「synaptic」の共起表現一覧(1語右で並び替え)
該当件数 : 109件
ince the uncaged glutamate mimics the natural | synaptic activity of one neuron impinging upon another |
Alzheimer's disease, and required for normal | synaptic and cognitive function. |
a release of these neurotransmitters into the | synaptic cleft through their reuptake transporters. |
otonin transporter removes serotonin from the | synaptic cleft back into the synaptic boutons. |
The ACh diffuses across the | synaptic cleft and binds to receptors on the post syna |
neurotransmitter molecules diffuse across the | synaptic cleft to the postsynaptic membrane. |
t of those neurotransmitters available in the | synaptic cleft and therefore increases neurotransmissi |
esterase breaks down the acetylcholine in the | synaptic cleft in order to allow the effector muscle o |
ne, and norepinephrine, are absorbed from the | synaptic cleft rather than cleaved. |
protein's ability to uptake dopamine from the | synaptic cleft and terminating dopamine signaling. |
neuron releases the neurotransmitter across a | synaptic cleft to be detected by the receptors on a po |
the concentration of neurotransmitter in the | synaptic cleft gets too high." |
is, storage, and release of dopamine into the | synaptic cleft). |
After release into the | synaptic cleft, monoamine neurotransmitter action is e |
onin and dopamine from nerve endings into the | synaptic cleft. |
nd organize neurotransmitter receptors in the | synaptic cleft. |
in order to release neurotransmitter into the | synaptic cleft. |
than relying on reuptake of choline from the | synaptic cleft. |
released by the presynaptic terminal into the | synaptic cleft. |
The | synaptic conductors use the link to press onwards the |
Synaptic consolidation is achieved faster than systems | |
Synaptic consolidation is one form of memory consolida | |
ng the first letters of three proteins - post | synaptic density protein (PSD95), Drosophila disc larg |
t brain function by removing neurons by their | synaptic efficiency. |
is gene may be involved in the development of | synaptic elements by modulating NMDA receptor activity |
lutamate-gated ion channels that mediate fast | synaptic excitatory neurotransmission. |
of synaptobrevin II (a protein important for | synaptic exocytosis). |
and have an active role in sleep, cognition, | synaptic function and plasticity, and promote remyelin |
utamate transporters may result in inadequate | synaptic glutamate and may be involved in schizophreni |
Elevation of extracellular | synaptic glycine concentration by blockade of GlyT1 ha |
tropic [GABA(A/C)] receptors, to produce fast | synaptic inhibition, and metabotropic [GABA(B)] recept |
It is a critical mediator of | synaptic inhibition, cellular protection against excit |
s own biophysical characteristics relevant to | synaptic input modulation. |
s some of which may help amplify or attenuate | synaptic input. |
ndirectly, by reducing the impact of incoming | synaptic input. |
or thought, Tyranids communicate via a strong | synaptic link to the hive mind. |
t of noradrenaline on phosphatase activity in | synaptic membrane of the rat brain". |
e membrane close to the receptors on the post | synaptic membrane, and quickly hydrolizes ACh. |
n the transportation of AMPA receptors to the | synaptic membrane, and the regulation of their recepto |
thelial cells, macrophages, granulocytes, and | synaptic membranes from the CNS. |
einforcement, circulating dynamic storage and | synaptic modifications. |
This fries 80 percent of Americop's | synaptic nerve endings. |
oncentration of monoamines in presynaptic and | synaptic neurons, thereby inducing antihypertensive an |
effect of hydergine may be the modulation of | synaptic neurotransmission rather than solely increasi |
synaptic or sensory that engenders a local current). | |
lt, and others provide an easy installer (eg: | Synaptic Package Manager under Ubuntu). |
Reuptake is necessary for normal | synaptic physiology because it allows for the recyclin |
is long-term potentiation, or LTP, a model of | synaptic plasticity related to learning, in which an h |
actions during ontogenetic development and in | synaptic plasticity in the adult. |
ptor cloning, signal transduction mechanisms, | synaptic plasticity response, and voltage gated ion ch |
She is an expert on | synaptic plasticity and brain development, particularl |
l cascades in the physiological regulation of | synaptic plasticity and structural remodeling, and int |
ranslation of proteins that are important for | synaptic plasticity such as ARC/Arg3.1 and CaMKIIalpha |
NRXN3 is thought to be involved in | synaptic plasticity, and polymorphisms in NRXN3 have b |
LTP, one of the best understood forms of | synaptic plasticity, is thought to be a possible under |
lavanoids have effects on encouraging LTP and | synaptic plasticity, therefore affecting memory. |
, caspases play important roles in regulating | synaptic plasticity, an entirely new and unexpected fu |
petite, pain-sensation, mood, motor learning, | synaptic plasticity, and memory. |
(2004) Structural contributions to short-term | synaptic plasticity. |
regulating energy homeostasis, metabolism and | synaptic plasticity. |
lates the processes of neuronal migration and | synaptic plasticity. |
They are the initial sites for | synaptic processing of odor information coming from th |
ntaining the distribution of both vesicle and | synaptic proteins in the nerve terminal. |
In terms of humans, | synaptic pruning has been observed through the inferen |
The purpose of | synaptic pruning is believed to be to remove unnecessa |
In neuroscience, | synaptic pruning, neuronal pruning or neuro-structural |
The | synaptic receptors mediate phasic contraction, duratio |
It inhibits the | synaptic reuptake of dopamine, serotonin and noradrena |
They act through | synaptic signaling on electrically excitable cells. |
It was later found that most | synaptic signalling is chemical, but there are some sy |
Ion influx due to the excitatory | synaptic stimulation of ion channels in the neuronal m |
Iron Mountain Archive Services Platform, AT&T | Synaptic Storage as a Service and EMC Atmos for storin |
rather replaced by new neuronal structures or | synaptic structures, and have been found to occur alon |
This | synaptic summation drives the membrane potential towar |
The | synaptic terminal forms a synapse with a neuron such a |
Like rods, each cone cell has a | synaptic terminal, an inner segment, and an outer segm |
chemical transmitter is released from all the | synaptic terminals of a neurone…" Some modern writers |
ultidomain scaffolding protein with a role in | synaptic transmembrane protein anchoring and ion chann |
ivity-dependent increase in the efficiency of | synaptic transmission thought to underlie certain kind |
ehr W G (2000) Probing fundamental aspects of | synaptic transmission with strontium. |
tion of sodium channels, PMTXs can potentiate | synaptic transmission in the lobster neuromuscular end |
channel that mediates the fastest inhibitory | synaptic transmission in the central nervous system. |
channel that mediates the fastest inhibitory | synaptic transmission in the central nervous system. |
ve been shown to have a stimulatory action on | synaptic transmission, it has been concluded that it i |
the brain and spinal cord that participate in | synaptic transmission. |
eting, including membrane budding and fusion, | synaptic vesicle discharge during neural transmission, |
n is unknown: it interacts with the essential | synaptic vesicle protein synaptobrevin, but when the s |
Presynaptically, it reduces | synaptic vesicle release. |
The presynaptic active zone and the | synaptic vesicle cycle |
(i) early | synaptic vesicle docking to the presynaptic membrane v |
The protein is a | synaptic vesicle glycoprotein with four transmembrane |
h Sgt (SGTA) and Hsc70 (HSPA8) located on the | synaptic vesicle surface. |
omprises proteins that are key players in the | synaptic vesicle recovery at the synapse. |
Synaptophysin also known as the major | synaptic vesicle protein p38 is a protein that in huma |
osities) and nerve endings, whereas the small | synaptic vesicles are mainly found in clusters at pres |
The reserve pool is the pool of | synaptic vesicles which reside in the nerve terminal a |
This dense body is surrounded by | synaptic vesicles and is thought to aid in the fast re |
ool as it can prevent the re-acidification of | synaptic vesicles once they have undergone exocytosis. |
ase of neurotransmitter through exocytosis of | synaptic vesicles from the presynaptic membrane. |
There, they can be repackaged into | synaptic vesicles or degraded by the enzyme monoamine |
nd the response of rhodopsin contained in the | synaptic vesicles, among many other functions. |
retory cell, are then packaged in secretory / | synaptic vesicles, and then released with other neurot |
xpressed in brain and are constituents of the | synaptic vesicles, where they participate in neuromedi |
It is synthesized in the brain, stored in | synaptic vesicles, accumulated by uptake, released by |
It acts to transport monoamines into the | synaptic vesicles. |
tant role in clathrin-mediated endocytosis of | synaptic vesicles. |
nd the co-existing neurotransmitters in small | synaptic vesicles. |
of the proteins in highly purified samples of | synaptic vesicles. |
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