공학도를 위한 생물학
- 한국과학기술원
- Christopher Fiorillo
페이스북
트위터
카카오톡
네이버밴드
링크복사
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- 주제분류
- 자연과학 >생물ㆍ화학ㆍ환경 >생명과학
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- 등록일자
- 2009.09.03
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- 조회수
- 12,542
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- 평점
- 4.5/5.0 (2)
The course will cover both cellular and systems level neurophysiology. In addition to teaching the mechanistic structure and function of neurons and networks of neurons, I will emphasize the organization and flow of information (the computational function of the brain). The course will cover basic aspects of neuroscience. It is not necessary that students have had any previous neuroscience coursework, but basic knowledge of cellular and molecular biology is strongly recommended.
- 수강안내 및 수강신청
- ※ 수강확인증 발급을 위해서는 수강신청이 필요합니다
Introduction: Cellular and Systems Neurophysiology
차시별 강의
| 1. | |
Introduction: Cellular and Systems Neurophysiology | The contents of this course wiill include (1) Electrical properties of neuronal membranes (2) Synaptic function (3) Systems (networks) of neurons, including computational principles of their organization |
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Introduction: Cellular and Systems Neurophysiology - 강의자료 | The contents of this course will include (1) Electrical properties of neuronal membranes, (2) Synaptic function, (3) Systems (networks) of neurons, including computational principles of their organization. |
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| 2. | |
Overview of Neurons and the Nervous System | The contents of this course will include (1) General computational theory of the nervous system, (2) Biological information, (3) Amatomy of a single neuron and about the kinds of neurons. |
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Overview of Neurons and the Nervous System - 강의자료 | The contents of this course will include (1) General computational theory of the nervous system, (2) Biological information, (3) Amatomy of a single neuron and about the kinds of neurons. |
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| 3. | |
A Neuron’s Membrane Voltage | The contents of this course will include (1) the Principle of ion movement, (2) Equilibrium potential and Nernst Equation. |
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A Neuron’s Membrane Voltage - 강의자료 | The contents of this course will include (1) the Principle of ion movement, (2) Equilibrium potential and Nernst Equation. |
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| 4. | |
Dynamic Regulation of Membrane Voltage 1_01 | The contents of this lecture will include (1) action potential, (2) the Hodgkin-Huxley model, (3) ion channel properties. |
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Dynamic Regulation of Membrane Voltage 1_02 | The contents of this lecture will include (1) action potential, (2) the Hodgkin-Huxley model, (3) ion channel properties. |
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Dynamic Regulation of Membrane Voltage 1 - 강의자료 | The contents of this lecture will include (1) action potential, (2) the Hodgkin-Huxley model, (3) ion channel properties. |
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Dynamic Regulation of Membrane Voltage 2 | The contents of this lecture will include (1) properties of voltage-gated ion channels, (2) action potential conduction, (2) the diversity of ion channels | |
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| 5. | |
Dynamic Regulation of Membrane Voltage 3 and Synaptic Transmission 1 | The contents of this lecture will include (1) current-voltage relationship, (2) synaptic transmission. | |
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Dynamic Regulation of Membrane Voltage 3 and Synaptic Transmission 1 - 강의자료 | The contents of this lecture will include (1) current-voltage relationship, (2) synaptic transmission. | |
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Synaptic Transmission 2 | The contents of this lecture will include (1) the transmission step by neurotransmitter in synaptic cleft, (2) current and voltage clamp experiments, (3) release probability and mPSC. | |
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| 6. | |
Neurochemistry | The contents of this lecture will include (1) the neurotransmitters, (2) various recepters of neurochemicals, (3) intracellular signal trasduction steps. | |
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Neurochemistry - 강의자료 | The contents of this lecture will include (1) the neurotransmitters, (2) various recepters of neurochemicals, (3) intracellular signal trasduction steps. | |
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| 7. | |
Wiring the Brain 1 | The contents of this lecture will include (1) the connectivity of neurons, (2) approach by computational neuroscience, (3) neural development | |
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Wiring the Brain 2 | The contents of this lecture will include (1) the activity-dependent synaptic rearrangement and how the ocular dominance can be changed, (2) the theory of Hebbian plasticity. | |
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Wiring the Brain 3 | The contents of this lecture will include (1) the critical period of each brain functions, (2) end of critical period, (3) properties of NMDA receptor. | |
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| 8. | |
Synaptic Plasticity 1 | The contents of this lecture will include (1) LTP and LTD phenomena, (2) the experiment of learning and memory in aplysia. | |
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Synaptic Plasticity 2 | The contents of this lecture will include (1) mechanism of cerebellum LTD, (2) hippocampal plasticity, (3) molecular mechanism of synaptic plasticity. | |
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| 9. | |
General Theory 1 | The contents of this lecture will include the paper of General Theory by Christopher D. Fiorillo. | |
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General Theory 2 | The contents of this lecture will include the paper of General Theory by Christopher D. Fiorillo. | |
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General Theory - 강의자료 | The contents of this lecture will include the paper of General Theory by Christopher D. Fiorillo. | |
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General Theory 3 | The contents of this lecture will include the paper of General Theory by Christopher D. Fiorillo. | |
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| 10. | |
The Retina 1 | The contents of this lecture will include (1) the anatomy of retina, (2) properties of retinal neurons, (3) phototransduction mechanism. | |
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The Retina - 강의자료 | The contents of this lecture will include (1) the anatomy of retina, (2) properties of retinal neurons, (3) phototransduction mechanism. | |
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The Retina 2 | The contents of this lecture will include (1) the properties of bipolar cells, (2) receptive field of retinal ganglion neurons. | |
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The Central Visual System 1 | The contents of this lecture will include (1) the retinofugal projection pathway, (2) cell type and structure of lateral geniculate nucleus(LGN), (3) anatomy of striate cortex. | |
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The Central Visual System 2 | The contents of this lecture will include (1) anatomy and physiology of striate cortex, (2) orientation, motion, color selectivity encoding in V1, (3) other regions for visual processing in cortex. | |
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The Central Visual System-강의자료 | The contents of this lecture will include (1) anatomy and physiology of striate cortex, (2) orientation, motion, color selectivity encoding in V1, (3) other regions for visual processing in cortex. | |
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| 12. | |
Seminar by Christof Koch 1 | The contents of this lecture is seminar by Christof Koch, 2009/11/19. | |
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Seminar by Christof Koch 2 | The contents of this lecture is seminar by Christof Koch, 2009/11/19. | |
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Inference, Perception, Attention in Cortex 1 | The contents of this lecture will include (1) the perception and attention in cortex, (2) relative phenomenon and experiments to attentional function. | |
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Inference, Perception, Attention in Cortex 2 | The contents of this lecture will include (1)relative phenomenon and experiments to attentional function, (2) Basic brain structures for dopamine. | |
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Inference, Perception, Attention in Cortex-강의자료 | The contents of this lecture will include (1) the perception and attention in cortex, (2) relative phenomenon and experiments to attentional function. | |
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| 14. | |
Dopamine and Reward (1) | The contents of this lecture will include (1) two aspects of dopamine function, (2) Prediction error and reward. | |
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Dopamine and Reward-강의자료 | The contents of this lecture will include (1) two aspects of dopamine function, (2) Prediction error and reward. | |
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Dopamine and Reward (2) | The contents of this lecture will include (1) two aspects of dopamine function, (2) Prediction error and reward. | |
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| 15. | |
The motor system | The contents of this lecture will include (1) the anatomy of cortex, basal ganglia, spinal cord, (2) input and output of motor neuron, (3) myotatic reflex. | |
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The motor system-강의자료 | The contents of this lecture will include (1) the anatomy of cortex, basal ganglia, spinal cord, (2) input and output of motor neuron, (3) myotatic reflex. | |
연관 자료
