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Metamorphic gene regulation programs in Xenopus tropicalis tadpole brain. , Raj S., PLoS One. January 1, 2023; 18 (6): e0287858.
Xenopus pax6 mutants affect eye development and other organ systems, and have phenotypic similarities to human aniridia patients. , Nakayama T ., Dev Biol. December 15, 2015; 408 (2): 328-44.
Characterization of the insulin-like growth factor binding protein family in Xenopus tropicalis. , Haramoto Y ., Int J Dev Biol. January 1, 2014; 58 (9): 705-11.
FGT-1 is a mammalian GLUT2-like facilitative glucose transporter in Caenorhabditis elegans whose malfunction induces fat accumulation in intestinal cells. , Kitaoka S., PLoS One. June 4, 2013; 8 (6): e68475.
Xenopus laevis insulin receptor substrate IRS-1 is important for eye development. , Bugner V., Dev Dyn. July 1, 2011; 240 (7): 1705-15.
Programming pluripotent precursor cells derived from Xenopus embryos to generate specific tissues and organs. , Borchers A ., Genes (Basel). November 18, 2010; 1 (3): 413-26.
The signal sequence coding region promotes nuclear export of mRNA. , Palazzo AF., PLoS Biol. December 1, 2007; 5 (12): e322.
Nuclear localization of the ERK MAP kinase mediated by Drosophila alphaPS2betaPS integrin and importin-7. , James BP., Mol Biol Cell. October 1, 2007; 18 (10): 4190-9.
The secreted serine protease xHtrA1 stimulates long-range FGF signaling in the early Xenopus embryo. , Hou S., Dev Cell. August 1, 2007; 13 (2): 226-41.
Expression analysis of IGFBP-rP10, IGFBP-like and Mig30 in early Xenopus development. , Kuerner KM., Dev Dyn. October 1, 2006; 235 (10): 2861-7.
A repeated IMP-binding motif controls oskar mRNA translation and anchoring independently of Drosophila melanogaster IMP. , Munro TP., J Cell Biol. February 13, 2006; 172 (4): 577-88.
Cell-autonomous and signal-dependent expression of liver and intestine marker genes in pluripotent precursor cells from Xenopus embryos. , Chen Y , Chen Y ., Mech Dev. March 1, 2003; 120 (3): 277-88.
Role of SGK in hormonal regulation of epithelial sodium channel in A6 cells. , Alvarez de la Rosa D., Am J Physiol Cell Physiol. February 1, 2003; 284 (2): C404-14.
The small muscle-specific protein Csl modifies cell shape and promotes myocyte fusion in an insulin-like growth factor 1-dependent manner. , Palmer S., J Cell Biol. May 28, 2001; 153 (5): 985-98.
Evaluation of insulin permeability and effects of absorption enhancers on its permeability by an in vitro pulmonary epithelial system using Xenopus pulmonary membrane. , Yamamoto A., Biol Pharm Bull. April 1, 2001; 24 (4): 385-9.
Nongenomic action of progesterone: activation of Xenopus oocyte phospholipase C through a plasma membrane-associated tyrosine kinase. , Morrison T., Endocrinology. June 1, 2000; 141 (6): 2145-52.
In vitro organogenesis of pancreas in Xenopus laevis dorsal lips treated with retinoic acid. , Moriya N., Dev Growth Differ. April 1, 2000; 42 (2): 175-85.
The two nonallelic insulin-like growth factor-I genes in Xenopus laevis are differentially regulated during development. , Perfetti R., Endocrinology. November 1, 1994; 135 (5): 2037-44.
XIHbox 8, an endoderm-specific Xenopus homeodomain protein, is closely related to a mammalian insulin gene transcription factor. , Peshavaria M., Mol Endocrinol. June 1, 1994; 8 (6): 806-16.
Inhibition of protein kinase C zeta subspecies blocks the activation of an NF-kappa B-like activity in Xenopus laevis oocytes. , Dominguez I ., Mol Cell Biol. February 1, 1993; 13 (2): 1290-5.
Insulin-like growth factor 1, insulin, and progesterone induce early and late increases in Xenopus oocyte sn-1,2-diacylglycerol levels before meiotic cell division. , Stith BJ ., J Cell Physiol. November 1, 1991; 149 (2): 252-9.
Two nonallelic insulin genes in Xenopus laevis are expressed differentially during neurulation in prepancreatic embryos. , Shuldiner AR., Proc Natl Acad Sci U S A. September 1, 1991; 88 (17): 7679-83.
Stimulation of protein synthesis in stage IV Xenopus oocytes by microinjected insulin. , Miller DS., J Biol Chem. June 25, 1989; 264 (18): 10438-46.
Stimulation of RNA and protein synthesis by intracellular insulin. , Miller DS., Science. April 22, 1988; 240 (4851): 506-9.
Steroidal and peptidic control mechanisms in membrane of Xenopus laevis oocytes resuming meiotic division. , Baulieu EE., J Steroid Biochem. July 1, 1983; 19 (1A): 139-45.
Steroid and peptide control mechanisms in membrane of Xenopus laevis oocytes resuming meiotic division. , Baulieu EE., Ciba Found Symp. January 1, 1983; 98 137-58.