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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.
Cell landscape of larval and adult Xenopus laevis at single-cell resolution. , Liao Y., Nat Commun. July 25, 2022; 13 (1): 4306.
The Lhx1- Ldb1 complex interacts with Furry to regulate microRNA expression during pronephric kidney development. , Espiritu EB., Sci Rep. October 30, 2018; 8 (1): 16029.
Proteomic analysis of fibroblastema formation in regenerating hind limbs of Xenopus laevis froglets and comparison to axolotl. , Rao N., BMC Dev Biol. July 25, 2014; 14 32.
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.
The developing Xenopus limb as a model for studies on the balance between inflammation and regeneration. , King MW , King MW ., Anat Rec (Hoboken). October 1, 2012; 295 (10): 1552-61.
Proteomics analysis of regenerating amphibian limbs: changes during the onset of regeneration. , King MW , King MW ., Int J Dev Biol. January 1, 2009; 53 (7): 955-69.
Macroarray-based analysis of tail regeneration in Xenopus laevis larvae. , Tazaki A ., Dev Dyn. August 1, 2005; 233 (4): 1394-404.
The zebrafish annexin gene family. , Farber SA., Genome Res. June 1, 2003; 13 (6A): 1082-96.
Xenopus annexin II ( calpactin I) heavy chain has a distinct amino terminus. , Izant JG., J Biol Chem. October 5, 1991; 266 (28): 18560-6.