The Nervous System

... and reason – Right side focus on creativity – Gyri (sing. gyrus) are the folds or mountains on the cerebrum – Sulci (sing. sulcus) are the dips or cracks on the cerebrum. ...

review-13

... Describe 2 kinds of eye movements and their function. Describe the specialized gaze patterns found by Land in cricket. Describe your results in the ball-catching lab. How do they compare with Land’s? What is meant by “top-down” and “bottom-up” processing? Give examples of both. Give some examples th ...

UNIT 4 – HOMEOSTASIS 8.1 – Human Body Systems and H

... *extension of cytoplasm that carries nerve impulses away from the cell body *vary in length from 1 mm to 1 m *insulated covering over the axon of a nerve cell (provides protection) *speeds the rate of nerve impulse transmission *composed of Schwann cells (type of glial cell) *regularly occurring gap ...

Chapter 48: Neurons, Synapses, and Signaling Reading Guide 48.1

... 26. A single postsynaptic neuron can be affected by neurotransmitter molecules released by many other neurons, some releasing excitatory and some releasing inhibitory neurotransmitters. What will determine whether an action potential is generated in the postsynaptic neuron? 27. Table 48.2 in your te ...

lec #2 By: Lubna Al-Marmori

... inferior part of brain stem then directly make crossing, then it complete its way until reach thalamus, then synap as 3rd order neuron -The axons of 3rd order neurons pass through internal capsule and corona radiata to reach the Postcentral gyrus of cerebral cortex - u should know the difference bet ...

Learning Objectives of Degenerative Diseases - By : Prof Dr

... microtubule, leading to microtubule destabilization and oligomerization of the Tau protein within the cell. • Neurofibrillary tangles form as a result of Tau oligomerization and lead to apoptosis of the neuron. ...

Nervous System: Nervous Tissue (Chapter 12) Lecture Materials for

... -postsynaptic cell receives message as ! ! neurotransmitter! Neurotransmitter = chemical, transmits signal ! ! from pre- to postsynaptic cell across ! ! synaptic cleft ! Synaptic knob = small, round, when ! ! postsynaptic cell is neuron, synapse on ! ! dendrite or soma! Synaptic terminal = complex ...

A Model for Delay Activity Without Recurrent Excitation

... model of Latham and Nirenberg is that the local background is increased significantly (and is eﬀectively inhibitory) in the entire cortical area that sustains the attractor. This may actually be what happens, but as Latham and Nirenberg point out, attractors cannot be observed directly and inference ...

Cellular-synaptic generation of EEG activity

... the generation of EEG stems from the recognition that for the summation of extracellular currents from numerous individual compartments, the events must be relatively slow (39). The dendrites and soma of a neuron form a tree made of an electrically conducting interior surrounded by a relatively ins ...

ANPS 019 Black 11-14

... HOW DOES THE EAR HELP WITH BALANCE Vestibular system -The vestibular apparatus in the inner ear consists of two Otolith Organs: --static equilibrium, linear Utricle – responds to tilting and horizontal movement (moving car) Saccule – responds to vertical movement (elevator) Otochonia: “rocks” move h ...

test prep

... Stimuli too weak to cross our thresholds for awareness may trigger a response in our sense receptors. C) Because the “absolute” threshold is a statistical average, we are able to detect weaker stimuli some of the time. D) All of the above are true. 16. The process by which sensory information is con ...

Nerves and Digestion

... The Kidneys and Bladder • Kidneys filter the blood, removing water, and waste substances and maintaining the body’s fluid balance. • The bladder is where liquid waste material, or urine, from the kidneys is stored. When the bladder is full, nerves send a signal to the brain that it is time to go to ...

Abstract and bio notes ()

... modifications induced by drugs of abuse. In rodents, drugs of abuse induce locomotor hyperactivity, and repeating injections enhances this response. This effect, called behavioral sensitization, persists many months after the last administration, thus mimicking long-term sensitivity to drugs observe ...

Beyond the classical receptive field: The effect of contextual stimuli

... Long-range interaction and contextual neurons Our perception relies on the interaction between proximal and distant points in visual space, requiring short- and long-range neural connections among neurons responding to different regions within the retinotopic map. Evidently, the classical center-sur ...

Vertebrate Zoology BIOL 322/Nervous System and Brain Complete

... Brains of early vertebrates had 3 principal divisions (see Fig. 33.13): 1. Forebrain (= prosencephalon) (smell) 2. Midbrain (= mesencephalon) (vision) 3. Hindbrain (+ rhombencephalon) (hearing and balance) Different vertebrate groups have evolved different kinds of brains over time; Comparison of Ve ...

Representational Capacity of Face Coding in Monkeys

... Other investigations have found that the information carrying capacity of inferior temporal neurons grows more slowly than a linear function of the number of neurons (Gochin et al., 1994; E. T. Rolls, A. Treves, and M. J. Tovee, unpublished observations). This would suggests that face coding is not ...

Review The Neural Basis of Perceptual Learning

... orientation or the location of stimulus elements discussed above, the specificity of learning to more complex features requires a mechanism that is context dependent. This leads to the alternate possibilities that the learning involves higher order cortical areas that can encode more complex stimulu ...

Chapter 2 - Forensic Consultation

... up and down, a wave moves down an axon although it is only made up of ion exchanges moving in and out. ...

Brain Anatomy “Science erases what was previously true.”

... • Basal ganglia: movement coordination with cerebellum to control fine and large motor movements. Secretary to the prefrontal cortex. It is tightly connected to the prefrontal cortex. Parkinson’s disease results from lack of dopamine here. With the insula, the center of the emotion of disgust ...

∂ u /∂ t = u(x,t) +∫ w(x,y)f(u(y,t)) + I(x) + L(x)

... A honeybee may forage on 1,000s of flowers for nectar and pollen in its lifetime. Scent is one of the primary means that it uses for identifying rewarding flowers. How honeybees and other animals learn to associate complex and variable scents with important events is still not ...

RESEARCH LETTERS 3 Marwood RP. Disappearance of

... might simply be existing intrinsic neurons that have acquired a dopaminergic phenotype or they might be new neurons generated from neuronal precursors that persist into adult life. Betarbet and colleagues' suggest that the dopaminergic neurons that appear after MPTP-treatment in monkeys are pre-exis ...

Script - Making Neuroscience Fun

... Your nervous system is connected to every part of your body. It is what makes your body work. Your brain helps you to do all of the behaviors that you do. The brains most important job is helping to keep you alive – as an animal and as part of a species. There is so much to know about the nervous sy ...

- Stem-cell and Brain Research Institute

... extend behind the pinna axis (Barone, Clarey, Irons, & Imig, 1996). Similarly, auditory receptive fields in the STP are large and expand in the peripheral visual field (Hikosaka et al., 1988). Hence, there is a certain degree of ...

Slide ()

... Touch is mediated by four types of mechano receptors in the human hand. The terminals of myelinated sensory nerves innervating the hand are surrounded by specialized structures that detect contact on the skin. The receptors differ in morphology, innervation patterns, location in the skin, receptive ...

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Feature detection (nervous system)

Feature detection is a process by which the nervous system sorts or filters complex natural stimuli in order to extract behaviorally relevant cues that have a high probability of being associated with important objects or organisms in their environment, as opposed to irrelevant background or noise. Feature detectors are individual neurons – or groups of neurons – in the brain which code for perceptually significant stimuli. Early in the sensory pathway feature detectors tend to have simple properties; later they become more and more complex as the features to which they respond become more and more specific. For example, simple cells in the visual cortex of the domestic cat (Felis catus), respond to edges – a feature which is more likely to occur in objects and organisms in the environment. By contrast, the background of a natural visual environment tends to be noisy – emphasizing high spatial frequencies but lacking in extended edges. Responding selectively to an extended edge – either a bright line on a dark background, or the reverse – highlights objects that are near or very large. Edge detectors are useful to a cat, because edges do not occur often in the background “noise” of the visual environment, which is of little consequence to the animal.

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Feature detection (nervous system)