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Курс: Advanced Neurobiology II. Чтобы вернуться, нажмите
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Welcome to Advanced Neurobiology!
1.1.1 Ways to sense the environment-I
1.1.2 Ways to sense the environment-II
1.1.3 Ways to sense the environment-III
1.1.4 Sensory transduction-I
1.1.5 Sensory transduction-II
1.1.6 Sensory processing
1.1.7 Sensory representation in the brain
1.1.8 Vision
1.1.9 Single-photon detection
1.1.10 Second messengers
1.2.1 Review
1.2.2 Phototransduction-I
1.2.3 Phototransduction-II
1.2.4 Phototransduction-III
1.2.5 Color vision-I
1.2.6 Color vision-II
1.2.7 Signal processing of the retina
2.1.1 Center-Surround Receptive Field
2.2.2 The LGN
2.2.3 LGN and the visual pathway
2.2.4 Simple and complex cells-I
2.2.5 Simple and complex cells-II
2.2.6 Colors
2.2.1 Sound transduction-I
2.2.2 Sound transduction-II
2.2.3 Sound transduction-III
2.2.4 Sound transduction-IV
2.2.5 Sound transduction-V
2.2.6 Auditory pathways and the tonotopic map
2.2.7 Sound localization-I
2.2.8 Sound localization-II
3.1.1 The senses of chemoreception
3.1.2 Olfactory organization
3.1.3 Olfactory transduction
3.1.4 Olfactory adaption
3.1.5 Identification of odorant-receptor genes-I
3.1.6 Identification of odorant-receptor genes-II
3.1.7 Three models of olfactory organization
3.2.1 Projection of the olfactory system
3.2.2 Circuits in the olfactory bulb-I
3.2.3 Circuits in the olfactory bulb-II
3.2.4 Taste and taste receptors-I
3.2.5 Taste and taste receptors-II
3.2.6 Taste and taste receptors-III
3.2.7 Taste and taste receptors-IV
3.2.8 Taste transduction-I
3.2.9 Taste transduction-II
4.1.1 Parallel organization of the somatosensory system-I
4.1.2 Parallel organization of the somatosensory system-II
4.1.3 Mechanosensory neurons
4.1.4 Response properties: adaptation and stimuli & receptive field
4.1.5 Mechanotransduction channels-I
4.1.6 Mechanotransduction channels-II
4.1.7 Somatosensory cortex & somatopic map-I
4.1.8 Somatopic map-II, barrel cortex & pain regulation
4.2.1 Sleep-I
4.2.2 Sleep-II
4.2.3 Sleep-III
4.2.4 Sleep-IV
4.2.5 Circadian and sleep homeostasis
4.2.6 Sleep stage-I
4.2.7 Sleep stage-II
4.2.8 Summary of sleep studies
4.2.9 Sleep/waking Flip-flop Model
5.1.1 Do you take movement for granted?
5.1.2 Brain imaging and functional areas
5.1.3 Review of the CNS and PNS and cortical homunculus
5.1.4 Review of the cerebellum and basal nuclei
5.1.5 Review of the cranial nerves
5.1.6 Review of the cranial nerves
5.1.7 Spinal cord discomfort
5.2.1 The ladder-from molecules to animals
5.2.2 Biology and disease—why do we biologists care about diseases?
5.2.3 Why do we care so much about the 10% genetic forms of neurological diseases?
5.2.4 Cellular functions—what are involved in neurological diseases?
5.2.5 Recurring features in neurodegeneration
5.2.6 Anatomic deficits of AD
5.2.7 Cell death in AD
5.2.8 Genes involved in AD
5.2.9 Practice:what’s the situation in ALS?
6.1 The dopamine system
6.2 Basal ganglia and its two pathways
6.3 HD deficits in basal ganglia
6.4 Anatomical deficits of HD
6.5 CAG repeats in HD
6.6 Are aggregations proper drug targets?
6.7 Symptoms of PD
6.8 Genes of familial PD
6.9 Interventions of PD
7.1 Mood and emotions
7.2 Autism
7.3 Addiction
7.4 Schizophrenia
7.5 Depression
7.6 Bipolar disorder
7.7 Causes of mood disorders
7.8 Treatment of depression and bipolar disorder
7.9 Attention disorder
8.1 Introduction of behavior
8.2 Bruce effect
8.3 Definition of behavior
8.4 Classification of behavior
8.5 Clock
8.6 Transcriptional feed back
8.7 Photoentrainment
8.8 Gene and sex Ⅰ
8.9 Gene and sex Ⅱ
8.10 Parabiosis
8.11 Leptin