Gene Expression in the Brain across the Hibernation Cycle
暂无分享,去创建一个
B F O'Hara | F. L. Watson | H. Heller | B. O’Hara | T. Kilduff | S. Welch | S K Welch | H C Heller | T S Kilduff | F L Watson | H K Srere | H Kumar | S W Wiler | L Bitting | L. Bitting | H. Srere | S. W. Wiler | Himanshu Kumar | Hilary K. Srere
[1] T. Kaneko,et al. Dominant expression of mRNA for prostaglandin D synthase in leptomeninges, choroid plexus, and oligodendrocytes of the adult rat brain. , 1993, Proceedings of the National Academy of Sciences of the United States of America.
[2] C. Zahnow,et al. Characterization and expression of the complementary DNA encoding rat histidine decarboxylase. , 1990, Proceedings of the National Academy of Sciences of the United States of America.
[3] J. Wamsley,et al. Hippocampal and cortical opioid receptor binding: Changes related to the hibernation state , 1986, Brain Research.
[4] H. Heller,et al. CNS regulation of body temperature during hibernation. , 1974, The American journal of physiology.
[5] V. Popov,et al. Hibernation-induced structural changes in synaptic contacts between mossy fibres and hippocampal pyramidal neurons , 1992, Neuroscience.
[6] J. Walker,et al. Sleep and hibernation in ground squirrels (Citellus spp): electrophysiological observations. , 1977, The American journal of physiology.
[7] F. L. Watson,et al. Immediate early gene expression in brain during sleep deprivation: preliminary observations. , 1993, Sleep.
[8] J. Kondo,et al. Identification of novel blood proteins specific for mammalian hibernation. , 1992, The Journal of biological chemistry.
[10] Serge Daan,et al. Warming up for sleep? — Ground squirrels sleep during arousals from hibernation , 1991, Neuroscience Letters.
[11] A. L. Beckman,et al. Changes in CNS responsiveness during hibernation. , 1976, The American journal of physiology.
[12] M. Adler,et al. Physical dependence on morphine fails to develop during the hibernating state. , 1981, Science.
[13] M. Godbout,et al. An endoplasmic reticulum-specific cyclophilin , 1991, Molecular and cellular biology.
[14] C. Saper,et al. Innervation of Histaminergic Tuberomammillary Neurons by GABAergic and Galaninergic Neurons in the Ventrolateral Preoptic Nucleus of the Rat , 1998, The Journal of Neuroscience.
[15] K. Pratt,et al. The Neuronal Growth-Associated Protein GAP-43 Interacts with Rabaptin-5 and Participates in Endocytosis , 1998, The Journal of Neuroscience.
[16] G. Tononi,et al. Immediate‐early genes in spontaneous wakefulness and sleep: expression of c‐fos and NGFI‐A mRNA and protein , 1994, Journal of sleep research.
[17] E. Nedivi,et al. A protein associated with axon growth, GAP-43, is widely distributed and developmentally regulated in rat CNS , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[18] S. Martin,et al. Central role for differential gene expression in mammalian hibernation. , 1992, Proceedings of the National Academy of Sciences of the United States of America.
[19] B F O'Hara,et al. GABAA, GABAC, and NMDA receptor subunit expression in the suprachiasmatic nucleus and other brain regions. , 1995, Brain research. Molecular brain research.
[20] A. Routtenberg,et al. A membrane phosphoprotein associated with neural development, axonal regeneration, phospholipid metabolism, and synaptic plasticity , 1987, Trends in Neurosciences.
[21] C. Llados-Eckman,et al. Antagonism of brain opioid peptide action reduces hibernation bout duration , 1985, Brain Research.
[22] T. Kilduff,et al. Circadian and light-induced expression of immediate early gene mRNAs in the rat suprachiasmatic nucleus. , 1992, Brain research. Molecular brain research.
[23] S. Finklestein,et al. The neuronal growth-associated protein GAP-43 (B-50, F1): neuronal specificity, developmental regulation and regional distribution of the human and rat mRNAs. , 1987, Brain research.
[24] A. Bretscher,et al. Hibernation induces expression of moesin in intestinal epithelial cells. , 1998, Cryobiology.
[25] M. Greenberg,et al. The regulation and function of c-fos and other immediate early genes in the nervous system , 1990, Neuron.
[26] C. P. Lyman. Hibernation and Torpor in Mammals and Birds , 1983 .
[27] Christine Debouck,et al. Differential display or differential dismay , 1995 .
[28] D. Bartel,et al. Growth factors and membrane depolarization activate distinct programs of early response gene expression: dissociation of fos and jun induction. , 1989, Genes & development.
[29] J. Mallet,et al. Molecular Cloning of Forebrain mRNAs which are Modulated by Sleep Deprivation , 1990, The European journal of neuroscience.
[30] G. Uhl,et al. Proenkephalin transgenic mice: A short promoter confers high testis expression and reduced fertility , 1994, Molecular reproduction and development.
[31] M. Jourdan,et al. Seasonal changes in methionine-enkephalin immunoreactivity in the brain of a hibernator, Spermophilus columbianus , 1991, Brain Research.
[32] M. Bentivoglio,et al. C‐fos mRNA is Spontaneously Induced in the Rat Brain During the Activity Period of the Circadian Cycle , 1993, European Journal of Neuroscience.
[33] F R Sharp,et al. 14C-2-deoxyglucose uptake in the ground squirrel brain during entrance to and arousal from hibernation , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[34] H. Heller. Hibernation: neural aspects. , 1979, Annual review of physiology.
[35] T. Shiba,et al. Expression of multiple alpha1-antitrypsin-like genes in hibernating species of the squirrel family. , 1997, Gene.
[36] S. Martin,et al. Preservation of intestinal gene expression during hibernation. , 1996, The American journal of physiology.
[37] T. Kilduff,et al. Sleep and mammalian hibernation: homologous adaptations and homologous processes? , 1993, Sleep.
[38] H. Heller,et al. Are ground squirrels sleep deprived during hibernation? , 1991, The American journal of physiology.
[39] T. Curran,et al. Stimulus-transcription coupling in the nervous system: involvement of the inducible proto-oncogenes fos and jun. , 1991, Annual review of neuroscience.
[40] O. Hayaishi,et al. Seasonal variation in levels of prostaglandins D2, E2 and F2(alpha) in the brain of a mammalian hibernator, the Asian chipmunk. , 1996, Prostaglandins, leukotrienes, and essential fatty acids.
[41] R. Bravo,et al. c-JUN, JUN B, and JUN D differ in their binding affinities to AP-1 and CRE consensus sequences: effect of FOS proteins. , 1991, Oncogene.
[42] M. Oster-Granite,et al. Developmental expression of the amyloid precursor protein, growth-associated protein 43, and somatostatin in normal and trisomy 16 mice. , 1989, Brain research. Developmental brain research.
[43] P. Pévet,et al. The somatostatin system of the brain and hibernation in the European hamster (Cricetus cricetus) , 1997, Cell and Tissue Research.
[44] F. L. Watson,et al. Daily variation of CNS gene expression in nocturnal vs. diurnal rodents and in the developing rat brain. , 1997, Brain research. Molecular brain research.
[45] H. Heller,et al. Neuronal activity during sleep and complete bouts of hibernation. , 1988, The American journal of physiology.
[46] M. Erlander,et al. Two genes encode distinct glutamate decarboxylases , 1991, Neuron.
[47] A. Bragin,et al. Repeated changes of dendritic morphology in the hippocampus of ground squirrels in the course of hibernation , 1992, Neuroscience.
[48] J. Walker,et al. 6 – Sleep and Torpor—Homologous Adaptations for Energy Conservation , 1978 .
[49] O. Hayaishi,et al. Prostaglandin D2 inhibits prostaglandin E2-induced allodynia in conscious mice. , 1996, The Journal of pharmacology and experimental therapeutics.
[50] K. Campbell,et al. Effects of rate of tone‐pip stimulation on the evoked K‐Complex , 1994, Journal of sleep research.
[51] O. Hayaishi. Prostaglandin D Synthase, β-Trace and Sleep , 1997 .
[52] Bruce F. O'Hara,et al. C-fos mRNA increases in the ground squirrel suprachiasmatic nucleus during arousal from hibernation , 1994, Neuroscience Letters.
[53] S. Deeb,et al. Seasonal changes in hormone-sensitive and lipoprotein lipase mRNA concentrations in marmot white adipose tissue. , 1992, The American journal of physiology.
[54] O. Hayaishi,et al. Prostaglandin D2-sensitive, sleep-promoting zone defined in the ventral surface of the rostral basal forebrain. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[55] M. B. Rollins,et al. Low-temperature carbon utilization is regulated by novel gene activity in the heart of a hibernating mammal. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[56] J. D. Miller,et al. Persistence of circadian rhythmicity in hibernating ground squirrels. , 1994, The American journal of physiology.
[57] O. Hayaishi,et al. CSF levels of prostaglandins, especially the level of prostaglandin D2, are correlated with increasing propensity towards sleep in rats , 1997, Brain Research.
[58] Thomas S. Kilduff,et al. Suprachiasmatic nuclei influence hibernation rhythms of golden-mantled ground squirrels , 1990, Brain Research.