SEARCH

SEARCH BY CITATION

REFERENCES

  • 1
    Jacob ST., Roe JJ., Rose KM. Chromatin-bound and free forms of poly(adrenylic acid) polmerase in rat hepatic nuclei Biochem. J. 1976; 153: 733735.
  • 2
    Schumm DE., Richter RJ. Poly(adenylate) polmerase activity of rat brain. J. Neurochem. 1980; 38: 925930.
  • 3
    Rose KM., Morris HP., Jacob ST. Mitochondrial poly(A) polmerase from a pooly differentiated hepatoma. Biochemistry 1975; 14: 10251032.
  • 4
    Pellicer A., Salas J., Salas ML. Characterization of two poly(A) polmerases from cultured hamster fibroblasts. Biochim. Biophys. Acta 1978; 519: 149162.
  • 5
    Egrie JC., Wilt FH. Change in poly(adenylic acid) polmerase activity during sea urchin embryogenesis. Biochemistry 1974; 18: 269274.
  • 6
    Tsiapalis CM. Regulation on mRNA polyadenylation-deadenylation. Mol. Biol. Rep. 1987; 12: 291298.
  • 7
    Jacob ST., Terms MP., Maguire KA. Polyadenylate polmerase from normal and cancer cells and their potential role in messenger RNA processing: A review. Cancer Res. 1989; 49: 28272833.
  • 8
    Richter R., Schumm DE, Median. Age-associated changes in poly(adenylate) polmerase rat liver and brain. Age Devel. 1981; 15: 217225.
  • 9
    Lindholm DB. Thyroid hormone regulation of poly(adenylate) polmerase activities in neuronal nuclei of developing rat brain cortex. Res. Communication 1979; 125: 931937.
  • 10
    Imaizumi K., Nakano, I. Mutant stocks, strain: EL. Mouse News Lett. 1964; 31: 57.
  • 11
    Suzuki J., Nakamoto Y. Abnormal plastic phenomenon of sensory-precipitated epilepsy in the mutant EL mouse. Exp. Neurol. 1982; 75: 440452.
  • 12
    Onishi H., Yamagami S., Mori K., Kawakita Y. Effect of convulsion of the synthesis of heterogenous nuclear RNA associated with polyadenylate and oligoadenylate sequences from EL mouse brain as a convulsive strain. Exp. Neurol. 1984; 83: 98107.
  • 13
    Yamagami S., Onishi H., Mori K., Kawakita Y. Alteration of RNA synthesis in vitro in intact cerebral cortex nuclei induced by convulsions in seizure-susceptible EL mice. Exp. Neurol. 1987; 95: 167177.
  • 14
    Yamagami S., Onishi H., Kawakita Y. Alterations in polyadenylic acid containing messenger RNA synthesis of brain polysomes after seizures-susceptible EL mice. Acta Neurol. Scand. 1989; 80: 327332.
  • 15
    Lowry OH., Rosebrough NT., Farr AL., Randall RJ. Protein measurement with the folm phenol reagent. J. Biol. Chem. 1951: 35: 265275.
  • 16
    Scheffe H. A method for judging all contrast in the analysis of variance. Biomtrika 1953; 40: 87104.
  • 17
    Yamagami S., Ohno K., Tsuji M., Mori K., Kawakita Y. Developmental alteration in RNA metabolism of EL mouse brain. Folia Psychiat. Neurol. Jpn 1981; 35: 253260.
  • 18
    Mita T., Sashihara S., Aramaki I., Fueta Y., Hirano H. Unusual biochemical development of genetically seizure-susceptible EL mice. Devel. Brain Res. 1991; 64: 2735.
  • 19
    Rose, KM. Roe, FJ., Jacob ST. Two functional states of poly(adenylic acid) polmerase in isolated nuclei. Biochim. Biophys. Acta 1977; 478: 180191.
  • 20
    Chikami T., Yamagami S., Furutsuka D., Mori K., Kawakita Y. Alteration of sodium-potassium-activated adenosine triphosphate activity of synaptic membranes during induction of seizures in EL mouse as a convulsive strain. Folia Psychiat. Neurol. Jpn 1984; 38: 312.
  • 21
    Delgado-Escueta, AV. Ward, Jr. Woodbury, DM., Poter RJ. New wave of research in the epilepsies. In: Delgado-EscuetaAV., WardJR., WoodburyDM., Porter, RJ. Advances in Neurology. vol. 44. Raven Press, New York , 1986; 3.
  • 22
    Johnson DD., Jaju AR., Ness L., Richardson JR., Crawford RD. Brain norepinephrine, dopamine and 5-hydroxytryptamine concentration abnormalities and their role in the high seizure susceptibility of epileptic chickens. Can. J. Physiol. Pharmacol. 1981; 59: 144149.
  • 23
    Zackzek R., Nelson MF., Coyle JT. Effects of anaesthetics and auticonuvulsants on the action of kainic acid in the rat hippocampus. Eur. J. Pharmacol. 1978; 52: 323327.
  • 24
    Seyfried TN. Audiogenic seizures in mice. Fed. Proc. 1979; 38; 23992401.
  • 25
    Woodbury DM., Engstrom FL., White HS., Chen CF., Kemp JW., Chow SY. Ionic and acid base regulation of neurons and glia during seizures. Ann. Neurol. 1984; 16(Suppl. 10): 135144.
  • 26
    Schlesinger K., Harkins J., Deckard BS., Paden CJ. Catechol-O-methyltransferase and monoamine oxidase activities in brains of mice susceptible and resistant to audiogenic seizures. Neurobiol. 1975; 6: 587596.
  • 27
    Trottier S. Claustre Y. Caboche J. et al. Alterations of noradrenaline and serotonone uptake and metabolism in chronic cobalt-induced epilepsy in the rat. Brain Res. 1983; 27: 255262.
  • 28
    Kellogg CJ. Serotonin metabolism in the brains of mice sensitive or resistant to audiogenic seizures. Neurobiol. 1971; 2: 209219.
  • 29
    Wasterlain CGJ. Effects of epileptic seizures on brain ribosomes: Mechanism and relationship to cerebral energy metabolism. Neurochem. 1977 29: 707.
  • 30
    Morgan JI., Curran T. Proto-oncogene transcription factors and epilepsy. Trends Pharmacol. Sci. 1991; 12: 343.
  • 31
    Daval JL., Nakajima T., Gleiter CH., Post RM., Marangos PJJ. Mouse brain c-fos mRNA distribution following a single electroconvulsive shock. Neurochem. 1989; 52: 1954.
  • 32
    Mui K., Nakanishi A., Yamagami S., Kioka T., Onishi H., Kawakita Y. The function of poly(A) tract in vitro protein synthesis of seizure-prone EL mouse brain. Jpn Psychiat. Neurol. 1992; 46: 529530.
  • 33
    Wahle E., Martin E., Schiltz E., Keller W. Isolation and expression of cDNA clones encoding mammalian poly(A) polmerase. EMBO J. 1991; 10: 42514257.