BAD-LAMP defines a subset of early endocytic organelles in

... site of initial contact between axons and dendrites. These vesicles, containing the different proteins necessary for proper establishment and function of synapses, are the results of complex interplay between the secretion and the endocytic membrane transport pathways (Kennedy and Ehlers, 2006). Ano ...

Biological_Bases

... produce produce computer-generated images They distinguish among different types of brain tissue. Image shows ventricular enlargement in a schizophrenic patient. ...

Developmental biology 2008 Lecture 3

... the aqueous humor. The inner layer of the cornea derives from cranial neural crest cells. The iris (a pigmented muscular tissue responsible for controlling pupil size) develops from the outer rim of the optic cup (i.e., the iris is an ectodermally derived muscle!). ...

Shaping dendrites with machinery borrowed from

... with epithelial neighbors provide more than structural roles: the glial-like supporting cells of the inner ear regulate synapse formation by secreting BDNF [22] and eliminate dying hair cells by excision and phagocytosis [23], possibly similar to remodeling mechanisms found in other epithelia. Final ...

Spinal cord 1

...  Uniform and simple organization of other parts of CNS  Very important in day-to-day activities that we don’t even think about ...

FEATURE ARTICLE Summation of Unitary IPSPs

... remained within ±10% of the mean of the first 10 events of the epoch. The difference between the algebraic sums of single input responses and the recorded summed response was calculated during postsynaptic responses and expressed as a percentage of the maximal amplitude of the calculated response at ...

Step Up To: Psychology - Grand Haven Area Public Schools

... 19. The sequence of brain regions from oldest to newest is: A) limbic system; brainstem; cerebral cortex. B) brainstem; cerebral cortex; limbic system. C) limbic system; cerebral cortex; brainstem. D) brainstem; limbic system; cerebral cortex. E) cerebral cortex; brainstem; limbic system. ...

Slide 1 - Elsevier

... FIGURE 2.16 A model of the nervous system’s basic wiring diagram. The model of information flow through the nervous system (yellow box) postulates that behavior and vital body functions are controlled by the motor system (red), which is influenced by three classes of neural input: sensory (green), ...

Ectopic brain tissue in the orbit

... neuroectodermal differentiation occurred? Likewise, it is unlikely that this is a microphthalmia with cyst since no formed globe was present. Finally, meningoencephalocoele and encephalocoele are unlikely since there was no continuity between the orbit and the cranial cavity. Theories relative to th ...

Chapter 18-Autonomic Nervous System

... Preganglionic autonomic motor neuron transmits nerve impulses to a ganglionic motor neuron. Ganglionic autonomic motor neuron transmits Visceral sensory nerve impulses to smooth neuron detects muscle, cardiac muscle, stimuli within blood and glands. vessels and smooth muscle in the Smooth muscle vis ...

Structure of the Inner Ear

... Inner ear contains two sensory structures in one organ: • Vestibular apparatus, which contains mechanosensory organs for balance (orientation re gravity), head acceleration in three dimensions. • Cochlea, which contains the mechanosensory epithelium for hearing (“Organ of Corti”). Vestibular and coc ...

Stochastic Modeling the Tripartite Synapse and Applications

... coming from other cells, process these inputs according to its own physiological characteristics and produce a response which is forwarded to adjacent neurons in the network. In this respect, the neuronal circuits operate as a sophisticated biological communication system, where the information is t ...

Beyond Spikes: Neural Codes and the Chemical Vocabulary of

... be a firing rate or even a membrane potential. A considerable portion of ANN research, which we will refer to by the more general term connectionism, does not concern itself too much with biological realism, so the “neuron” states do not have to correspond to anything an actual cell has to deal wit ...

The Superior Olivary Nucleus and Its Influence on Nucleus

... to the interior of the cell. Recordings were aborted if the membrane potential of a neuron depolarized to 240 mV or greater, and /or if a ruptured patch “resealed” and could not be ruptured again. Data were low-pass filtered at 10 kHz and digitized with an I TC -16 (Instrutech, Great Neck, N Y) at 2 ...

– Cell loss Brain, Neuron

... Comment: Knowledge of the normal neuroanatomic structure of specialized regions of the brain (hippocampus, cerebellum) is necessary to detect neuronal cell loss. It is generally accepted that routine subjective light microscopy detects only significant reductions in cell numbers. Quantitation of mor ...

AL4AI--Google2007

... features of biological neural networks Thus, we could make useful artificial neural systems with: ...

4-Nervous system I: Structure and organization

... Asiatic elephant. Science 138:1100-1103. Harwood, P. 1963. Therapeutic dosage in small and large mammals . Science 139: 684-685. ...

Neural correlates of attention in primate visual cortex

... Fig. 1. Time course of responses to two stimuli inside the receptive field. (a) The curves indicate the normalized instantaneous firing rate averaged across 64 cells from the middle-temporal area (MT) and the medial superior temporal area (MST). The x-axis plots the time (in ms) from the onset of th ...

Questions and Answers

... A (covering the 1-3 above): There are two ways of looking at this: normative and descriptive. Normative: what is the best way to implement this and that? In this case we are only inspired by the brain, but are not aiming to model it precisely. Then a lot of simplifiations are made without worry. Des ...

Part 1: True/False

... B. Cone photoreceptors fire action potentials under conditions of bright light. C. Bipolar cell axons comprise the optic nerve. D. The transmitter released at photoreceptor synapses is glutamate. E. Both A and B are true 17. Which of the following statements is false with respect to mechanosensory r ...

The bed nucleus of the stria terminalis (BNST), a structure

... processing, such as the prefrontal cortex and the hippocampal formation. This information only becomes a stressor once it has been processed and compared to prior events in one’s experience. The BNST also receives “systemic” stressor information, i.e. hypotension or hemorrhage. This input comes dire ...

Clicker Quiz - bloodhounds Incorporated

... seconds, you realize that your heart is beating very rapidly and forcefully. This response is the result of your ______ nervous system. Afferent B. Autonomic C. Central D. Somatic A. ...

Trichromatic theory of color vision

... kinds of cones in the retina, each of which responds to a specific range of wavelengths. • One is most responsive to blue-violet colors, one to green, and the third to yellow-red (Brown & Wald, 1964). According to trichromatic theory perception of color is influenced by the relative strength with wh ...

Clicker Quiz_Neuron_CNS_PNS_Sensory

... seconds, you realize that your heart is beating very rapidly and forcefully. This response is the result of your ______ nervous system. Afferent B. Autonomic C. Central D. Somatic A. ...

Anatomical and physiological bases of consciousness and sleep

... tracts of sensory system (spinothalamic and spinoreticular pathways), which synapse with cells in the RF Fibers from the cerebral cortex, consisting of corticoreticular fibers from widespread cortical areas as well as collaterals from the corticospinal and corticobulbar tracts of the motor system. F ...

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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)