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In vitro screening of per- and polyfluorinated substances (PFAS) for interference with seven thyroid hormone system targets across nine assays. , Degitz SJ., Toxicol In Vitro. March 1, 2024; 95 105762.
Comparison of in vitro and in vivo bioassays to measure thyroid hormone disrupting activity in water extracts. , Leusch FDL., Chemosphere. January 1, 2018; 191 868-875.
Increasing the length and hydrophobicity of the C-terminal sequence of transthyretin strengthens its binding affinity to retinol binding protein. , Poodproh R., FEBS Open Bio. November 16, 2017; 7 (12): 1891-1898.
Exposure to butachlor causes thyroid endocrine disruption and promotion of metamorphosis in Xenopus laevis. , Li S., Chemosphere. June 1, 2016; 152 158-65.
Understanding How the Subcommissural Organ and Other Periventricular Secretory Structures Contribute via the Cerebrospinal Fluid to Neurogenesis. , Guerra MM., Front Cell Neurosci. September 23, 2015; 9 480.
The genomic structure and the expression profile of the Xenopus laevis transthyretin gene. , Ishihara A., Gene. December 1, 2012; 510 (2): 126-32.
Species-dependent effects of the phenolic herbicide ioxynil with potential thyroid hormone disrupting activity: modulation of its cellular uptake and activity by interaction with serum thyroid hormone-binding proteins. , Akiyoshi S., J Environ Sci (China). January 1, 2012; 24 (5): 949-55.
Effect of the N-terminal sequence on the binding affinity of transthyretin for human retinol-binding protein. , Leelawatwattana L., FEBS J. September 1, 2011; 278 (18): 3337-47.
New CYP1 genes in the frog Xenopus (Silurana) tropicalis: induction patterns and effects of AHR agonists during development. , Jönsson ME., Toxicol Appl Pharmacol. January 15, 2011; 250 (2): 170-83.
3,3',5-Triiodo-L-thyronine-like activity in effluents from domestic sewage treatment plants detected by in vitro and in vivo bioassays. , Murata T., Toxicol Appl Pharmacol. February 1, 2008; 226 (3): 309-17.
Polychlorinated biphenyl exposure delays metamorphosis and alters thyroid hormone system gene expression in developing Xenopus laevis. , Lehigh Shirey EA., Environ Res. October 1, 2006; 102 (2): 205-14.
In vitro and in vivo analysis of the thyroid system-disrupting activities of brominated phenolic and phenol compounds in Xenopus laevis. , Kudo Y., Toxicol Sci. July 1, 2006; 92 (1): 87-95.
In vitro and in vivo analysis of the thyroid disrupting activities of phenolic and phenol compounds in Xenopus laevis. , Kudo Y., Toxicol Sci. March 1, 2005; 84 (1): 29-37.
The effects of endocrine-disrupting chemicals on thyroid hormone binding to Xenopus laevis transthyretin and thyroid hormone receptor. , Yamauchi K., Clin Chem Lab Med. December 1, 2002; 40 (12): 1250-6.
Evolution of structure, ontogeny of gene expression, and function of Xenopus laevis transthyretin. , Prapunpoj P., Am J Physiol Regul Integr Comp Physiol. December 1, 2000; 279 (6): R2026-41.
Effect of diethylstilbestrol on thyroid hormone binding to amphibian transthyretins. , Yamauchi K., Gen Comp Endocrinol. September 1, 2000; 119 (3): 329-39.
Subunit assembly and secretion of transthyretin: studies in a cell-free translation system and in microinjected Xenopus oocytes. , Docherty K., J Mol Endocrinol. November 1, 1989; 3 (3): 191-7.