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1 hat is recruited only when Ca(2+) floods the synaptic terminal.
2 unction in establishing a full-grown, mature synaptic terminal.
3 bear on a single, reproducibly identifiable, synaptic terminal.
4 formation by organizing microtubules in the synaptic terminal.
5 ll body, and neurotransmitter release at the synaptic terminal.
6 expression of wrd leads to overgrowth of the synaptic terminal.
7 complement of proteins expressed within the synaptic terminal.
8 was activity-dependent and restricted to the synaptic terminal.
9 outer segment, inner segment, cell body, and synaptic terminal.
10 is the dominant form of Ca2+ removal in the synaptic terminal.
11 (AP) successfully from the axon hillock to a synaptic terminal.
12 a(2+) entering voltage-gated channels at the synaptic terminal.
13 cing the carbon fiber directly on the larger synaptic terminal.
14 tem for ACh preventing it from acting at the synaptic terminals.
15 ium concentration in both the AIS and nearby synaptic terminals.
16 in numerous membrane compartments including synaptic terminals.
17 ei and was detected in somata, dendrites and synaptic terminals.
18 sting potential targets for reducing loss of synaptic terminals.
19 n enhancing the dopamine storage capacity of synaptic terminals.
20 seline [Ca(2+)](i) in rod inner segments and synaptic terminals.
21 ughout the retina, including in rod and cone synaptic terminals.
22 lism could lead to amyloid overproduction in synaptic terminals.
23 ) from the stores, was shifted away from the synaptic terminals.
24 ally to the plasma membrane of photoreceptor synaptic terminals.
25 t could be detected in somata, dendrites and synaptic terminals.
26 ve and GAD-negative (presumed glutamatergic) synaptic terminals.
27 atory signals that organize morphogenesis at synaptic terminals.
28 put from amacrine cells to bipolar cell (BC) synaptic terminals.
29 naptic vesicle reacidification at individual synaptic terminals.
30 form layer, indicating loss of photoreceptor synaptic terminals.
31 accompanied by its redistribution toward rod synaptic terminals.
32 in photoreceptors, where it is localized to synaptic terminals.
33 isualization of tyrosinehydroxylase-positive synaptic terminals.
34 cal outputs in the form of vesicle fusion at synaptic terminals.
35 evidence that these channels are present in synaptic terminals.
36 nd neurotransmitter release in photoreceptor synaptic terminals.
37 phenotypes but that it is not present in all synaptic terminals.
38 ed exclusively within dense core vesicles of synaptic terminals.
39 d to mammalian neurons with relatively small synaptic terminals.
40 ficantly higher in the dendrites than in the synaptic terminals.
41 e calcium potentials (RCaPs) in bipolar cell synaptic terminals.
42 ter segment through the inner segment to the synaptic terminals.
43 ollows Ca(2+)-triggered exocytosis in single synaptic terminals.
44 n the molecular organization and function of synaptic terminals.
45 aformaldehyde, a large fraction of these are synaptic terminals.
46 drolysis in compensatory fast endocytosis in synaptic terminals.
47 of exocytosis and endocytosis separately at synaptic terminals.
48 e data suggest multiple functions for CSP at synaptic terminals.
49 cles near the plasma membrane of live ribbon synaptic terminals.
50 ource in clearance of Ca2+ from bipolar cell synaptic terminals.
51 ght to be important in clearing calcium from synaptic terminals.
52 h include axons, dendrites, growth cones and synaptic terminals.
53 f mIPSC and increasing the size of GABAergic synaptic terminals.
54 ding rod bipolar axons before enveloping the synaptic terminals.
55 terized by structural defects in IS, OS, and synaptic terminals.
56 and synaptophysin confirmed that these were synaptic terminals.
57 and p-tau in large populations of individual synaptic terminals.
58 hput while resolving fine structures such as synaptic terminals.
59 arrival time of axonal action potentials to synaptic terminals.
60 egenerative phenomena such as elimination of synaptic terminals.
61 ne and coextensive with the micrometers-long synaptic terminals.
62 ppear to vary considerably amongst different synaptic terminals.
63 up of neurons receives three common types of synaptic terminals.
64 pe 1 cannabinoid receptors (CB1R) located on synaptic terminals.
65 tioned at synapses, contacting pre- and post-synaptic terminals.
66 rs mediate uptake of apoE/Abeta complex into synaptic terminals.
67 he expense of the resting pool in individual synaptic terminals.
68 150 in initiation of retrograde transport at synaptic terminals.
69 DCVs fused preferentially at synaptic terminals.
70 but ultrastructural analysis revealed in the synaptic terminal a dramatic microtubule reduction, whic
72 FFN102 allows the measurement of individual synaptic terminal activity by following fluorescence los
73 tudies showed that Ca2+ clearance from these synaptic terminals after single APs and AP trains was pr
74 ynaptic vesicles are recycled locally in the synaptic terminal and are refilled with neurotransmitter
75 els regulate fusion of small vesicles at the synaptic terminal and have also been suggested to trigge
76 fferences in the intrinsic properties of the synaptic terminal and the activation of presynaptic neur
79 rootlets extend from the basal bodies to the synaptic terminals and anchor ER membranes along their l
82 nal regions, and by ED18 were assembled into synaptic terminals and became undetectable in the inner
83 is driven to the surface membrane of central synaptic terminals and becomes functional by the neurotr
85 ew of the strong correlation between loss of synaptic terminals and dementia, together with the reduc
87 e extensively, thus increasing the number of synaptic terminals and effectively normalizing the combi
88 cytoskeleton is implicated in secretion from synaptic terminals and from several types of neuroendocr
89 Bmal1 deletion caused the degeneration of synaptic terminals and impaired cortical functional conn
90 nces by inducing overelaboration of the sLNv synaptic terminals and increasing PDF levels, supporting
91 conveying precise timing, including calyceal synaptic terminals and matching axonal conduction times,
93 strate that protein aggregates accumulate at synaptic terminals and progressively spread throughout t
94 itters into astrocytes, cells which surround synaptic terminals and regulate neurotransmission by mea
95 responding to neurotransmitter release from synaptic terminals and releasing gliotransmitters--inclu
96 o synaptic vesicle trafficking in individual synaptic terminals and revealed heterogeneity in recycli
98 cy-dependent Zn(2+) release from mossy fiber synaptic terminals and subsequent entry into postsynapti
99 balance in the response of the pre- and post-synaptic terminals and that therapeutics, alongside targ
100 ysteine residues of selected proteins in the synaptic terminals and the depletion of the glutathione
101 gly, Cortactin levels increase at stimulated synaptic terminals and this increase requires neuronal a
102 protein, which appears redirected away from synaptic terminals and towards mitochondria, reminiscent
103 le-cell patch pipette placed directly on the synaptic terminal, and vesicle fusion was monitored usin
104 slightly higher in the dendrites than in the synaptic terminals, and that GABA-gated channels in the
105 ductions in the densities of GABA+ and GABA- synaptic terminals (approximately 30% and approximately
106 to regulate the postembryonic development of synaptic terminal arborization at the Drosophila neuromu
107 t soluble oligomers in surviving neocortical synaptic terminals are associated with dementia onset an
109 The authors observe that small, bipolar cell synaptic terminals are fast and highly adaptive, whereas
110 are mislocalized in photoreceptor cells, and synaptic terminals are often observed within the outer n
111 dimensions of neuronal dendrites, axons, and synaptic terminals are reproducibly specified for each n
112 both in physiological functions at neuronal synaptic terminals as well as in pathological processes
113 with a persistent increase in [Ca2+]i in the synaptic terminal, as indicated by the activation of a C
114 reflected in VIP(+)/ChAT(+) interneuron pre-synaptic terminals, as quantitative molecular analysis s
115 ressing TRP Vanilloid 1 (TRPV1) receptors in synaptic terminals at the solitary tract nucleus (NTS).
116 mobile vesicle clusters trafficking between synaptic terminals become transiently stabilized by evok
117 localisation of Kv1 subunits at many central synaptic terminals but few clues to their presynaptic fu
118 multiple protein-protein interactions in the synaptic terminal, but the in vivo significance of these
119 clusters of gephyrin and GABA(A)R apposed to synaptic terminals, but these synapses did not contain d
120 onally interacting with dendritic spines and synaptic terminals by responding to neurotransmitters an
122 auditory nerve fibers via large, axosomatic synaptic terminals called the endbulbs of Held and by ad
127 in the transition zone between the axon and synaptic terminal, contrasting with the high threshold K
128 ment of adenosine sources and sinks near the synaptic terminal could constitute a novel form of long-
129 neurons maintain high firing rates but their synaptic terminals depress only moderately, raising the
131 Previous electron microscopic studies of synaptic terminal distributions in the lateral geniculat
132 ly hasten the arrival of spikes at their pre-synaptic terminals, due to the patchy distribution and s
136 vely examine large populations of individual synaptic terminals, flow cytometry was used to analyze s
137 could be regulated at translational level in synaptic terminals following apoptotic insults, suggesti
138 location of GAD proteins from cell bodies to synaptic terminals following axonal outgrowth and synapt
139 granule cells, but, in one case, a sprouted synaptic terminal formed a synapse with an inhibitory in
140 ses were perforated; 2) sprouted mossy fiber synaptic terminals formed exclusively asymmetric, putati
141 domains and synaptic release sites at single synaptic terminals from the CNS from rat cerebellar moss
143 urround of the cell's receptive field, while synaptic terminal GABA-gated Cl(-) channels generate the
145 genetically interacts with Hiw and restrains synaptic terminal growth by regulating the MAP kinase ki
146 rons results in posterior paralysis, reduced synaptic terminal growth, and axonal transport deficits.
148 ignificant decline in presumptive inhibitory synaptic terminals, i.e., those containing nonround syna
152 r, each S-cone OFF midget bipolar cell has a synaptic terminal in the outer half of the inner plexifo
153 st, allowing the RFs of all the bipolar cell synaptic terminals in a field of view to be reconstructe
155 mitantly protects neuronal dendrites and pre-synaptic terminals in cortex and hippocampus from gp120-
157 from two giant nerve terminals: bipolar cell synaptic terminals in goldfish retina and the calyx of H
159 ond- and third-order retinal cells and their synaptic terminals in retinas from Pde6b(rd10) (rd10) mi
163 fr2 cKO mice had fewer and smaller glutamate synaptic terminals in the bed nuclei of the stria termin
164 lso a significant reduction in the number of synaptic terminals in the brain of the mutant adults.
165 axons formed grossly normal projections and synaptic terminals in the brain, but synaptic arbors on
166 the outer plexiform layer (OPL) and in many synaptic terminals in the inner plexiform layer (IPL).
169 associated with an increase in the number of synaptic terminals in the LNV projections into the medul
171 n R cells also disrupts the local pattern of synaptic terminals in the medulla, and Flamingo is trans
173 e-specific loss of CB(1)R-expressing vGlut-1 synaptic terminals in the ventral tegmental area (VTA).
174 ne transporters localized in the membrane of synaptic terminals, in several brain regions of rats per
175 charge-coupled device imaging of hippocampal synaptic terminals, in which a single vesicle was labell
176 an three times the membrane length constant) synaptic terminals, independent of and two-three times m
177 model, they conclude that the volume of the synaptic terminal influences the calcium concentration a
178 A1 receptors (A1Rs) or GABA(B) receptors on synaptic terminals inhibits neurotransmitter release, wh
180 that synaptic vesicle endocytosis at a large synaptic terminal is partly independent of dynamin and G
182 ort and anchor mitochondria to pre- and post-synaptic terminals is as important as functional mitocho
184 n, and its transport to the cell surface and synaptic terminals is similar to that observed for WT ch
185 Propagation of this action potential to the synaptic terminals is widely believed to be the only for
188 hannel complement of far more abundant small synaptic terminals (</= 1 mum) remain poorly understood.
189 lities in the concentration of monoaminergic synaptic terminals may be present in patients with asymp
190 by extension, concentration of monoaminergic synaptic terminals, may represent a trait-related abnorm
191 and primate alpha-motoneurons with regard to synaptic terminal morphology, frequency, and distributio
192 rrier attributable to the highly fenestrated synaptic terminal morphology, so AMPA receptor desensiti
193 ular composition and spatial organization of synaptic terminals must be tightly regulated; however, l
195 o sustain high rates of transmitter release, synaptic terminals must rapidly re-supply vesicles to re
198 ng the actions of Ca2+, Ba2+ and Sr2+ in the synaptic terminal of depolarizing bipolar cells isolated
204 ieval have been proposed to operate at small synaptic terminals of central neurons, but the relative
207 cessed for vGluT2, which is expressed in the synaptic terminals of excitatory neurons in most nuclei
208 requency optogenetic stimulation of thalamic synaptic terminals of lateral cerebellar projection neur
209 n-activated current (I(h)) was recorded from synaptic terminals of mouse cerebellar basket cells.
210 lfactory bulb inhibitory interneurons and of synaptic terminals of olfactory sensory neurons (the pri
212 In vascularized retinas, mitochondria in the synaptic terminals of photoreceptors make neurotransmiss
215 er retina, especially the inner segments and synaptic terminals of rod photoreceptors (identified wit
216 t, PMCA2 was expressed in inner segments and synaptic terminals of rod photoreceptors, in rod bipolar
217 sically disconnects the motoneurons from the synaptic terminals of sensory neurons, producing synapti
219 es was restricted to both outer segments and synaptic terminals of short and long/middle cone photore
220 ected as fluorescent puncta in the axons and synaptic terminals of specific neuron types, correlating
222 oral components in the visual signal through synaptic terminals of varying geometries with different
224 fied giant neuron in nrg(849) mutants made a synaptic terminal on the appropriate target, but ultrast
225 fferent inputs, whereas ROCKbeta is found in synaptic terminals on HMNs, but not in their somata.
228 cope, we studied spines and their associated synaptic terminals on three groups of brainstem neurons:
230 uires correct targeting of multiple thousand synaptic terminals onto staggeringly complex dendritic a
233 Ultrastructural analysis of photoreceptor synaptic terminals over drusen reveals significant abnor
234 y a hypomorphic allele of shot that displays synaptic terminal overgrowth and a precocious regenerati
235 s opposite postsynaptic glutamate receptors, synaptic terminal overgrowth and undergrowth, abnormal a
237 cate that astrocytes, whose processes enwrap synaptic terminals, promote synapse formation both by re
238 These findings indicate that there are lower synaptic terminal protein levels in schizophrenia in viv
240 ets in a preferential manner and with larger synaptic terminals, providing a putative explanation for
241 ikely involves the delivery of components to synaptic terminals rather than a direct participation in
242 cells is localized to the outer segments and synaptic terminals, regardless of the state of light ada
243 nervous system are contacted by thousands of synaptic terminals relaying information about the enviro
244 f RA PN axons and transgene tagging of RA PN synaptic terminals reveal a direct projection from RA to
245 in the same neuromuscular system, inhibitory synaptic terminals revealed unique phasic and tonic iden
246 des, nodes, internodes, and the unmyelinated synaptic terminal segments beneath IHCs in the organ of
247 ge during aging in which the distribution of synaptic terminals shifts to dendrites of larger caliber
248 tments including the inner segments (IS) and synaptic terminals (ST) is recognized as a critical cont
249 of light-evoked responses from individual BC synaptic terminals suggest that the distinct sensitivity
250 of vha100-1 leads to vesicle accumulation in synaptic terminals, suggesting a deficit in release.
252 ized to the active zone of mature asymmetric synaptic terminals targeting mouse entorhinal cortical l
253 of synaptic depression at the calyx of Held synaptic terminal that combines many of these mechanisms
254 d glutamate receptor clusters--and the whole synaptic terminal that connects a pre- and post-synaptic
255 all cases, the spines are associated with a synaptic terminal that engulfs the spine rather than abu
256 g muscle fibers and the relatively inelastic synaptic terminals that adhere to them causes the topogr
258 entifiable "mixed" (electrical and chemical) synaptic terminals that offer the unique opportunity to
259 t Ca2+ channel and data on [Ca2+] in the rod synaptic terminal, the 1 mV hyperpolarization should red
260 n and extraribbon locations in a ribbon-type synaptic terminal, the goldfish retinal bipolar cell.
261 r electrical field surrounding photoreceptor synaptic terminals, thereby altering Ca(2+) channel acti
262 tropic glutamate receptors (mGluRs) found on synaptic terminals throughout the brain are thought to b
263 ptor-associated protein (ATRAP) localizes to synaptic terminals throughout the central nervous system
264 Botulinum neurotoxins (BoNTs) act within the synaptic terminal to block neurotransmitter release.
265 over much longer time of ions located in the synaptic terminal to small binding vesicular targets.
267 feedback neurotransmitter onto photoreceptor synaptic terminals to create the surround portion of the
268 nonaggregated pathogenic Htt acts locally at synaptic terminals to disrupt endosomal compartments, le
270 Neuronal activity triggers endocytosis at synaptic terminals to retrieve efficiently the exocytose
272 racterise I(h) in identified cell bodies and synaptic terminals, to examine modulation by presynaptic
274 incorporated into synaptic vesicles, from EC synaptic terminals using two photon microscopy in slices
275 h) showed similar properties to those of the synaptic terminal; V(1/2) was -94 mV and the reversal po
279 S neurons were evaluated, and the density of synaptic terminals was morphometrically analysed by tran
281 s, the selectivity of palladin expression in synaptic terminals was tested by double staining for pal
282 labeled thalamocortical terminals, VGluT2-ir synaptic terminals were different from their unlabeled c
285 Unbiased estimates of total 3D volume of synaptic terminals were obtained through the Cavalieri e
287 are also located in certain mature cortical synaptic terminals, where they play a vital role in modu
288 alization and enhanced oligomer formation at synaptic terminals, whereas inhibition with TTX blocked
290 sociated proteins decreases in photoreceptor synaptic terminals, whereas the expression of stress-res
291 biogenesis of Abeta42 peptides from isolated synaptic terminals, which is selectively suppressed by a
292 um current was largest in cells with smaller synaptic terminals, which probably represent cone bipola
293 -fold accumulation of dense-core vesicles in synaptic terminals, which was not observed in mutants th
295 poE/Abeta complex and associated lipids into synaptic terminals, with subsequent Abeta clearance in c
296 rate of exocytosis from a subset of cortical synaptic terminals within the EC and in this way, constr
297 nteracts with Goalpha in cell culture and at synaptic terminals within the insect brain, and that thi
298 s also exist pre-synaptically in a subset of synaptic terminals within the mature entorhinal cortex (
299 raded synaptic potentials that spread to the synaptic terminal without sodium-dependent action potent
300 d show that Slo1 is accumulated in axons and synaptic terminal zones associated with glutamatergic sy