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Курс: Advanced Neurobiology I. Чтобы вернуться, нажмите
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Welcome to Advanced Neurobilology!
1.1.1 Terminology
1.1.2 Central nervous system and blood brain barrier
1.1.3 Meninges
1.1.4 Telencephalon
1.1.5 The localization and globalization theory
1.1.6 White matter
1.1.7 Internal structures
1.1.8 Hippocampus and LTP
1.1.9 Cerebellum
1.2.1 Brain stem
1.2.2 Cranial nerves
1.2.3 Ascending and descending tracts and reticular formation
1.2.4 Pons
1.2.5 Reflex and reflex arc
1.2.6 Concepts in the CNS and PNS
1.2.7 Spinal cord
1.2.8 The visceral nervous system
1.2.9 Several pathways of the nervous system
1 神经科学引言
2 神经科学与人类健康和医药工业
3 神经科学的启蒙时代
4 神经科学的问题、方法、层次
5 脑的功能分区:颅相学与Broca’s area
6 脑的功能分区:皮层的分区
7 脑的功能分区:两半球的差别
8 PET和fMRI
9 外周神经系统
10 神经元学说和神经元极性
11 神经环路
12 神经信息传递:动作电位
13 神经信息传递-化学传递
2.1 Reductionism and hypothesis
2.2 Morphology of the neuron
2.3 Visualization of neurons and the neuron doctrine
2.4 The story of the fluorescent proteins
2.5 Stories of the Nobel prize
2.6 Organic fluorescent probes
2.7 Proteins specifically expressed in neurons and "brainbow" technique
2.8 Microscopy techniques I
2.9 Microscopy techniques II
2.10 The electron microscope
2.11 Glia and myelination
2.12 Research: AIS and Ankyrin G
3.1.1 A overview of neurons
3.1.2 Real life situation: Aβ in Alzheimer’s disease
3.1.3 Organelles and cytoskeleton in neurons
3.1.4 Research: induction of the tunneling nanotube
3.1.5 Defects in myelination and related diseases
3.1.6 Synthesis and trafficking of neuronal proteins I
3.1.7 Synthesis and trafficking of neuronal proteins II
3.2.1 Cellular information transfer
3.2.2 Signaling molecules
3.2.3 Neurotransmitters and receptors
3.2.4 The synapse
3.2.5 Types of receptors
3.2.6 Crosstalk of cellular signal transduction pathways
3.2.7 The LTP
3.2.8 The molecular mechanism of learning and memory
3.2.9 Glia in a synapse
3.3.1 Alzheimer’s disease: introduction and myths
3.3.2 Alzheimer’s disease: pathology
3.3.3 Parkinson’s disease: introduction
3.3.4 Parkinson’s disease: symptoms and prognosis
3.3.5 Parkinson’s disease: pathology
3.3.6 Parkinson’s disease: treatment
3.3.7 Prion diseases
4.1 Overview
4.2 The resting potential
4.3 The resting potential and the Nernst equation
4.4 The Nernst Equation
4.5 Biological and electrical proporties of neurons I
4.6 Biological and electrical proporties of neurons II
4.7 Biological and electrical proporties of neurons III.
5.1 Ion channels and membrane potentials I
5.2 Ion channels and membrane potentials II
5.3 Ion channels and membrane potentials III
5.4 Ion channels and membrane potentials IV
5.5 Ion channels and membrane potentials V
5.6 Ion channels and membrane potentials VI
5.7 Ion channels and membrane potentials VII
5.8 Ion channels and membrane potentials VIII
Kang Shen - 1
Kang Shen - 2
Kang Shen -3
Kang Shen - 4
Kang Shen - 5
Kang Shen - 6
Kang Shen - 7
Kang Shen - 8
Liqun Luo - 1
Liqun Luo - 2
Liqun Luo - 3
Liqun Luo - 4
Liqun Luo - 5
Liqun Luo - 6
Liqun Luo - 7
6.1 Voltage sensing
6.2 The Na+ gating current
6.3 Inactivation gates
6.4 Ion channel, membrane potential and synaptic transmission I
6.5 Ion channel, membrane potential and synaptic transmission II
6.6 Ion channel, membrane potential and synaptic transmission III
6.7 Ion channel, membrane potential and synaptic transmission IV
6.8 Ion channel, membrane potential and synaptic transmission V
7.1 How does Ca2+ control neurotransmitter release I
7.2 How does Ca2+ control neurotransmitter release II
7.3 How does Ca2+ control neurotransmitter release III
7.4 How does Ca2+ control neurotransmitter release IV
7.5 Molecular mechanism involved in neurotransmetter release I
7.6 Molecular mechanism involved in neurotransmetter release II
7.7 Molecular mechanism involved in neurotransmetter release III
7.8 Molecular mechanism involved in neurotransmetter release IV
7.9 Molecular mechanism involved in neurotransmetter release V
7.10 Molecular mechanism involved in neurotransmetter release VI
7.11 Molecular mechanism involved in neurotransmetter release VII
7.12 Molecular mechanism involved in neurotransmetter release VIII
7.13 Molecular mechanism involved in neurotransmetter release IX
7.14 Molecular mechanism involved in neurotransmetter release X
8.1 Synaptic trasmission I
8.2 Synaptic trasmission II
8.3 Synaptic trasmission III
8.4 Synaptic transmission IV
8.5 Synaptic trasmission V
8.6 Synaptic trasmission VI
9.1 Synapitic plasticity I
9.2 Synapitic plasticity II
9.3 Synapitic plasticity III
9.4 Synapitic plasticity IV
9.5 Synapitic plasticity V
9.6 Synapitic plasticity VI
10.1 Observation and perturbation
10.2 Animal models in neurological research
10.3 Genetic and molecular techniques
10.4 Anatomical techniques
10.5 Mapping synaptic connections
10.6 Patch recording and optical imaging