Enzyme activities and hypothyroidism
De Silva, L.V.
Clinical Chemistry 30(11): 1890-1891
1984
ISSN/ISBN: 0009-9147
PMID: 6488548
Accession: 043013529
PDF emailed within 1 workday: $29.90
Related References
Huisman, J.W. 1984: Enzyme activities and hypothyroidism Clinical Chemistry 30(8): 1422White, G.H.; Walmsley, R.N. 1984: Plasma enzyme activities in primary hypothyroidism Clinical Chemistry 30(2): 323-325
Yilmaz, S.; Ozan, S.; Benzer, F.; Canatan, H. 2003: Oxidative damage and antioxidant enzyme activities in experimental hypothyroidism Cell Biochemistry and Function 21(4): 325-330
Baldissarelli, J.; Santi, A.; Schmatz, R.; Zanini, D.; Cardoso, A.éi.M.; Abadalla, F.át.H.; Thomé, G.R.; Murussi, C.; Polachini, C.R.N.; Delenogare, D.és.P.; Loro, V.L.; Morsch, V.M.; Schetinger, M.R.C. 2016: Quercetin changes purinergic enzyme activities and oxidative profile in platelets of rats with hypothyroidism Biomedicine and PharmacoTherapy 84: 1849-1857
Koromilas, C.; Liapi, C.; Zarros, A.; Stolakis, V.; Tsagianni, A.; Skandali, N.; Al-Humadi, H.; Tsakiris, S. 2014: Effects of experimentally-induced maternal hypothyroidism on crucial offspring rat brain enzyme activities International Journal of Developmental Neuroscience: the Official Journal of the International Society for Developmental Neuroscience 35: 1-6
Lomax, R.B.; Robertson, W.R. 1992: The effects of hypothyroidism and hyperthyroidism on fibre composition and mitochondrial enzyme activities in rat skeletal muscle Journal of Endocrinology 132(Suppl)
Domingues, J.T.; Wajima, C.S.; Cesconetto, P.A.; Parisotto, E.B.; Winkelmann-Duarte, E.; Santos, K.D.; Saleh, N.; Filippin-Monteiro, F.ío.B.; Razzera, G.; Mena Barreto Silva, F.át.R.; Pessoa-Pureur, R.; Zamoner, A. 2018: Experimentally-induced maternal hypothyroidism alters enzyme activities and the sensorimotor cortex of the offspring rats Molecular and Cellular Endocrinology 478: 62-76
Koromilas, C.; Tsakiris, S.; Kalafatakis, K.; Zarros, A.; Stolakis, V.; Kimpizi, D.; Bimpis, A.; Tsagianni, A.; Liapi, C. 2015: Experimentally-induced maternal hypothyroidism alters crucial enzyme activities in the frontal cortex and hippocampus of the offspring rat Metabolic Brain Disease 30(1): 241-246
Cattani, D.; Goulart, P.B.; Cavalli, V.L.úc.d.L.O.; Winkelmann-Duarte, E.; Dos Santos, A.é Q.; Pierozan, P.; de Souza, D.F.; Woehl, V.M.; Fernandes, M.C.; Silva, F.át.R.M.B.; Gonçalves, C.A.; Pessoa-Pureur, R.; Zamoner, A. 2013: Congenital hypothyroidism alters the oxidative status, enzyme activities and morphological parameters in the hippocampus of developing rats Molecular and Cellular Endocrinology 375(1-2): 14-26
Hamburgh, M.; Flexner, L.B. 1957: Biochemical and physiological differentiation during morphogenesis. XXI. Effect of hypothyroidism and hormone therapy on enzyme activities of the developing cerebral cortex of the rat Journal of Neurochemistry 1(3): 279-288
Baht, H.S.; Saggerson, E.D. 1988: Comparison of triacylglycerol synthesis in rat brown and white adipocytes. Effects of hypothyroidism and streptozotocin-diabetes on enzyme activities and metabolic fluxes Biochemical Journal 250(2): 325-333
Silva, J.E.; Larsen, P.R. 1982: Comparison of iodothyronine 5'-deiodinase and other thyroid-hormone-dependent enzyme activities in the cerebral cortex of hypothyroid neonatal rat. Evidence for adaptation to hypothyroidism Journal of Clinical Investigation 70(5): 1110-1123
Sagisaka, S.A.ada, M. 1981: Coordinate and noncoordinate changes in enzyme activities in pentose phosphate cycle in poplar: a control of enzyme activities in differentiated xylem Plant and cell physiology 22(8): 1459-1468
Sagisaka, S.; Asada, M. 1981: Coordinate and noncoordinate changes in enzyme activities in pentose phosphate cycle in poplar populus gelrica a control of enzyme activities in differentiated xylem Plant and Cell Physiology 22(8): 1459-1468
Platt, D.; Hering, H.; Hering, F.J. 1973: Age dependent determinations of lysosomal enzyme activities in the liver and brain as well as the measurements of cytoplasmic enzyme activities in the blood of piracetam pre-treated rats Experimental Gerontology 8(6): 315-324