Cre-ERT2 transgenic Xenopus lines., Lin TY, Taniguchi-Sugiura Y, Murawala P, Hermann S, Tanaka EM., Dev Growth Differ. June 1, 2022; 64 (5): 243-253.
	Secreted inhibitors drive the loss of regeneration competence in Xenopus limbs., Aztekin C, Hiscock TW, Gurdon J, Jullien J, Marioni J, Simons BD., Development. June 1, 2021; 148 (11):
	Fibroblast dedifferentiation as a determinant of successful regeneration., Lin TY, Gerber T, Taniguchi-Sugiura Y, Murawala P, Hermann S, Grosser L, Shibata E, Treutlein B, Tanaka EM., Dev Cell. May 17, 2021; 56 (10): 1541-1551.e6.
	Environmental Oxygen Exposure Allows for the Evolution of Interdigital Cell Death in Limb Patterning., Cordeiro IR, Kabashima K, Ochi H, Munakata K, Nishimori C, Laslo M, Hanken J, Tanaka M., Dev Cell. July 22, 2019; 50 (2): 155-166.e4.
	Broad applicability of a streamlined ethyl cinnamate-based clearing procedure., Masselink W, Reumann D, Murawala P, Pasierbek P, Taniguchi Y, Bonnay F, Meixner K, Knoblich JA, Tanaka EM, Tanaka EM., Development. February 1, 2019; 146 (3):
	Melanocortin Receptor 4 Signaling Regulates Vertebrate Limb Regeneration., Zhang M, Chen Y, Xu H, Yang L, Yuan F, Li L, Xu Y, Xu Y, Chen Y, Zhang C, Lin G., Dev Cell. August 20, 2018; 46 (4): 397-409.e5.
	Skin regeneration of amphibians: A novel model for skin regeneration as adults., Yokoyama H, Kudo N, Todate M, Shimada Y, Suzuki M, Suzuki M, Tamura K, Tamura K., Dev Growth Differ. August 1, 2018; 60 (6): 316-325.
	Visualization of Gene Expression Patterns by In Situ Hybridization on Early Stages of Development of Xenopus laevis., El-Hodiri HM, Kelly LE., Methods Mol Biol. January 1, 2018; 1797 325-335.
	Cells from subcutaneous tissues contribute to scarless skin regeneration in Xenopus laevis froglets., Otsuka-Yamaguchi R, Kawasumi-Kita A, Kudo N, Izutsu Y, Tamura K, Yokoyama H., Dev Dyn. August 1, 2017; 246 (8): 585-597.
	Conservatism and variability of gene expression profiles among homeologous transcription factors in Xenopus laevis., Watanabe M, Yasuoka Y, Mawaribuchi S, Kuretani A, Ito M, Kondo M, Ochi H, Ogino H, Fukui A, Taira M, Kinoshita T., Dev Biol. June 15, 2017; 426 (2): 301-324.
	[Xenopus laevis peroxiredoxins: Gene expression during development and characterization of the enzymes]., Sharapov MG, Novoselov VI, Ravin VK., Mol Biol (Mosk). January 1, 2016; 50 (2): 336-46.
	Epigenetic modification maintains intrinsic limb-cell identity in Xenopus limb bud regeneration., Hayashi S, Kawaguchi A, Uchiyama I, Kawasumi-Kita A, Kobayashi T, Nishide H, Tsutsumi R, Tsuru K, Inoue T, Ogino H, Agata K, Tamura K, Yokoyama H., Dev Biol. October 15, 2015; 406 (2): 271-82.
	Regeneration inducers in limb regeneration., Satoh A, Mitogawa K, Makanae A., Dev Growth Differ. August 1, 2015; 57 (6): 421-429.
	A gene expression map of the larval Xenopus laevis head reveals developmental changes underlying the evolution of new skeletal elements., Square T, Jandzik D, Cattell M, Coe A, Doherty J, Medeiros DM., Dev Biol. January 15, 2015; 397 (2): 293-304.
	Evolutionarily conserved morphogenetic movements at the vertebrate head-trunk interface coordinate the transport and assembly of hypopharyngeal structures., Lours-Calet C, Alvares LE, El-Hanfy AS, Gandesha S, Walters EH, Sobreira DR, Wotton KR, Jorge EC, Lawson JA, Kelsey Lewis A, Tada M, Sharpe C, Kardon G, Dietrich S., Dev Biol. June 15, 2014; 390 (2): 231-46.
	Ectopic blastema induction by nerve deviation and skin wounding: a new regeneration model in Xenopus laevis., Mitogawa K, Hirata A, Moriyasu M, Makanae A, Miura S, Endo T, Satoh A., Regeneration (Oxf). May 28, 2014; 1 (2): 26-36.
	Wound healing in mammals and amphibians: toward limb regeneration in mammals., Kawasumi A, Sagawa N, Hayashi S, Yokoyama H, Tamura K., Curr Top Microbiol Immunol. January 1, 2013; 367 33-49.
	Prx-1 expression in Xenopus laevis scarless skin-wound healing and its resemblance to epimorphic regeneration., Yokoyama H, Maruoka T, Aruga A, Amano T, Ohgo S, Shiroishi T, Tamura K., J Invest Dermatol. December 1, 2011; 131 (12): 2477-85.
	Different requirement for Wnt/β-catenin signaling in limb regeneration of larval and adult Xenopus., Yokoyama H, Maruoka T, Ochi H, Aruga A, Ohgo S, Ogino H, Tamura K, Tamura K., PLoS One. January 1, 2011; 6 (7): e21721.
	Transgenic Xenopus with prx1 limb enhancer reveals crucial contribution of MEK/ERK and PI3K/AKT pathways in blastema formation during limb regeneration., Suzuki M, Satoh A, Ide H, Tamura K, Tamura K., Dev Biol. April 15, 2007; 304 (2): 675-86.
	Limb regeneration in Xenopus laevis froglet., Suzuki M, Suzuki M, Yakushiji N, Nakada Y, Satoh A, Ide H, Tamura K, Tamura K., ScientificWorldJournal. May 12, 2006; 6 Suppl 1 26-37.
	Nerve-dependent and -independent events in blastema formation during Xenopus froglet limb regeneration., Suzuki M, Satoh A, Ide H, Tamura K, Tamura K., Dev Biol. October 1, 2005; 286 (1): 361-75.
	Inducible control of tissue-specific transgene expression in Xenopus tropicalis transgenic lines., Chae J, Zimmerman LB, Grainger RM., Mech Dev. September 1, 2002; 117 (1-2): 235-41.
	Cloning and expression pattern of Xenopus prx-1 (Xprx-1) during embryonic development., Takahashi S, Uochi T, Kawakami Y, Nohno T, Yokota C, Kinoshita K, Asashima M., Dev Growth Differ. February 1, 1998; 40 (1): 97-104.

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