2025-自學課程-細胞神經科學 (7-12月)

  • 0.0
  • 36 學生
  • 報名時間 : 2025/01/01 - 2025/12/31
  • 開課時間 : 2025/01/01 - 2025/12/31
  • 課程費用 : 免費

報名課程

介紹

細胞神經科學

 

🧠 打開大腦黑箱,從神經元理解腦的運作機制

 

你以為神經元只是「傳遞訊號」的線路?其實,它們才是大腦思考、記憶與感知的核心演員。

我們每天都在「用腦」,卻很少真正了解它是怎麼運作的。

這門課將帶你深入大腦的基礎單位:神經細胞,從電位產生、訊號傳遞,到突觸可塑性與神經再生,用嚴謹的實驗資料與系統性理論,建立你對神經科學的核心理解。

不只是為了修完一門課,是重新理解:我們如何感覺、行動、學習、甚至改變。

 

🧪 神經冒險之旅:

 

📍 Week 1|神經元基本原理

認識神經元、膠細胞與膜電位的運作邏輯,打好電性訊號的基礎。

📍 Week 2|動作電位與訊號傳遞

掌握動作電位如何產生、傳遞,以及突觸的傳導機制。

📍 Week 3|突觸傳遞的生理機制

從神經肌肉接點到中樞神經,深入探討突觸傳遞的實際機制。

📍 Week 4|神經傳導物質與調控

解析神經傳導物質如何被釋放、調控,影響大腦運作節奏。

📍 Week 5|突觸可塑性與記憶

了解學習與記憶如何透過突觸的長期變化實現。

📍 Week 6|神經發育機制

從神經元生成、遷移到極性建立,探索神經系統的誕生歷程。

📍 Week 7|突觸發育與神經回路塑形

探討突觸形成、修剪與感官經驗如何塑造神經網絡。

📍 Week 8|神經退化與再生潛力

從神經退化性疾病到再生技術,看見臨床應用的可能性。

 

 

你可能知道大腦很複雜,

但你應該還沒看過:它是怎麼從一顆神經元開始,建立起感覺、記憶、行為的整個系統。

這是一場紮實的概念訓練,幫你建立神經科學的「邏輯地基」。

 

 

🎓 學完之後,你不只更懂大腦,也更懂自己。

《細胞神經科學》一起上課吧!

 

本課程提供線上測驗,但不提供線上成績單,僅提供成績顯示。

章節

* 以下章節為預覽,請點報名後點選開始上課,進入課程
  • Week 1. Fundamental properties of neurons
    • ● Unit 1-1.Nerve cells and neural circuitry
    • ● 1-1Quiz
    • ● Unit 1-2 .Cell biology of neurons
    • ● 1-2Quiz
    • ● Unit 1-3.Structure and function of glial cells
    • ● 1-3Quiz
    • ● Unit 1-4 . Membrane potential of the neuron
    • ● 1-4Quiz
    • ● Unit 1-5.Equivalent circuit of the membrane potential
    • ● 1-5Quiz
    • ● Unit 1-6.Electrotonic potential of the neuron
    • ● 1-6Quiz
    • ● Unit 1-7.Diverse types of ion channels
    • ● 1-7Quiz
    • ● Unit 1-8.Molecular basis of ion channels
    • ● 1-8Quiz
    • ● Unit 1-9. Structure biology of ion channels
    • ● 1-9Quiz
  • Week 2. Transmission of neural signals
    • ● Unit 2-1. Ionic basis of action potential
    • ● 2-1Quiz
    • ● Unit 2-2. Conductance change during action potential
    • ● 2-2Quiz
    • ● Unit 2-3. Gating mechanism of voltage-gated ion channels
    • ● 2-3Quiz
    • ● Unit 2-4. Diverse voltage-gated ion channels determine action potential patterns
    • ● 2-4Quiz
    • ● Unit 2-5. Propagation of action potential
    • ● 2-5Quiz
    • ● Unit 2-6. Neural signal transmission across electrical synapses
    • ● 2-6Quiz
    • ● Unit 2-7. Structure and function of electrical synapses
    • ● 2-7Quiz
    • ● Unit 2-8. Neural signal transmission across chemical synapses
    • ● 2-8Quiz
  • Week 3. Synaptic transmission: mechanisms
    • ● Unit 3-1.The nerve-muscle synapse end-plate potential
    • ● 3-1Quiz
    • ● Unit 3-2.The time course of the end-plate potential
    • ● 3-2Quiz
    • ● Unit 3-3.Current through single acetylcholine receptor-channels
    • ● 3-3Quiz
    • ● Unit 3-4.Structure of acetylcholine receptor-channels
    • ● 3-4Quiz
    • ● Unit 3-5.Synaptic transmission in the central nervous system
    • ● 3-5Quiz
    • ● Unit 3-6.Excitatory synaptic transmission in central neurons
    • ● 3-6Quiz
    • ● Unit 3-7.Inhibitory synaptic transmission in central neurons
    • ● 3-7Quiz
    • ● Unit 3-8.Synaptic integration in the central nervous system
    • ● 3-8Quiz
  • Week 4. Synaptic transmission: neurotransmitters
    • ● Unit 4-1.Transmitter release is triggered by depolarization and calcium influx
    • ● 4-1Quiz
    • ● Unit 4-2.Synaptic vesicles and quantal release
    • ● 4-2Quiz
    • ● Unit 4-3.The synaptic vesicle cycle
    • ● 4-3Quiz
    • ● Unit 4-4. Modulation of transmitter release
    • ● 4-4Quiz
    • ● Unit 4-5.Small-molecule transmitters: acetylcholine
    • ● 4-5Quiz
    • ● Unit 4-6.Small-molecule transmitters: biogenic amines and amino acids
    • ● 4-6Quiz
    • ● Unit 4-7.Scene stabilization during saccades
    • ● 4-7Quiz
    • ● Unit 4-8.Diseases of synaptic transmission
    • ● 4-8Quiz
  • Week 5. Synaptic transmission: plasticity
    • ● Unit 5-1.G protein-coupled receptors and second messengers
    • ● 5-1Quiz
    • ● Unit 5-2. Modulation of synaptic transmission
    • ● 5-2Quiz
    • ● Unit 5-3. Long-lasting effects of synaptic transmission
    • ● 5-3Quiz
    • ● Unit 5-4. Short-term storage of implicit memory
    • ● 5-4Quiz
    • ● Unit 5-5. Long-term storage of implicit memory
    • ● 5-5Quiz
    • ● Unit 5-6. Working memory and long-term potentiation in the hippocampus
    • ● 5-6Quiz
    • ● Unit 5-7. Hebbian learning rule and early/late phases of long-term potentiation
    • ● 5-7Quiz
    • ● Unit 5-8. Spatial learning and long-term memory
    • ● 5-8Quiz
  • Week 6. Development of neurons
    • ● Unit 6-1. Patterning of the neural tube
    • ● 6-1Quiz
    • ● Unit 6-2.? Regionalization and functional subtypes of neurons
    • ● 6-2Quiz
    • ● Unit 6-3.? Proliferation, differentiation, and neuronal cell fate
    • ● 6-3Quiz
    • ● Unit 6-4.? Migration, differentiation, and the neurotransmitter phenotype of neurons
    • ● 6-4Quiz
    • ● Unit 6-5. Survival and apoptosis of neurons
    • ● 6-5Quiz
    • ● Unit 6-6. Establishment of neuronal polarity
    • ● 6-6Quiz
    • ● Unit 6-7.? The growth cone of axon
    • ● 6-7Quiz
    • ● Unit 6-8. Molecular cues of axon guidance
    • ● 6-8Quiz
  • Week 7. Development of synapses
    • ● Unit 7-1.Growth of retinal ganglion axons
    • ● Quiz7-1
    • ● Unit 7-2.?Midline crossing of spinal neuron axons
    • ● Quiz7-2
    • ● Unit 7-3.Recognition of synaptic targets
    • ● Quiz7-3
    • ● Unit 7-4.?Synaptic differentiation in neuromuscular junction
    • ● Quiz7-4
    • ● Unit 7-5.Synaptic differentiation in central neurons and synapse elimination in neuromuscular junctions
    • ● Quiz7-5
    • ● Unit 7-6.Experience-dependent development of binocular circuits
    • ● Quiz7-6
    • ● Unit 7-7.?Reorganization of visual circuits in a critical period
    • ● Quiz7-7
    • ● Unit 7-8.?Activity-dependent refinement of auditory maps
    • ● Quiz7-8
  • Week 8. Degeneration and regeneration of neurons
    • ● Unit 8-1.Axon degeneration and regeneration
    • ● Quiz8-1
    • ● Unit 8-2.Regeneration of injured central neurons
    • ● Quiz8-2
    • ● Unit 8-3.Neurogenesis in the central nervous system
    • ● Quiz8-3
    • ● Unit 8-4.Regenerative therapies
    • ● Quiz8-4
    • ● Unit 8-5.Trinucleotide repeat diseases
    • ● Quiz8-5
    • ● Unit 8-6.Parkinson disease
    • ● Quiz8-6
    • ● Unit 8-7.The aging brain
    • ● Quiz8-7
    • ● Unit 8-8.Alzheimer disease
    • ● Quiz8-8

常見問題

線上成績單 :
此課程線上成績單費用為 300 元

學習履歷 :
此課程學習履歷申請費用為 300 元


指定用書

Eric R. Kandel, James H. Schwartz, Thomas M. Jessell, Steven A. Siegelbaum and A. J. Hudspeth, Principles of Neural Science, 5th Ed., 2012.

特別感謝書商麥格羅﹒希爾(McGraw-Hill)提供書籍圖片授權以俾進行影片製作,以下為此書籍之連結資訊。(點我開啟)

參考資料

  1. Dale Purves, George J. Augustine, David Fitzpatrick and William C. Hall, Neuroscience, 5th Ed., 2011.
  2. Larry Squire, Darwin Berg, Floyd E. Bloom and Sascha du Lac, Fundamental Neuroscience, 4th Ed., 2012.
  3. John G. Nicholls, A. Robert Martin, Paul A. Fuchs and David A. Brown, From Neuron to Brain, 5th Ed., 2011.

先修課程

具備生物學基本概念即可

講師

teacher Picture

焦傳金

國立清華大學生命科學系 教授 | 查看講師

評價

0.0

平均評價

本課程尚未有人來評價

預覽影片 & 簡介

2025-自學課程-細胞神經科學 (7-12月)

腦科學為21世紀最重要的研究領域,而神經科學即是腦科學的基礎。本課程將介紹神經細胞的基本構造與功能、神經訊號的產生與傳遞、神經細胞間的溝通與塑性、神經細胞的發育與改變、神經系統的退化與再生。