章節

• 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

講師

焦傳金

國立清華大學生命科學系 教授 ｜ 查看講師

評價 (1)

成功高中學生

2022-04-10 21:00:11

　　上完自學課程-細胞神經科學期中考範圍W1到W4的進度後，我認為此課程有2個優點和2個缺點。 優點： 　　第一，我認為焦傳金老師的講課內容非常好，條理分明，邏輯清晰，讓我學到很多。第二，每一小節的課程之後都有3題的題目，方便檢核我對於該小節的理解吸收程度。 缺點： 　　第一，課程影片畫質太低，最高只支援到480p，讓課程簡報顯示得不是很清楚。第二，W4的Unit 4-7.Scene stabilization during saccades應該是課程錯置了。