Papers associated with right (and col2a1)

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	Time-resolved quantitative proteomic analysis of the developing Xenopus otic vesicle reveals putative congenital hearing loss candidates., Baxi AB., iScience. September 15, 2023; 26 (9): 107665.
	Unravelling the limb regeneration mechanisms of Polypedates maculatus, a sub-tropical frog, by transcriptomics., Mahapatra C., BMC Genomics. March 16, 2023; 24 (1): 122.
	Deep learning is widely applicable to phenotyping embryonic development and disease., Naert T., Development. November 1, 2021; 148 (21):
	Ttc30a affects tubulin modifications in a model for ciliary chondrodysplasia with polycystic kidney disease., Getwan M., Proc Natl Acad Sci U S A. September 28, 2021; 118 (39):
	Using Xenopus to analyze neurocristopathies like Kabuki syndrome., Schwenty-Lara J., Genesis. February 1, 2021; 59 (1-2): e23404.
	Novel truncating mutations in CTNND1 cause a dominant craniofacial and cardiac syndrome., Alharatani R., Hum Mol Genet. July 21, 2020; 29 (11): 1900-1921.
	A chromosome-scale genome assembly and dense genetic map for Xenopus tropicalis., Mitros T., Dev Biol. August 1, 2019; 452 (1): 8-20.
	E-cigarette aerosol exposure can cause craniofacial defects in Xenopus laevis embryos and mammalian neural crest cells., Kennedy AE., PLoS One. September 8, 2017; 12 (9): e0185729.
	WNT16 antagonises excessive canonical WNT activation and protects cartilage in osteoarthritis., Nalesso G., Ann Rheum Dis. January 1, 2017; 76 (1): 218-226.
	Measuring Absolute RNA Copy Numbers at High Temporal Resolution Reveals Transcriptome Kinetics in Development., Owens ND., Cell Rep. January 26, 2016; 14 (3): 632-47.
	Molecular footprinting of skeletal tissues in the catshark Scyliorhinus canicula and the clawed frog Xenopus tropicalis identifies conserved and derived features of vertebrate calcification., Enault S., Front Genet. September 15, 2015; 6 283.
	Paraxis is required for somite morphogenesis and differentiation in Xenopus laevis., Sánchez RS., Dev Dyn. August 1, 2015; 244 (8): 973-87.
	Left-right patterning in Xenopus conjoined twin embryos requires serotonin signaling and gap junctions., Vandenberg LN., Int J Dev Biol. January 1, 2014; 58 (10-12): 799-809.
	Cartilage on the move: cartilage lineage tracing during tadpole metamorphosis., Kerney RR., Dev Growth Differ. October 1, 2012; 54 (8): 739-52.
	Regulatory elements of Xenopus col2a1 drive cartilaginous gene expression in transgenic frogs., Kerney R., Int J Dev Biol. January 1, 2010; 54 (1): 141-50.
	Runx2 is essential for larval hyobranchial cartilage formation in Xenopus laevis., Kerney R., Dev Dyn. June 1, 2007; 236 (6): 1650-62.
	Amphibian in vitro heart induction: a simple and reliable model for the study of vertebrate cardiac development., Ariizumi T., Int J Dev Biol. September 1, 2003; 47 (6): 405-10.
	Regulation of nodal and BMP signaling by tomoregulin-1 (X7365) through novel mechanisms., Chang C., Dev Biol. March 1, 2003; 255 (1): 1-11.
	The orphan receptor ALK7 and the Activin receptor ALK4 mediate signaling by Nodal proteins during vertebrate development., Reissmann E., Genes Dev. August 1, 2001; 15 (15): 2010-22.
	Endoderm patterning by the notochord: development of the hypochord in Xenopus., Cleaver O., Development. February 1, 2000; 127 (4): 869-79.
	Role of notochord in specification of cardiac left-right orientation in zebrafish and Xenopus., Danos MC., Dev Biol. July 10, 1996; 177 (1): 96-103.
	Linkage of cardiac left-right asymmetry and dorsal-anterior development in Xenopus., Danos MC., Development. May 1, 1995; 121 (5): 1467-74.

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