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Курс: Advanced Neurobiology I. Чтобы вернуться, нажмите здесь.
- 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