Profiles of thyrotropin, thyroid hormones, follicular cells and type I deiodinase gene expression during ontogenetic development of tilapia larvae and juveniles
暂无分享,去创建一个
Chih-Wei Hsu | Su-mei Wu | S. Tsai | S. Shen
[1] Mi Ae Kim,et al. Production and characterization of recombinant Manchurian trout thyrotropin , 2013, Fish Physiology and Biochemistry.
[2] Su-mei Wu,et al. Changes of glycogen metabolism in the gills and hepatic tissue of tilapia (Oreochromis mossambicus) during short-term Cd exposure. , 2011, Comparative biochemistry and physiology. Toxicology & pharmacology : CBP.
[3] M. Peter,et al. The role of thyroid hormones in stress response of fish. , 2011, General and comparative endocrinology.
[4] Fredric E. Wondisford,et al. Minireview: Thyrotropin-releasing hormone and the thyroid hormone feedback mechanism. , 2009, Endocrinology.
[5] J. Shiao,et al. Evaluation of thyroid-mediated otolith growth of larval and juvenile tilapia , 2008, Journal of Experimental Biology.
[6] O. Baba,et al. Regulation of glycogen metabolism in gills and liver of the euryhaline tilapia (Oreochromis mossambicus) during acclimation to seawater , 2007, Journal of Experimental Biology.
[7] N. Shved,et al. IGF-I is distinctly located in the bony fish pituitary as revealed for Oreochromis niloticus, the Nile tilapia, using real-time RT-PCR, in situ hybridisation and immunohistochemistry. , 2007, General and comparative endocrinology.
[8] N. Shved,et al. A systematic immunohistochemical survey of the distribution patterns of GH, prolactin, somatolactin, β–TSH, β–FSH, β–LH, ACTH, and α–MSH in the adenohypophysis of Oreochromis niloticus, the Nile tilapia , 2006, Cell and Tissue Research.
[9] D. Power,et al. Thyroid and pituitary gland development from hatching through metamorphosis of a teleost flatfish, the Atlantic halibut , 2005, Anatomy and Embryology.
[10] V. Darras,et al. Iodothyronine deiodinases and the control of plasma and tissue thyroid hormone levels in hyperthyroid tilapia (Oreochromis niloticus). , 2005, The Journal of endocrinology.
[11] Sudhir Kumar,et al. MEGA3: Integrated software for Molecular Evolutionary Genetics Analysis and sequence alignment , 2004, Briefings Bioinform..
[12] T. Hirano,et al. Ontogeny of pituitary cell-types and the hypothalamo-hypophysial relationship during early development of chum salmon, Oncorhynchus keta , 1993, Cell and Tissue Research.
[13] S. Miwa,et al. Histological changes in the pituitary-thyroid axis during spontaneous and artificially-induced metamorphosis of larvae of the flounder Paralichthys olivaceus , 1987, Cell and Tissue Research.
[14] F. Weltzien,et al. Identification and localization of eight distinct hormone-producing cell types in the pituitary of male Atlantic halibut (Hippoglossus hippoglossus L.). , 2003, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology.
[15] C. Hawryshyn,et al. The effects of thyroxine or a GnRH analogue on thyroid hormone deiodination in the olfactory epithelium and retina of rainbow trout, Oncorhynchus mykiss, and sockeye salmon, Oncorhynchus nerka. , 2002, General and comparative endocrinology.
[16] P. Larsen,et al. Biochemistry, cellular and molecular biology, and physiological roles of the iodothyronine selenodeiodinases. , 2002, Endocrine reviews.
[17] K. Rohr,et al. Phenylthiourea disrupts thyroid function in developing zebrafish , 2002, Development Genes and Evolution.
[18] V. Darras,et al. Hypothyroidism induces type I iodothyronine deiodinase expression in tilapia liver. , 2001, General and comparative endocrinology.
[19] K. Yamauchi,et al. Developmental changes in pituitary-thyroid axis, and formation of gonads in leptocephali and glass eels of Anguilla spp. , 2000 .
[20] K. Leiner,et al. The effects of photoperiod and feeding on the diurnal rhythm of circulating thyroid hormones in the red drum, Sciaenops ocellatus. , 2000, General and comparative endocrinology.
[21] V. Darras,et al. Cloning and characterization of type III iodothyronine deiodinase from the fish Oreochromis niloticus. , 1999, Endocrinology.
[22] F. Rentier-Delrue,et al. Hypothalamic and thyroidal regulation of growth hormone in tilapia. , 1995, General and comparative endocrinology.
[23] S. Bhattacharya,et al. Purification and properties of an Indian major carp (Cirrhinus mrigala, Ham.) pituitary thyrotropin. , 1993, General and comparative endocrinology.
[24] J. Eales,et al. The acute influence of ingested thyroid hormones on hepatic deiodination pathways in the rainbow trout, Oncorhynchus mykiss. , 1992, General and comparative endocrinology.
[25] T. Hirano,et al. Changes in whole body concentrations of cortisol, thyroid hormones, and sex steroids during early development of the chum salmon, Oncorhynchus keta. , 1992, General and comparative endocrinology.
[26] T. Hirano,et al. Effects of thyroid hormone deficiency in eggs on early development of the Medaka, Oryzias latipes , 1991 .
[27] V. Darras,et al. Stimulation of thyroid function by several pituitary hormones results in an increase in plasma thyroxine and reverse triiodothyronine in tilapia (Tilapia nilotica). , 1990, General and comparative endocrinology.
[28] T. Hirano,et al. Changes in tissue and blood concentrations of thyroid hormones in developing chum salmon. , 1989, General and comparative endocrinology.
[29] Christopher L. Brown,et al. Maternal triiodothyronine injections cause increases in swimbladder inflation and survival rates in larval striped bass, Morone saxatilis , 1988 .
[30] H. Kawauchi,et al. Isolation and characterization of two distinct gonadotropins from chum salmon pituitary glands. , 1988, General and comparative endocrinology.
[31] S. Miwa,et al. Thyroid hormone induces metamorphosis of flounder larvae. , 1985, General and comparative endocrinology.
[32] A. Singh. Effect of thyroxine and thiourea on liver and muscle energy stores in the freshwater catfish, Heteropneustes fossillis , 1979 .