Mechanism of Irregular Firing of Suprachiasmatic Nucleus Neurons
... collaterals (Card and Moore 1984; van den Pol 1980; van den Pol and Gorcs 1986), and electrophysiological studies support the hypothesis that these collateral axons form a network of local inhibitory circuits (Strecker et al. 1997). The role of interneuronal communication within the SCN is also uncl ...
... collaterals (Card and Moore 1984; van den Pol 1980; van den Pol and Gorcs 1986), and electrophysiological studies support the hypothesis that these collateral axons form a network of local inhibitory circuits (Strecker et al. 1997). The role of interneuronal communication within the SCN is also uncl ...
Pansynaptic Enlargement at Adult Cortical
... the AF568 dye limits the resolution achievable in our neuronal images. Accordingly, we used the bead emission at >560 nm for PSF measurements. The FWHMs of each PSF were measured in Fiji using the MetroloJ plugin (http://imagejdocu.tudor.lu/doku.php?id=plugin: analysis:metroloj:start). The FWHM of 0 ...
... the AF568 dye limits the resolution achievable in our neuronal images. Accordingly, we used the bead emission at >560 nm for PSF measurements. The FWHMs of each PSF were measured in Fiji using the MetroloJ plugin (http://imagejdocu.tudor.lu/doku.php?id=plugin: analysis:metroloj:start). The FWHM of 0 ...
Reward and Aversion
... (DA) was once considered almost synonymous with reward, but investigation of exactly which of the above components DA signals has just started. Furthermore, the field has begun to appreciate the huge degree of heterogeneity in the reward system in terms of functionality, cell composition, transmitte ...
... (DA) was once considered almost synonymous with reward, but investigation of exactly which of the above components DA signals has just started. Furthermore, the field has begun to appreciate the huge degree of heterogeneity in the reward system in terms of functionality, cell composition, transmitte ...
Functional neuroanatomy of the primate isocortical motor system
... the macaque monkey have been published over the past century (Brodmann 1909; Vogt and Vogt 1919; von Bonin and Bailey 1947; Matelli et al. 1985; Barbas and Pandya 1987; Matelli et al. 1991). Most investigators agree that the primary motor cortex is homogeneous, whereas the rostrally adjoining agranu ...
... the macaque monkey have been published over the past century (Brodmann 1909; Vogt and Vogt 1919; von Bonin and Bailey 1947; Matelli et al. 1985; Barbas and Pandya 1987; Matelli et al. 1991). Most investigators agree that the primary motor cortex is homogeneous, whereas the rostrally adjoining agranu ...
Plasticity during stroke recovery: from synapse to behaviour
... is formed during development and is later sculpted by activity. However, it has been shown that the neurons that contribute to complex functions, such as a memory trace or engram, are not localized in a single brain region but are distributed throughout the cortex 27. Therefore, despite its defined ...
... is formed during development and is later sculpted by activity. However, it has been shown that the neurons that contribute to complex functions, such as a memory trace or engram, are not localized in a single brain region but are distributed throughout the cortex 27. Therefore, despite its defined ...
The Basal Ganglia and Motor Control
... not only receives a (tonic) inhibitory input from the external pallidal segment .(and in this way is disinhibited during striatal activity) but also is projected upon directly by excitatory cortical and thalamic fibers (Gerfen & Wilson, 1996; Feger et al., 1994). The cortical fibers originate mostly ...
... not only receives a (tonic) inhibitory input from the external pallidal segment .(and in this way is disinhibited during striatal activity) but also is projected upon directly by excitatory cortical and thalamic fibers (Gerfen & Wilson, 1996; Feger et al., 1994). The cortical fibers originate mostly ...
Subthalamic Stimulation-Induced Synaptic Responses in Substantia
... extrapolated from a linear regression of PSP amplitude versus membrane potential over a restricted range of the I-V curve, typically between 250 and 2100 mV. The PSP amplitude data were well fit with a linear regression over this range as indicated by the values for the regression coefficients under ...
... extrapolated from a linear regression of PSP amplitude versus membrane potential over a restricted range of the I-V curve, typically between 250 and 2100 mV. The PSP amplitude data were well fit with a linear regression over this range as indicated by the values for the regression coefficients under ...
Chapter 2
... An understanding of the neuronal organization of the inferior colliculus (IC) requires an exploration of how the types of neurons, the microcircuitry, and the synaptic organization of the IC interact to define functional zones. The IC was originally divided using anatomical methods to identify the n ...
... An understanding of the neuronal organization of the inferior colliculus (IC) requires an exploration of how the types of neurons, the microcircuitry, and the synaptic organization of the IC interact to define functional zones. The IC was originally divided using anatomical methods to identify the n ...
Planarian shows decision-making behavior in response to multiple
... stimuli, its nervous system detects sensory cues and converts this information into adaptive movement. For behaviors in response to a simple stimulus, sensory neurons sometimes communicate directly with motor neurons; however, when animals are exposed to more complex stimuli, integration of sensory ...
... stimuli, its nervous system detects sensory cues and converts this information into adaptive movement. For behaviors in response to a simple stimulus, sensory neurons sometimes communicate directly with motor neurons; however, when animals are exposed to more complex stimuli, integration of sensory ...
Target-specific differences in somatodendritic morphology of layer V
... Dendritic geometry has been shown to be a critical determinant of information processing and neuronal computation. However, it is not known whether cortical projection neurons that target different subcortical nuclei have distinct dendritic morphologies. In this study, fast blue retrograde tracing i ...
... Dendritic geometry has been shown to be a critical determinant of information processing and neuronal computation. However, it is not known whether cortical projection neurons that target different subcortical nuclei have distinct dendritic morphologies. In this study, fast blue retrograde tracing i ...
Move to the rhythm: oscillations in the subthalamic nucleus–external
... monkeys have branched axons that mediate both the reciprocal connections and the innervation of the basal ganglia output nuclei [7,8,50–52]. However, it is still not known whether individual STN and GPe neurons form reciprocally connected pairs of neurons or, if such pairs exist, whether they innerv ...
... monkeys have branched axons that mediate both the reciprocal connections and the innervation of the basal ganglia output nuclei [7,8,50–52]. However, it is still not known whether individual STN and GPe neurons form reciprocally connected pairs of neurons or, if such pairs exist, whether they innerv ...
Ventral Medial Nucleus Neurons Send Thalamocortical Afferents
... the VA-VL (Kuramoto et al. 2009, 2011), the latter being located in the rostroventral portion of the VA-VL. On the other hand, the caudodorsal portion of the VA-VL receives glutamatergic excitatory afferents mainly from the deep cerebellar nuclei (Schwarz and Schmitz 1997; Kuramoto et al. 2011), and ...
... the VA-VL (Kuramoto et al. 2009, 2011), the latter being located in the rostroventral portion of the VA-VL. On the other hand, the caudodorsal portion of the VA-VL receives glutamatergic excitatory afferents mainly from the deep cerebellar nuclei (Schwarz and Schmitz 1997; Kuramoto et al. 2011), and ...
electrophysiological studies of rat substantia nigra neurons in an in
... seven days after MCA occlusion, the SNR became smaller in volume than the control (Fig. 1B). The SNR showed a more marked atrophy after 14 days (Fig. 1C). Neuronal necrosis and gliosis were observed at this stage. Changes in electrical membrane properties of substantia nigra neurons after middle cer ...
... seven days after MCA occlusion, the SNR became smaller in volume than the control (Fig. 1B). The SNR showed a more marked atrophy after 14 days (Fig. 1C). Neuronal necrosis and gliosis were observed at this stage. Changes in electrical membrane properties of substantia nigra neurons after middle cer ...
Depression of Acetylcholinesterase Synthesis Following Transient
... rabbit spinal cord after infarction point to degenerative and functional changes of cholinergic neurons following ischemia (Malatova and Maršala 1993) However, a number of studies yielded controversial results concerning AChE changes in ischemic bram AChE activity was significantly reduced in gerbil ...
... rabbit spinal cord after infarction point to degenerative and functional changes of cholinergic neurons following ischemia (Malatova and Maršala 1993) However, a number of studies yielded controversial results concerning AChE changes in ischemic bram AChE activity was significantly reduced in gerbil ...
Stimulation Within the Rostral Ventrolateral Medulla Can Evoke
... brain stem-spinal cord preparation. Neurons were identified as SPNs on the basis of their antidromic activation after stimulation of the ipsilateral segmental ventral root and their morphology and location in the intermediolateral cell column and intercalated nucleus. In all SPNs, electrical stimula ...
... brain stem-spinal cord preparation. Neurons were identified as SPNs on the basis of their antidromic activation after stimulation of the ipsilateral segmental ventral root and their morphology and location in the intermediolateral cell column and intercalated nucleus. In all SPNs, electrical stimula ...
identification of central cholinergic neurons containing both choline
... Neurons in the rat central nervous system (CNS) were examined for their content of both the acetylcholine-synthesizing enzyme, choline acetyltransferase (ChAT; acetyl-CoA, choline O-acetyltransferase, EC 2.3.16), and the transmitter-degrading enzyme, acetylcholinesterase (AChE). ChAT was localized i ...
... Neurons in the rat central nervous system (CNS) were examined for their content of both the acetylcholine-synthesizing enzyme, choline acetyltransferase (ChAT; acetyl-CoA, choline O-acetyltransferase, EC 2.3.16), and the transmitter-degrading enzyme, acetylcholinesterase (AChE). ChAT was localized i ...
Frontiers in Zoology - Deep Metazoan Phylogeny
... eyes [24,33-35], a ciliated loop, the corona ciliata, localised in the dorsal part of the head [2,20,29-32] and the retrocerebral organ, a structure with an unknown putative sensory function [2]. The ventral ganglion is an elongate structure lying between the basement membrane and the epidermis. Two ...
... eyes [24,33-35], a ciliated loop, the corona ciliata, localised in the dorsal part of the head [2,20,29-32] and the retrocerebral organ, a structure with an unknown putative sensory function [2]. The ventral ganglion is an elongate structure lying between the basement membrane and the epidermis. Two ...
PDF
... Xenopus tadpole. Our approach to modeling neuronal connectivity is based on developmental processes of axon growth. A simple mathematical model of axon growth allows us to reconstruct a biologically realistic connectome of the tadpole spinal cord based on neurobiological data. In our model we distri ...
... Xenopus tadpole. Our approach to modeling neuronal connectivity is based on developmental processes of axon growth. A simple mathematical model of axon growth allows us to reconstruct a biologically realistic connectome of the tadpole spinal cord based on neurobiological data. In our model we distri ...
Serotonin Depletion In Vivo Inhibits the
... During normal embryonic development, H. americanus experiences a period of developmental arrest beginning at ⬃E80% that lasts ⬃2 weeks at 18°C (Helluy and Beltz, 1991). After embryos entered this period of developmental arrest, morphological analyses of the olfactory projection neurons were performe ...
... During normal embryonic development, H. americanus experiences a period of developmental arrest beginning at ⬃E80% that lasts ⬃2 weeks at 18°C (Helluy and Beltz, 1991). After embryos entered this period of developmental arrest, morphological analyses of the olfactory projection neurons were performe ...
PDE5 Exists in Human Neurons and is a Viable Therapeutic Target
... hands, the AbCam antibody (seen in Fig. 2A1, B1, and C1) shows the most reliable and robust staining overall, not just in neurons, but also in blood vessels where PDE5 is known to exist [18, 19]. The Atlas antibody is the next best antibody, and the Santa Cruz antibody is the most variable. The subs ...
... hands, the AbCam antibody (seen in Fig. 2A1, B1, and C1) shows the most reliable and robust staining overall, not just in neurons, but also in blood vessels where PDE5 is known to exist [18, 19]. The Atlas antibody is the next best antibody, and the Santa Cruz antibody is the most variable. The subs ...
Electronic Realization of Human Brain`s Neo
... to get close to VLSI mimicry of the brain power efficiency. The brain consisting of 1010 neurons with 1014 neural connections is a very power efficient system that is still the most complex system to date [16]. Comparison of hardware/software implementation and software simulations shows how faraway ...
... to get close to VLSI mimicry of the brain power efficiency. The brain consisting of 1010 neurons with 1014 neural connections is a very power efficient system that is still the most complex system to date [16]. Comparison of hardware/software implementation and software simulations shows how faraway ...
Chapter 122: Neurocircuitry Of Parkinson`s Disease
... of movement (14,46,59,74,142,296) or in maintaining postural stability during arm movements (142). The combination of information traveling via the direct and the indirect pathways of the motor circuit has been proposed to serve to either scale or focus movements (7,200,211). Scaling would be achiev ...
... of movement (14,46,59,74,142,296) or in maintaining postural stability during arm movements (142). The combination of information traveling via the direct and the indirect pathways of the motor circuit has been proposed to serve to either scale or focus movements (7,200,211). Scaling would be achiev ...
13 The Central and Peripheral Nervous Systems
... capsule, the cranial cavity, while the spinal cord lies in the vertebral canal, surrounded by the bones of the vertebral column. Cranial or spinal membranes enclose a space filled with cerebrospinal fluid around the brain and spinal cord, respectively. ...
... capsule, the cranial cavity, while the spinal cord lies in the vertebral canal, surrounded by the bones of the vertebral column. Cranial or spinal membranes enclose a space filled with cerebrospinal fluid around the brain and spinal cord, respectively. ...
Brain
The brain is an organ that serves as the center of the nervous system in all vertebrate and most invertebrate animals. Only a few invertebrates such as sponges, jellyfish, adult sea squirts and starfish do not have a brain; diffuse or localised nerve nets are present instead. The brain is located in the head, usually close to the primary sensory organs for such senses as vision, hearing, balance, taste, and smell. The brain is the most complex organ in a vertebrate's body. In a typical human, the cerebral cortex (the largest part) is estimated to contain 15–33 billion neurons, each connected by synapses to several thousand other neurons. These neurons communicate with one another by means of long protoplasmic fibers called axons, which carry trains of signal pulses called action potentials to distant parts of the brain or body targeting specific recipient cells.Physiologically, the function of the brain is to exert centralized control over the other organs of the body. The brain acts on the rest of the body both by generating patterns of muscle activity and by driving the secretion of chemicals called hormones. This centralized control allows rapid and coordinated responses to changes in the environment. Some basic types of responsiveness such as reflexes can be mediated by the spinal cord or peripheral ganglia, but sophisticated purposeful control of behavior based on complex sensory input requires the information integrating capabilities of a centralized brain.The operations of individual brain cells are now understood in considerable detail but the way they cooperate in ensembles of millions is yet to be solved. Recent models in modern neuroscience treat the brain as a biological computer, very different in mechanism from an electronic computer, but similar in the sense that it acquires information from the surrounding world, stores it, and processes it in a variety of ways, analogous to the central processing unit (CPU) in a computer.This article compares the properties of brains across the entire range of animal species, with the greatest attention to vertebrates. It deals with the human brain insofar as it shares the properties of other brains. The ways in which the human brain differs from other brains are covered in the human brain article. Several topics that might be covered here are instead covered there because much more can be said about them in a human context. The most important is brain disease and the effects of brain damage, covered in the human brain article because the most common diseases of the human brain either do not show up in other species, or else manifest themselves in different ways.