Effect of vitamin A deficiency on cAMP-responsiveness of fetal and perinatal PEPCK promoter activity
Pasham, S.; Odom, D.P.; Mcgrane, M.M.
FASEB Journal 14(4): A514
2000
ISSN/ISBN: 0892-6638
Accession: 034808432
PDF emailed within 1 workday: $29.90
Related References
Pasham, S.; Mcgrane, M.M. 1999: Effect of vitamin A deficiency on fetal and perinatal PEPCK promoter activity FASEB Journal 13(4 Part 1): A346Shao, J.; Qiao, L.; Vanauken, K.; Wei, Y.; Bizeau, M.; Pagliassotti, M.; Friedman, J. 2003: C/EBPbeta increases cAMP responsiveness of the PEPCK promoter via increased LAP/LIP ratio and PGC-1 in response to hyperglycemia Diabetes 52(Suppl 1): A428
O'Brien, R.M.; Lucas, P.C.; Yamasaki, T.; Noisin, E.L.; Granner, D.K. 1994: Potential convergence of insulin and cAMP signal transduction systems at the phosphoenolpyruvate carboxykinase (PEPCK) gene promoter through CCAAT/enhancer binding protein (C/EBP) Journal of Biological Chemistry 269(48): 30419-30428
Shenai, J.P.; Chytil, F. 1990: Effect of maternal vitamin-A administration on fetal lung vitamin-A stores in the perinatal rat Biology of the Neonate 58(6): 318-325
Scribner, K.B.; McGrane, M.M. 2003: RNA polymerase II association with the phosphoenolpyruvate carboxykinase (PEPCK) promoter is reduced in vitamin A-deficient mice Journal of Nutrition 133(12): 4112-4117
Scribner, K.B.; McGrane, M.M. 2003: Rna Polymerase Ii Association with the Phosphoenolpyruvate Carboxykinase (Pepck) Promoter Is Reduced in Vitamin ADeficient Mice The Journal of Nutrition 133(12): 4112-4117
Krueger, D.A.; Mao, D.; Warner, E.A.; Dowd, D.R. 1999: Functional analysis of the mouse ICER (Inducible cAMP Early Repressor) promoter: evidence for a protein that blocks calcium responsiveness of the CAREs (cAMP autoregulatory elements) Molecular Endocrinology 13(7): 1207-1217
Herrmann Erlee, M.P.M.; Van Der Meer, J.M.; Bos, M.P.; Dezaire, A.H.H. 1992: Culture dependent regulation of alkaline phosphatase activity and camp responsiveness in control and pth or tgf beta treated fetal rat calvarial cells Calcified Tissue International 50(Suppl 1): A10
Schjoldager, J.G.; Tveden-Nyborg, P.; Lykkesfeldt, J. 2013: Prolonged maternal vitamin C deficiency overrides preferential fetal ascorbate transport but does not influence perinatal survival in guinea pigs British Journal of Nutrition 110(9): 1573-1579
Perla, D. 1938: Role of vitamin B in resistance I Introduction II Effect of deficiency of vitamin B on the formation of natural antibodies III Effect of deficiency of vitamin B on the formation of acquired antibodies IV Effect of deficiency of vitamin B on anaphylaxis V Effect of deficiency of vitamin B on natural resistance to spontaneous infections VI Effect of deficiency of vitamin B on natural resistance to induced infections VII Effect of deficiency of vitamin B on natural resistance to Arch Path)(4): 539-568, 694-729
Zachman, R.D.; Grummer, M.A. 1997: Effect of maternal/fetal vitamin A deficiency on fetal lung surfactant protein expression and its response to dexamethasone Pediatric Research 41(4 Part 2): 274A
Zachman, R.D.; Grummer, M.A. 1998: Effect of maternal/fetal vitamin A deficiency on fetal rat lung surfactant protein expression and the response to prenatal dexamethasone Pediatric Research 43(2): 178-183
Shenai, J.P.; Chytil, F. 1987: Effect of maternal vitamin a administration on fetal lung stores in perinatal rat Pediatric Research 21(4 Part 2): 437A
Friedman, H.J. 1941: Effect of vitamin C deficiency upon smooth muscle responsiveness to nonspecific stimulation Jour Allergy 12(3): 221-234
Cong, M.; Goll, D.E.; Antin, P.B. 1998: CAMP responsiveness of the bovine calpastatin gene promoter Biochimica et Biophysica Acta 1443(1-2): 186-192