Studies on the intrinsic glutaminergic system as a negative regulator for melatonin secretion in pineal glands 松果体におけるメラトニン分泌の負の制御機構としての内在性グルタミン酸作動性化学伝達機構に関する研究
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Bibliographic Information
- Title
-
Studies on the intrinsic glutaminergic system as a negative regulator for melatonin secretion in pineal glands
- Other Title
-
松果体におけるメラトニン分泌の負の制御機構としての内在性グルタミン酸作動性化学伝達機構に関する研究
- Author
-
山田, 浩司
- Author(Another name)
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ヤマダ, ヒロシ
- University
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広島大学
- Types of degree
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博士 (理学)
- Grant ID
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甲第1561号
- Degree year
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1997-03-05
Note and Description
博士論文
Table of Contents
- CONTENTS / (0003.jp2)
- I.General Introduction / p1 (0005.jp2)
- II.Microvesicle-mediated exocytosis of glutamate is a novel paracrine-like chemical transduction mechanism and inhibits melatonin secretion in rat pinealocytes. / p6 (0010.jp2)
- Abstract / p7 (0011.jp2)
- Introduction / p8 (0012.jp2)
- Materials and Methods / p9 (0013.jp2)
- Results / p14 (0018.jp2)
- Discussion / p20 (0024.jp2)
- III.The L-type Ca²⁺ channel is involved in microvesicle-mediated glutamate exocytosis from rat pinealocytes. / p38 (0042.jp2)
- Abstract / p39 (0043.jp2)
- Introduction / p40 (0044.jp2)
- Materials and Methods / p41 (0045.jp2)
- Results / p45 (0049.jp2)
- Discussion / p47 (0051.jp2)
- IV.Na⁺-dependent glutamate transporter in pinealocytes:Identification and characterization as a reuptake system in novel paracrine-like intercellular chemical transduction. / p57 (0061.jp2)
- Abstract / p58 (0062.jp2)
- Introduction / p59 (0063.jp2)
- Materials and Methods / p60 (0064.jp2)
- Results / p64 (0068.jp2)
- Discussion / p68 (0072.jp2)
- V.Rat pinealocyte as an aspartargic paraneuron:L-Aspartate but not the D-form is secreted through microvesicle-mediated exocytosis and inhibits melatonin secretion. / p83 (0087.jp2)
- Abstract / p84 (0088.jp2)
- Introduction / p85 (0089.jp2)
- Materials and Methods / p86 (0090.jp2)
- Results / p90 (0094.jp2)
- Discussion / p94 (0098.jp2)
- VI.General discussion and conclusions / p105 (0109.jp2)
- References / p110 (0114.jp2)
- Publications / p125 (0129.jp2)
- Acknowledgments / p126 (0130.jp2)
- Vesicular Monoamine Transporter in Microvesicles from Bovine Posterior Pituitaries Is Immunologically Similar to But Distinct from the Chromaffin Granule Counterpart in Its Sensitivities to 1-Methyl-4-Phenylpyridinium and Histamine / p790 (0190.jp2)
- Role of Endocrine Cell Microvesicles in Intercellular Chemical Transduction / p155 (0195.jp2)
- Transmembrane topology of Escherichia coli H⁺-ATPase(ATP synthase) subunit a / (0206.jp2)
- Microvesicles Isolated from Bovine Posterior Pituitary Accumulate Norepinephrine* / p11424 (0211.jp2)
- Inhibiton of Neurotransmitter and Hormone Transport into Secretory Vesicles by 2-(4- Phenylpiperidino)cyclohexanol and 2-Bromo-α-ergocryptine:Both Compounds Act as Uncouplers and Dissipate the Electrochemical Gradient of Protons¹ / p233 (0217.jp2)