A1987F573800001

... elements. Most significantly, their leading motile processes were invariably apposed to elongated Bergmann glial fibers. The affinity between these two cell types was implied by the fact that migrating neurons followed a glial fiber while passing by more numerous and often more regular processes of ...

Neural Development - Peoria Public Schools

... final location • Nerve cells migrate to their final position with amoeba like movement a. Once in their final position, mature neurons do not normally move. ...

The Journal of Neuroscience

... Nicolas Mallet, Alek Pogosyan, Andrew Sharott, Jozsef Csicsvari, J. Paul Bolam, Peter Brown, and Peter J. Magill Correction: In the April 9, 2008 issue’s “This Week in the Journal” summary of the Development/Plasticity/Repair article by Coate et al., there was an error in the third sentence. The ter ...

List of vocabulary used in understanding the nervous

... An individual becomes aware of the environment through the sense organs and other body receptors (e.g., by allowing for touch, taste, and smell and by collecting information about temperature, light, and sound). The body reflexively responds to external stimuli through a reflex arc. A reflex arc is ...

Lecture 5 Sensory and Motor Systems

... • Complex neural pathways – Most neuromuscular pathways are 1-2 neurons – Most sensory pathways are 3-4 neurons • More responses on different levels. • Sensory systems can drive multiple centers. ...

Nervous System

... Can change with changing permeability to ions ...

SBI4U Nervous System

... • Glial cells are non-conducting cells that are used for structural support and metabolism of neurons • Neurons are the functional units of the nervous system ...

chapter 11 the somatosensory system and topographic organization

... sensory neuron is called the spatial receptive field of that receptor or neuron. Stimuli within the receptive field may either excite or inhibit the receptor or neuron. The receptive fields of individual sensory cells often overlap somewhat with one another so that different cells may provide inform ...

Chapter 2: Brain and Behavior

... Forebrain o Thalamus = The structure, located above the brainstem, that acts as a relay station for information flowing into or out of the higher brain centers o Hypothalamus = A small but influential brain structure that controls the pituitary gland and regulates hunger, thirst, sexual behavior, bo ...

Biological foundations of psychology

... brain’s electrical activity, recorded from electrodes placed on the scalp. ...

Coding of Visual Information in the Retina Coding of Light d D k and

... Responds well to faint lights; g ; less useful for making distinctions in bright light. ...

Objectives included for the test File

... composed of cells called neurons that can carry rapid electrical impulses. Draw and label a diagram of the structure of a motor neuron. State that nerve impulses are conducted from receptors to the CNS by sensory neurons, within the CNS by relay neurons, and from the CNS to effectors by motor neuron ...

Nervous System

... Contains the nucleus and a nucleolus Is the major biosynthetic center Is the focal point for the outgrowth of neuronal processes Has no centrioles (hence its amitotic nature) Has well-developed Nissl bodies (rough ER) Contains an axon hillock – cone-shaped area from which axons arise ...

1

... Motor (efferent only) – carry impulses from CNS Mixed – sensory and motor fibers carry impulses to and from CNS, most common type of nerve These prefixes will be used through out the semester so remember them. Epi – (upon, on top of) always representing the outer most layer of the part being ...

Vision

... Evolutionary pressure has made vision the sense that is the ...

Nervous System

... electrochemical nerve impulses to other neurons. • Nervous tissue is composed of neurons and neuroglial cells. • Neuroglial cells provide support, insulation, and nutrients to neurons • Neurons consist of a cell body and extensions called dendrites and axons • Axons send information in the form of n ...

How To Make a Neuron Model

... axon. These will represent the myelin sheath. 5. Wrap another pipe cleaner on the end of the axon. This will be the synaptic terminal. ...

PSY103_Lecture_CH2_WordScript

... - When cocaine level drops, the absence of these neurotransmitters produces a crash. ...

Sparse coding in the primate cortex

... shapes, and fractal patterns, and the responses are usually not predictable from responses to simple stimuli. Cells responding to faces but not to a large collection of control stimuli could be considered, on the one hand, to be very tightly tuned cells in the space of all possible stimuli. On the o ...

Neuroembryology II_UniTsNeurosciAY1415_06a

... (expressing EGFP under the control of a promoter which specifically fires in CR-cells) into the E11.5 telencephalon, at different locations. After a few days, they studied the resulting distribution of the two markers and could prove that: (1) CR-cells are specifically generated by the cortical hem ...

Anatomy of the Nervous System

... – Relay info to effectors: muscles, organs, and glands (can produce a response) ...

File

... Reverberating pathway neurons later synapse with earlier ones, sending the in the pathway impulse back through the circuit Plasticity of response is ...

Neuroscience 14b – Organisation of the Cerebral Cortex

... This records electrical activity in the brain using electrodes which pick up small changes in membrane potential. It has a very good time resolution but a low spatial resolution in comparison with MRI. An evoked potential is the electrical response recorded on the EEG to a stimulus. They are often v ...

Nervous Tissue

... • Decrease in magnitude w/distance = decremental – Varies with strength of stimuli ...

PNS

... Central Nervous system sensory ...

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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)