Published in J Clin Invest on March 01, 1977
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Specificity of the alpha-glycerophosphate dehydrogenase and malic enzyme response to thyroxine. Endocrinology (1965) 0.87
New assay procedure for thyroxine analogs. Endocrinology (1965) 0.86
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Slow fractional removal of nonextractable iodine from rat tissue after injection of labeled L-thyroxine and 3,5,3'-triiodo-L-thyronine. A possible clue to the mechanism of initiation and persistence of hormonal action. J Clin Invest (1972) 0.81
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Propylthiouracil inhibits the conversion of L-thyroxine to L-triiodothyronine. An explanation of the antithyroxine effect of propylthiouracil and evidence supporting the concept that triiodothyronine is the active thyroid hormone. J Clin Invest (1972) 2.18
Tissue differences in the concentration of triiodothyronine nuclear binding sites in the rat: liver, kidney, pituitary, heart, brain, spleen, and testis. Endocrinology (1974) 2.17
Replacement dosage of L-thyroxine in hypothyroidism. A re-evaluation. N Engl J Med (1974) 2.14
Specific nuclear triiodothyronine binding sites in rat liver and kidney. J Clin Endocrinol Metab (1972) 2.06
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Quantitation of extrathyroidal conversion of L-thyroxine to 3,5,3'-triiodo-L-thyronine in the rat. J Clin Invest (1971) 1.94
Determination of iodothyronine absorption and conversion of L-thyroxine (T 4 ) to L-triiodothyronine (T 3 ) using turnover rate techniques. J Clin Invest (1973) 1.90
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Minimal cardiac effects in asymptomatic athyreotic patients chronically treated with thyrotropin-suppressive doses of L-thyroxine. J Clin Endocrinol Metab (1997) 1.54
Limited capacity binding sites for L-triiodothyronine in rat liver nuclei. Localization to the chromatin and partial characterization of the L-triiodothyronine-chromatin complex. J Biol Chem (1973) 1.52
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Binding of selected iodothyronine analogues to receptor sites of isolated rat hepatic nuclei. High correlation between structural requirements for nuclear binding and biological activity. J Biol Chem (1975) 1.44
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Differences in primary cellular factors influencing the metabolism and distribution of 3,5,3'-L-triiodothyronine and L-thyroxine. J Clin Invest (1970) 1.43
Estimation of rapidly exchangeable cellular thyroxine from the plasma disappearance curves of simultaneously administered thyroxine-131-I and albumin-125-I. J Clin Invest (1967) 1.42
High incidence of decreased serum triiodothyronine concentration in patients with nonthyroidal disease. J Clin Endocrinol Metab (1975) 1.41
Analysis of the rapid interchange of thyroxine between plasma and liver and plasma and kidney in the intact rat. Endocrinology (1968) 1.41
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Changes in the hepatic levels of messenger ribonucleic acid for malic enzyme during induction by thyroid hormone or diet. Biochemistry (1980) 1.31
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High basal expression and 3,5,3'-triiodothyronine regulation of messenger ribonucleic acid S14 in lipogenic tissues. Endocrinology (1985) 1.24
Nuclear triiodothyronine receptor sites in brain: probable identity with hepatic receptors and regional distribution. Endocrinology (1978) 1.24
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Increased thyroxine turnover and thyroidal function after stimulation of hepatocellular binding of thyroxine by phenobarbital. J Clin Invest (1968) 1.22
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Specific triiodothyronine binding sites in the anterior pituitary of the rat. Science (1972) 1.17
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In vitro binding of L-triiodothyronine to receptors in rat liver nuclei. Kinectics of binding, extraction properties, and lack of requirement for cytosol proteins. J Clin Invest (1975) 1.11
Nuclear binding capacity appears to limit the hepatic response to L-triiodothyronine (T3). Endocr Res Commun (1975) 1.11
Rapid synergistic interaction between thyroid hormone and carbohydrate on mRNAS14 induction. J Biol Chem (1986) 1.11