《神經科學百科全書4:神經遞質與受體(影印版)》內容簡介:《神經科學百科全書》原書篇幅巨大,為所有神經科學百科全書之首。由來自世界各地的2400多位專家撰稿人合力打造,覆蓋了神經科學全部主要領域。書中每個詞條在收入書中之前均經過顧問委員會的同行評議,詞條中均含有辭彙表、引言、參考文獻和豐富的交叉參考內容。
基本介紹
- 中文名:神經科學百科全書4:神經遞質與受體
- 外文名:Encyclopedia of Neuroscience:Neurotransmitters and Receptors
- 作者:斯奎爾(Larry R.Squire)
- 出版社:科學出版社
- 頁數:766頁
- 開本:16
- 品牌:科學出版社
- 類型:辭典與工具書
- 出版日期:2010年8月1日
- 語種:英語
- ISBN:9787030280862
基本介紹,內容簡介,作者簡介,圖書目錄,序言,
基本介紹
內容簡介
《神經科學百科全書4:神經遞質與受體(影印版)》:
主編為著名神經科學家、美國神經科學學會前主席Larry R.Squire。
內容平易,本科生即可讀懂。
深度和廣度獨一無二,足可滿足專家學者的需要。
導讀版精選原書中的部分主題,按內容重新編排,更適合國內讀者購買和閱讀。
主編為著名神經科學家、美國神經科學學會前主席Larry R.Squire。
內容平易,本科生即可讀懂。
深度和廣度獨一無二,足可滿足專家學者的需要。
導讀版精選原書中的部分主題,按內容重新編排,更適合國內讀者購買和閱讀。
作者簡介
編者:(美國)斯奎爾(Larry R.Squire)
圖書目錄
神經遞質與受體
Astrocyte: Neurotransmitter and Hormone Receptors
Cotransmission
Neuropeptides and Coexistence
Neurotransmitter and Hormone Receptors on Oligodendrocytes and Schwann Cells
Neurotransmitters and Growth Factors: Overview
Nitric Oxide
胺基酸與嘌呤
Adenosine
Adenosine Triphosphate (ATP)
Adenosine Triphosphate (ATP) as a Neurotransmitter
AMPA Receptor Cell Biology/Trafficking
AMPA Receptors: Disease
AMPA Receptors: Molecular Biology and Pharmacology
Calcium Waves: Purinergic Regulation
D-Serine: From Its Synthesis in Giial Cell to Its Action on Synaptic Transmission and Plasticity
GABA Synthesis and Metabolism
GABAA Receptor Synaptic Functions
GABAA Receptors and Disease
GABAA Receptors: Developmental Roles
GABAA Receptors: Molecular Biology, Cell Biology, and Pharmacology
GABAB Receptor Function
GABAn Receptors: Molecular Biology and Pharmacology
Gamma-Aminobutyric Acid (GABA)
Glial Glutamate Transporters: Electrophysiology
Glutamate
Glutamate Receptor Clusters: Narp, EphB2 Receptor, Stargazin
Glutamate Receptor Organization: Ultrastructural Insights
Glutamate Regulation of Dendritic Spine Form and Function
Glutamatergic and Gabaergic Systems
Glycine Receptors: Molecular and Cell Biology
Herbal Products and GABA Receptors
Kainate Receptor Functions
Kainate Receptors: Molecular and Cell Biology
Long-Term Depression (LTD): Metabotropic Glutamate Receptor (mGluR) and NMDAR-Dependent Forms
Long-Term Potentiation (LTP): NMDA Receptor Role
Long-Term Potentiation and Long-Term Depression in Experience-Dependent Plasticity
Metabotropic Glutamate Receptors (mGluRs): Functions
Metabotropic Glutamate Receptors (mGluRs): Molecular Biology, Pharmacology and Cell Biology
NMDA Receptor Function and Physiological Modulation
NMDA Receptors and Development
NMDA Receptors and Disease
NMDA Receptors, Cell Biology and Trafficking
P2X Receptors
Pharmacology of Sleep: Adenosine
Postsynaptic Density/Architecture at Excitatory Synapses
Purinergic Receptors
Purines and Purinoceptors: Molecular Biology Overview
Transporter Proteins in Neurons and Glia
胺與乙醯膽鹼
Acetylchollne Neurotransmission in CNS
Acetylcholinesterase
Acetylchollnesterase Inhibitors and Alzheimer's Disease
Adenosine Receptor Mediated Functions
Adrenergic Receptors
Amphetamines
Attention Deficit Hyperactivity Disorder (ADHD): Methylphenidate (Ritalin) and Dopamine
Aversive Emotions: Genetic Mechanisms of Serotonin
Brain Adrenergic Neurons
Cells: 5-Hydroxytryptamine Receptors
Cholinergic Neurotransmission in the Autonomic and Somatic Motor Nervous System.
Chollnergic Pathways in CNS
Cholinergic System
Dopamine
Dopamine-CNS Pathways and Neurophysiology
Dopamlne Control of Arousal
Dopanune in Perspective
Dopannne Neurons: Reward and Uncertainty
Dopannne Receptors and Antipsychotic Drugs in Health and Disease
Dopannne: Cellular Actions
Dopaminergic Agonists and L-DOPA
Histamine Receptors and their Ligands: Mechanisms and Applications
3,4-Methylenedioxymethamphetamine (MDMA, "Ecstasy")
Monoamine Transporters: Focus on the Regulation of Serotonin Transporter by Cytokines
Monoamines
Monoamines: Human Brain Imaging
Monoamines: Release Studies
Muscarinic Receptors: Autonomic Neurons
Neuroleptics
Neutrotransmission and Neuromodulation: Acetylcholine
Nicotine
Nicotinic Aeetylcholine Receptors
Nicotinic Receptors: Autonomic Neurons
Noradrcnaline
Norepinephrine: Adrenergic Receptors
Norcpinephrine: CNS Pathways and Neurophysiology
Octopamine and Other Monoamines in Invertebrates
Serotonin (5-Hydroxytryptamine; 5-HT): Neurotransmissionand Neuromodulation
Serotonin (5-Hydroxytryptamine; 5-HT): CNS Pathways and Neurophysiology
Serotonin (5-Hydroxytryptamine; 5-HT): Receptors
Serotonin and the Regulation of Mammalian Circadian Rhythms
Serotonin-Related Psychedelic Drugs
Sleep-Wake State Regulation by Acetylcholine
Sympathomimetic Drugs and Adrenergic Receptor Antagonists
Trace Monoamines and Receptors in Mammalian CNS
原書詞條中英對照表
Astrocyte: Neurotransmitter and Hormone Receptors
Cotransmission
Neuropeptides and Coexistence
Neurotransmitter and Hormone Receptors on Oligodendrocytes and Schwann Cells
Neurotransmitters and Growth Factors: Overview
Nitric Oxide
胺基酸與嘌呤
Adenosine
Adenosine Triphosphate (ATP)
Adenosine Triphosphate (ATP) as a Neurotransmitter
AMPA Receptor Cell Biology/Trafficking
AMPA Receptors: Disease
AMPA Receptors: Molecular Biology and Pharmacology
Calcium Waves: Purinergic Regulation
D-Serine: From Its Synthesis in Giial Cell to Its Action on Synaptic Transmission and Plasticity
GABA Synthesis and Metabolism
GABAA Receptor Synaptic Functions
GABAA Receptors and Disease
GABAA Receptors: Developmental Roles
GABAA Receptors: Molecular Biology, Cell Biology, and Pharmacology
GABAB Receptor Function
GABAn Receptors: Molecular Biology and Pharmacology
Gamma-Aminobutyric Acid (GABA)
Glial Glutamate Transporters: Electrophysiology
Glutamate
Glutamate Receptor Clusters: Narp, EphB2 Receptor, Stargazin
Glutamate Receptor Organization: Ultrastructural Insights
Glutamate Regulation of Dendritic Spine Form and Function
Glutamatergic and Gabaergic Systems
Glycine Receptors: Molecular and Cell Biology
Herbal Products and GABA Receptors
Kainate Receptor Functions
Kainate Receptors: Molecular and Cell Biology
Long-Term Depression (LTD): Metabotropic Glutamate Receptor (mGluR) and NMDAR-Dependent Forms
Long-Term Potentiation (LTP): NMDA Receptor Role
Long-Term Potentiation and Long-Term Depression in Experience-Dependent Plasticity
Metabotropic Glutamate Receptors (mGluRs): Functions
Metabotropic Glutamate Receptors (mGluRs): Molecular Biology, Pharmacology and Cell Biology
NMDA Receptor Function and Physiological Modulation
NMDA Receptors and Development
NMDA Receptors and Disease
NMDA Receptors, Cell Biology and Trafficking
P2X Receptors
Pharmacology of Sleep: Adenosine
Postsynaptic Density/Architecture at Excitatory Synapses
Purinergic Receptors
Purines and Purinoceptors: Molecular Biology Overview
Transporter Proteins in Neurons and Glia
胺與乙醯膽鹼
Acetylchollne Neurotransmission in CNS
Acetylcholinesterase
Acetylchollnesterase Inhibitors and Alzheimer's Disease
Adenosine Receptor Mediated Functions
Adrenergic Receptors
Amphetamines
Attention Deficit Hyperactivity Disorder (ADHD): Methylphenidate (Ritalin) and Dopamine
Aversive Emotions: Genetic Mechanisms of Serotonin
Brain Adrenergic Neurons
Cells: 5-Hydroxytryptamine Receptors
Cholinergic Neurotransmission in the Autonomic and Somatic Motor Nervous System.
Chollnergic Pathways in CNS
Cholinergic System
Dopamine
Dopamine-CNS Pathways and Neurophysiology
Dopamlne Control of Arousal
Dopanune in Perspective
Dopannne Neurons: Reward and Uncertainty
Dopannne Receptors and Antipsychotic Drugs in Health and Disease
Dopannne: Cellular Actions
Dopaminergic Agonists and L-DOPA
Histamine Receptors and their Ligands: Mechanisms and Applications
3,4-Methylenedioxymethamphetamine (MDMA, "Ecstasy")
Monoamine Transporters: Focus on the Regulation of Serotonin Transporter by Cytokines
Monoamines
Monoamines: Human Brain Imaging
Monoamines: Release Studies
Muscarinic Receptors: Autonomic Neurons
Neuroleptics
Neutrotransmission and Neuromodulation: Acetylcholine
Nicotine
Nicotinic Aeetylcholine Receptors
Nicotinic Receptors: Autonomic Neurons
Noradrcnaline
Norepinephrine: Adrenergic Receptors
Norcpinephrine: CNS Pathways and Neurophysiology
Octopamine and Other Monoamines in Invertebrates
Serotonin (5-Hydroxytryptamine; 5-HT): Neurotransmissionand Neuromodulation
Serotonin (5-Hydroxytryptamine; 5-HT): CNS Pathways and Neurophysiology
Serotonin (5-Hydroxytryptamine; 5-HT): Receptors
Serotonin and the Regulation of Mammalian Circadian Rhythms
Serotonin-Related Psychedelic Drugs
Sleep-Wake State Regulation by Acetylcholine
Sympathomimetic Drugs and Adrenergic Receptor Antagonists
Trace Monoamines and Receptors in Mammalian CNS
原書詞條中英對照表
序言
什麼是百科全書?這一名詞來自於兩個希臘單詞:enkuklios(意思是循環的)和paideia(意思是教育)。在16世紀早期,拉丁手稿的抄寫者們將這兩個單詞合而為一,其在英語中演化為一個單詞,意思是具有廣泛指導意義的工具書(The American Heritage Dictionary,2000,Boston:Houghton:Mifflin,p.589)。從其來源可見,其希臘文原詞中蘊含著以探索、綜合的方式努力獲取知識的含義。無論是拉丁文還是英文,該單詞泛指涵蓋廣泛領域知識的工具書。
希臘文中強調的以創造性手段獲取知識,在神經科學領域尤其適用。神經科學本身就是一個非常新的名詞。Francis Schmitt在本書第一版的前言中指出,本書的編寫過程就是將不同領域的科學家們聚集在一起,衝擊大腦研究中最頑固的難題。他推動建立了神經科學研究項目(Neuroscience Research Program,簡稱NRP)。早期的NRP成員包括一些學術巨匠,如因關於光合作用的研究獲得諾貝爾獎的Melvin Calvin、諾貝爾獎獲得者物理化學家Manfred Eigen、生物化學家Albert L,ehninger,和當時正在努力破解基因編碼的年輕分子生物學家Marshall Nirenberg。
Schmitt建立NRP的時候,神經科學作為一門綜合學科還幾乎不存在。微電極的發明使神經生理學家們得以記錄單細胞的電活動,但是幾乎不可能甄別其生物化學特性。一個重要的推進來自20世紀60年代中期湧現的Falck.Hillarp螢光顯微鏡技術,它能夠選擇性地觀察兒茶酚胺和5一羥色胺能神經元。這些胺類通路的研究又很快使得檢測選擇性損傷後效應的行為學家們和生化學家們開始合作研究,使得後者的工作不再局限於在整個腦組織勻漿的水平研究神經遞質。20世紀70年代關於神經遞質受體的生化研究、它們位點的放射自顯影研究,以及神經多肽的免疫組織化學研究,更是進一步促進了神經生理學家、神經解剖學家、神經化學家和神經藥理學家們的對話。而過去兩個世紀以來,分子生物學技術手段的套用更加豐富了這一交流。
神經科學的爆炸性發展也體現在神經科學學會(Society。for Neuroscience,SFN)的歷史上。SFN於1970年(譯者註:SFN網站中所寫的時間為1969年)由幾百名研究人員在華盛頓特區
希臘文中強調的以創造性手段獲取知識,在神經科學領域尤其適用。神經科學本身就是一個非常新的名詞。Francis Schmitt在本書第一版的前言中指出,本書的編寫過程就是將不同領域的科學家們聚集在一起,衝擊大腦研究中最頑固的難題。他推動建立了神經科學研究項目(Neuroscience Research Program,簡稱NRP)。早期的NRP成員包括一些學術巨匠,如因關於光合作用的研究獲得諾貝爾獎的Melvin Calvin、諾貝爾獎獲得者物理化學家Manfred Eigen、生物化學家Albert L,ehninger,和當時正在努力破解基因編碼的年輕分子生物學家Marshall Nirenberg。
Schmitt建立NRP的時候,神經科學作為一門綜合學科還幾乎不存在。微電極的發明使神經生理學家們得以記錄單細胞的電活動,但是幾乎不可能甄別其生物化學特性。一個重要的推進來自20世紀60年代中期湧現的Falck.Hillarp螢光顯微鏡技術,它能夠選擇性地觀察兒茶酚胺和5一羥色胺能神經元。這些胺類通路的研究又很快使得檢測選擇性損傷後效應的行為學家們和生化學家們開始合作研究,使得後者的工作不再局限於在整個腦組織勻漿的水平研究神經遞質。20世紀70年代關於神經遞質受體的生化研究、它們位點的放射自顯影研究,以及神經多肽的免疫組織化學研究,更是進一步促進了神經生理學家、神經解剖學家、神經化學家和神經藥理學家們的對話。而過去兩個世紀以來,分子生物學技術手段的套用更加豐富了這一交流。
神經科學的爆炸性發展也體現在神經科學學會(Society。for Neuroscience,SFN)的歷史上。SFN於1970年(譯者註:SFN網站中所寫的時間為1969年)由幾百名研究人員在華盛頓特區