References
- Scatchard G. The attractions of proteins for small molecules and ions. Ann NY Acad Sci 1949; 51: 660–72
- Nakamura H., Hamada S., Imura H. Sequential changes in rat liver nuclear tri‐iodothyronine receptors and mitochondrial ‐glycero‐phosphate dehydrogenase activity after administration of triiodothyronine. Biochem J 1979; 182: 377–82
- Hamada S., Nakamura H., Nanno M., Imura H. Tri‐iodothyronine‐induced increase in rat liver nuclear thyroid‐hormone receptors associated with increased mitochondrial ‐glycerophosphate dehydrogenase activity. Biochem J 1979; 182: 371–5
- Anderson J. N., Clark J. H., Peck E. J., Jr. Estrogen and nuclear binding sites: determination of specific sites by 3H‐estradiol exchange. Biochem J 1972; 126: 561–7
- Hamada S., Yoshimasa Y. Increases in brain nuclear tri‐iodothyronine receptors associated with increased triiodothyronine in hyperthyroid and hypothyroid rats. Endocrinology 1983; 112: 207–11
- Nakamura H., Hamada S., Imura H. Increase in liver nuclear tri‐iodothyronine receptors associated with incrased deoxyribonucleic acid by long‐term administration of tri‐iodothyronine in thyroidectomized rats. Biochem J 1979; 184: 143–8
- Munson P. J., Rodbard D. LIGAND‐characterization of binding systems: a versatile, computerized approach. Anal Biochem 1980; 107: 220–9
- Feldman H. Mathematical theory of complex ligand‐binding systems at equilibrium: Some methods for parameter fitting. Anal Biochem 1972; 48: 317–38
- Lu R. B., Lebenthal E., Lee P. C. Developmental change of glucocorticoid receptors in the rat pancreas. J Steroid Biochem 1987; 26: 213–8
- Rodbard D., Munson P. J., Thakur A. K. Quantitative Characterization of hormone receptors. Cancer 1980; 46: 2907–18