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	Evolutionary origin of Hoxc13-dependent skin appendages in amphibians., Carron M., Nat Commun. March 18, 2024; 15 (1): 2328.
	Expanding the Genetic Code of Xenopus laevis Embryos., Brown W., ACS Chem Biol. February 16, 2024; 19 (2): 516-525.
	OTUD3: A Lys6 and Lys63 specific deubiquitinase in early vertebrate development., Job F., Biochim Biophys Acta Gene Regul Mech. March 1, 2023; 1866 (1): 194901.
	Developmental and Injury-induced Changes in DNA Methylation in Regenerative versus Non-regenerative Regions of the Vertebrate Central Nervous System., Reverdatto S., BMC Genomics. January 4, 2022; 23 (1): 2.
	Degenerative Osteoarthropathy in Laboratory Housed Xenopus (Silurana) tropicalis., Zhang M., Comp Med. December 1, 2021; 71 (6): 512-520.
	Cooperation behavior of fore- And hindlimbs during jumping in Rana dybowskii and Xenopus laevis., Li M., Ecol Evol. May 3, 2021; 11 (12): 7569-7578.
	Comparative gene expression profiling between optic nerve and spinal cord injury in Xenopus laevis reveals a core set of genes inherent in successful regeneration of vertebrate central nervous system axons., Belrose JL., BMC Genomics. August 5, 2020; 21 (1): 540.
	Compound heterozygous alterations in intraflagellar transport protein CLUAP1 in a child with a novel Joubert and oral-facial-digital overlap syndrome., Johnston JJ., Cold Spring Harb Mol Case Stud. July 1, 2017; 3 (4):
	5-hydroxymethylcytosine marks postmitotic neural cells in the adult and developing vertebrate central nervous system., Diotel N., J Comp Neurol. February 15, 2017; 525 (3): 478-497.
	APE2 Zf-GRF facilitates 3'-5' resection of DNA damage following oxidative stress., Wallace BD., Proc Natl Acad Sci U S A. January 10, 2017; 114 (2): 304-309.
	Deletions and de novo mutations of SOX11 are associated with a neurodevelopmental disorder with features of Coffin-Siris syndrome., Hempel A., J Med Genet. March 1, 2016; 53 (3): 152-62.
	Genetics, Morphology, Advertisement Calls, and Historical Records Distinguish Six New Polyploid Species of African Clawed Frog (Xenopus, Pipidae) from West and Central Africa., Evans BJ., PLoS One. December 16, 2015; 10 (12): e0142823.
	Gremlin1 induces anterior-posterior limb bifurcations in developing Xenopus limbs but does not enhance limb regeneration., Wang YH., Mech Dev. November 1, 2015; 138 Pt 3 256-67.
	3D bio-etching of a complex composite-like embryonic tissue., Hazar M., Lab Chip. August 21, 2015; 15 (16): 3293-9.
	Evidence for an amphibian sixth digit., Hayashi S., Zoological Lett. June 15, 2015; 1 17.
	Mutations in KCNH1 and ATP6V1B2 cause Zimmermann-Laband syndrome., Kortüm F., Nat Genet. June 1, 2015; 47 (6): 661-7.
	The serpin PN1 is a feedback regulator of FGF signaling in germ layer and primary axis formation., Acosta H., Development. March 15, 2015; 142 (6): 1146-58.
	Toxicity bioassays for water from black-odor rivers in Wenzhou, China., DeFu H., Environ Sci Pollut Res Int. February 1, 2015; 22 (3): 1731-41.
	Mutations in the voltage-gated potassium channel gene KCNH1 cause Temple-Baraitser syndrome and epilepsy., Simons C., Nat Genet. January 1, 2015; 47 (1): 73-7.
	Molecular insights into the origin of the Hox-TALE patterning system., Hudry B., Elife. March 18, 2014; 3 e01939.
	Product formation controlled by substrate dynamics in leukotriene A4 hydrolase., Stsiapanava A., Biochim Biophys Acta. February 1, 2014; 1844 (2): 439-46.
	Expression patterns of Ephs and ephrins throughout retinotectal development in Xenopus laevis., Higenell V., Dev Neurobiol. April 1, 2012; 72 (4): 547-63.
	Heat-shock mediated overexpression of HNF1β mutations has differential effects on gene expression in the Xenopus pronephric kidney., Sauert K., PLoS One. January 1, 2012; 7 (3): e33522.
	Phase-II conjugation ability for PAH metabolism in amphibians: characteristics and inter-species differences., Ueda H., Aquat Toxicol. October 1, 2011; 105 (3-4): 337-43.
	Transcriptomic analysis of avian digits reveals conserved and derived digit identities in birds., Wang Z., Nature. September 4, 2011; 477 (7366): 583-6.
	Restorative regeneration of digital tips in the African clawed frog (Xenopus laevis daudin)., Russell AP., Anat Rec (Hoboken). February 1, 2011; 294 (2): 253-62.
	Overexpression of the transcription factor Msx1 is insufficient to drive complete regeneration of refractory stage Xenopus laevis hindlimbs., Barker DM., Dev Dyn. June 1, 2009; 238 (6): 1366-78.
	The anatomy and development of the claws of Xenopus laevis (Lissamphibia: Anura) reveal alternate pathways of structural evolution in the integument of tetrapods., Maddin HC., J Anat. April 1, 2009; 214 (4): 607-19.
	Concealed weapons: erectile claws in African frogs., Blackburn DC., Biol Lett. August 23, 2008; 4 (4): 355-7.
	Visualizing protein interactions by bimolecular fluorescence complementation in Xenopus., Saka Y., Methods. July 1, 2008; 45 (3): 192-5.
	[Mycobacterium gordonae as potential cause of granulomatous lesions of the toe tips in the South African clawed frog (Xenopus laevis)], Kirsch P., Berl Munch Tierarztl Wochenschr. January 1, 2008; 121 (7-8): 270-7.
	Intracellular small RNA-agarose: preparation and application for the analysis of proteins interacted with small RNA., Fujino M., Nucleic Acids Symp Ser (Oxf). January 1, 2008; (52): 481-2.
	Histological microstructure of the claws of the African clawed frog, Xenopus laevis (Anura: Pipidae): implications for the evolution of claws in tetrapods., Maddin HC., J Exp Zool B Mol Dev Evol. May 15, 2007; 308 (3): 259-68.
	Prion protein mRNA expression in Xenopus laevis: no induction during melanotrope cell activation., van Rosmalen JW., Dev Biol. February 23, 2006; 1075 (1): 20-5.
	Cell type-specific transgene expression of the prion protein in Xenopus intermediate pituitary cells., van Rosmalen JW., FEBS J. February 1, 2006; 273 (4): 847-62.
	Identification and expression of the first nonmammalian amyloid-beta precursor-like protein APLP2 in the amphibian Xenopus laevis., Collin RW., Eur J Biochem. May 1, 2004; 271 (10): 1906-12.
	Intercalary and supernumerary regeneration in the limbs of the frog, Xenopus laevis., Shimizu-Nishikawa K., Dev Dyn. August 1, 2003; 227 (4): 563-72.
	De novo GLI3 mutation in acrocallosal syndrome: broadening the phenotypic spectrum of GLI3 defects and overlap with murine models., Elson E., J Med Genet. November 1, 2002; 39 (11): 804-6.
	Pteropodine and isopteropodine positively modulate the function of rat muscarinic M(1) and 5-HT(2) receptors expressed in Xenopus oocyte., Kang TH., Eur J Pharmacol. May 24, 2002; 444 (1-2): 39-45.
	Developmental basis of limb evolution., Hinchliffe JR., Int J Dev Biol. January 1, 2002; 46 (7): 835-45.
	Changes in mitochondrial Ca2+ detected with Rhod-2 in single frog and mouse skeletal muscle fibres during and after repeated tetanic contractions., Lännergren J., J Muscle Res Cell Motil. January 1, 2001; 22 (3): 265-75.
	Conservation of localization patterns of IP(3) receptor type 1 in cerebellar Purkinje cells across vertebrate species., Koulen P., J Neurosci Res. September 1, 2000; 61 (5): 493-9.
	Multiple digit formation in Xenopus limb bud recombinants., Yokoyama H., Dev Biol. April 1, 1998; 196 (1): 1-10.
	Reduced maximum shortening velocity in the absence of phosphocreatine observed in intact fibres of Xenopus skeletal muscle., Westerblad H., J Physiol. January 15, 1995; 482 ( Pt 2) 383-90.
	Changes in tetanic and resting [Ca2+]i during fatigue and recovery of single muscle fibres from Xenopus laevis., Lee JA., J Physiol. February 1, 1991; 433 307-26.
	Binding studies of gold labelled lectins on carbohydrate compounds of the flask cells in claw-frog kidney., Jonas L., Acta Histochem. January 1, 1991; 90 (2): 121-6.
	The relation between force and intracellular pH in fatigued, single Xenopus muscle fibres., Westerblad H., Acta Physiol Scand. May 1, 1988; 133 (1): 83-9.
	The effect of temperature and stimulation scheme on fatigue and recovery in Xenopus muscle fibres., Lännergren J., Acta Physiol Scand. May 1, 1988; 133 (1): 73-82.
	Lectin binding on carbohydrate compounds of the flask cells in the claw-frog kidney., Jonas L., Acta Histochem. January 1, 1988; 84 (2): 217-25.
	Ultrastructural identification of the primitive muscle spindle in the Xenopus laevis larvae., Shinmori H., Anat Embryol (Berl). January 1, 1988; 177 (5): 381-7.

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