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The following represent thyroid-related publications from all ATA-supported grant recipients, arranged by the year the award was made, covering the five year period following the award.
1998
Yaron Tomer, MD-Mount Sinai School of Medicine
“Mutational and functional analysis of candidate susceptibility
Genes in Graves’ disease”
1. Tomer Y, Concepcion E, Greenberg DA 2002. A C/T single-nucleotide polymorphism in the region of the CD40 gene is associated with Graves' disease. Thyroid 12:1129-1135.
2. Ban Y, Greenberg DA, Concepcion E, Skrabanek L, Villanueva R, Tomer Y 2003. Amino acid substitutions in the thyroglobulin gene are associated with susceptibility to human and murine autoimmune thyroid disease. Proc Natl Acad Sci U S A 100:15119-15124.
3. Ban Y, Davies TF, Greenberg DA, Kissin A, Marder B, Murphy B, Concepcion ES, Villanueva RB, Barbesino G, Ling V, Tomer Y 2003. Analysis of the CTLA-4, CD28, and inducible costimulator (ICOS) genes in autoimmune thyroid disease. Genes Immun 4:586-593.
4. Tomer Y, Ban Y, Concepcion E, Barbesino G, Villanueva R, Greenberg DA, Davies TF 2003. Common and unique susceptibility loci in Graves and Hashimoto diseases: results of whole-genome screening in a data set of 102 multiplex families. Am J Hum Genet 73:736-747.
5. Ban Y, Tomer Y 2003. The contribution of immune regulatory and thyroid specific genes to the etiology of Graves' and Hashimoto's diseases. Autoimmunity 36:367-379.
Cary N. Mariash, M-University of Minnesota
“Thyroid hormone deficiency during fetal and early childhood development”
1. Liu B, Li W, Mariash CN. 1999. Two different gene elements are required for glucose regulation of S14 transcription. Mol Cell Endocrinol. 148:11-19.
2. Anderson GW, Larson RJ, Oas DR, Sandhofer CR, Schwartz HL, Mariash CN, Oppenheimer JH. 1998 Chicken ovalbumin upstream promoter-transcription factor (COUP-TF) modulates expression of the Purkinje cell protein-2 gene. A potential role for COUP-TF in repressing premature thyroid hormone action in the developing brain. 1998 J Biol Chem. 273:16391-16399.
3. Zhu XG, Park KS, Kaneshige M, Bhat MK, Zhu Q, Mariash CN, McPhie P, Cheng SY 2000. The orphan nuclear receptor Ear-2 is a negative coregulator for thyroid hormone nuclear receptor function. Mol Cell Biol 20:2604-2618.
4. Jones SA, Jolson DM, Cuta KK, Mariash CN, Anderson GW 2003. Triiodothyronine is a survival factor for developing oligodendrocytes. Mol Cell Endocrinol 199:49-60.
5. Campbell MC, Anderson GW, Mariash CN 2003. Human spot 14 glucose and thyroid hormone response: characterization and thyroid hormone response element identification. Endocrinology 144:5242-5248.
6. Ota Y, Mariash CN 2003. Paradoxical triiodothyronine suppression of S14 transcription in permanent hepatic cell lines. Thyroid 13:437-445.
Whitney Woodmansee, MD-University of Colorado
“Thyroid hormone regulation of mouse somatostatin 5 receptor promoter”
1. Gordon DF, Woodmansee WW, Black JN, Dowding JM, Bendrick-Peart J, Wood WM, Ridgway EC 2002. Domains of Pit-1 required for transcriptional synergy with GATA-2 on the TSH beta gene. Mol Cell Endocrinol 196:53-66.
2. Woodmansee WW, Mouser RL, Gordon DF, Dowding JM, Wood WM, Ridgway EC 2002. Mutational analysis of the mouse somatostatin receptor type 5 gene promoter. Endocrinology 143:2268-2276.
3. Wood WM, Sarapura VD, Dowding JM, Woodmansee WW, Haakinson DJ, Gordon DF, Ridgway EC 2002. Early gene expression changes preceding thyroid hormone-induced involution of a thyrotrope tumor. Endocrinology 143:347-359.
Sung-Woo Kim, PhD-Brigham and Women's Hospital/Harvard Medical
School
“Exploring the mechanism of thyroid hormone dependent gene regulation”
1. Kim SW, Harney JW, Larsen PR 1998. Studies of the hormonal regulation of type 2 5'-iodothyronine deiodinase messenger ribonucleic acid in pituitary tumor cells using semiquantitative reverse transcription-polymerase chain reaction. Endocrinology 139:4895-4905.
2. Bartha T, Kim SW, Salvatore D, Gereben B, Tu HM, Harney JW, Rudas P, Larsen PR. 2000. Characterization of the 5'-flanking and 5'-untranslated regions of the cyclic adenosine 3',5'-monophosphate-responsive human type 2 iodothyronine deiodinase gene. Endocrinology. 2000. 141:229-237.
3. de Jesus LA, Carvalho SD, Ribeiro MO, Schneider M, Kim SW, Harney JW, Larsen PR, Bianco AC. 2001. The type 2 iodothyronine deiodinase is essential for adaptive thermogenesis in brown adipose tissue. J Clin Invest. 2001. 108:1379-1385.
Elbieta Biesiada, PhD-Children's Hospital of Orange County
“Molecular mechanisms for thyroid hormone regulation of motor
neuronal process growth”
1. Gianino S, Stein SA, Li H, Lu X, Biesiada E, Ulas J, Xu XM. 1999. Postnatal growth of corticospinal axons in the spinal cord of developing mice. Brain Res Dev Brain Res 112:189-204.
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