ライフサイエンスコーパス: dendritic process

1 rtical orientation of labelled axon-like and dendritic processes.

2 the soma but instead were located throughout dendritic processes.

3 , with the protein localized in the soma and dendritic processes.

4 dal cells and transported to the more distal dendritic processes.

5 the length of their synaptic junctions with dendritic processes.

6 f melanocytes and accentuated at the tips of dendritic processes.

7 golli proteins in neurons was in axonal and dendritic processes.

8 bnormal because of the paucity of TH-stained dendritic processes.

9 explants exhibit enhanced growth of neuronal dendritic processes.

10 ated near RDL-positive l-LNv cell bodies and dendritic processes.

11 ng biologically plausible implementations of dendritic processes.

12 dally shaped soma with axonal and apicobasal dendritic processes.

13 ings include Purkinje cell loss with swollen dendritic processes.

14 les and PM; these could be quantified in the dendritic processes.

15 m that differentiates the cell body from the dendritic processes.

16 ites and is efficiently trafficked to distal dendritic processes.

17 s had a broad, convoluted cell body and thin dendritic processes.

18 lated CD11c, MHC II, and CD86, and expressed dendritic processes.

19 tracellular signal-regulated kinase (ERK) in dendritic processes.

20 sts in dentin and osteocytes in bone contain dendritic processes.

21 e also found in association with fluorescent dendritic processes.

22 ut was essentially absent in spines and fine dendritic processes.

23 in elaboration and maintenance of axonal and dendritic processes.

24 ation of lamellipodia-like structures and of dendritic processes.

25 -out microtubule orientations throughout the dendritic processes.

26 bcompartments were composed predominately of dendritic processes.

27 ed by the appearance of synaptic clusters on dendritic processes.

28 he development and maintenance of axonal and dendritic processes.

29 anule cells, mitral cells, and mitral/tufted dendritic processes.

30 utation that is in stark contrast to passive dendritic processing.

31 their operational homes on neuronal (mostly dendritic) processes.

32 significantly expressed in D1-immunoreactive dendritic processes (60-75% colocalization) and spines (

33 atiotemporal dynamics of dopamine release in dendritic processes, a poorly understood phenomenon.

34 rt(s) of osteocyte, the cell body versus the dendritic process, acts as a mechanical sensor.

35 y wall involves interactions between growing dendritic processes and as yet unidentified signals that

36 observed Purkinje cell loss, degeneration of dendritic processes and associated neurological dysfunct

37 eder layer showed abundant AbetaO binding to dendritic processes and associated synapse deterioration

38 EGFP often extended into dendritic processes and could be identified either nativ

39 Furthermore, newborn neurons with apical dendritic processes and growth cones in the granule cell

40 midal cell spines and shafts, as well as the dendritic processes and soma of GABAergic interneurons.

41 n secondary microcephaly it is the number of dendritic processes and synaptic connections that is red

42 These cells exhibited veiled and dendritic processes and were as efficient as rare, matur

43 ely distributed in neuropil, including along dendritic processes and within neuronal somata.

44 rical properties of spines promote nonlinear dendritic processing and associated forms of plasticity

45 etwork model, incorporating data-constrained dendritic processing and multi-synaptic connections, wit

46 rns are thought to effectively engage active dendritic processing and storage mechanisms, thereby pot

47 ctivate voltage-gated currents that underlie dendritic processing and synaptic plasticity, and influe

48 ing controls spine distribution along select dendritic processes, and distinct secreted semaphorin si

49 IAA-RP immunolocalization in cell bodies and dendritic processes, and in some myelinated axons and pr

50 position, morpohology, somatic orientation, dendritic processes, and laterality of spinal projection

51 localization to mitral cells, mitral/tufted dendritic processes, and olfactory nerve glial processes

52 alcium signals within dendritic spine heads, dendritic processes, and the soma of pyramidal neurons f

53 ected mice revealed that their Purkinje cell dendritic processes are abnormal, do not react with MAP1

54 rimental and theoretical work indicates that dendritic processes are an indispensable element of key

55 are three-way-symmetrical on average, while dendritic processes are arranged orthogonally.

56 Regulated growth and arborization of dendritic processes are critical to the formation of fun

57 Osteocytes with long dendritic processes are known to sense mechanical loadin

58 ular compartments, including one or multiple dendritic processes arising from the cell body, and a si

59 pamine release is broadcast from a subset of dendritic processes as hotspots that have a mean spatial

60 d neuronal cell bodies as well as axonal and dendritic processes, as visualized by confocal microscop

61 Major dendrites of dopamine neurons and fine dendritic processes, as well as dendritic arbors and den

62 anisms sensitive to interspike intervals and dendritic processing beyond simple summation exist at le

63 y reflected a retraction of widely ramifying dendritic processes, but for the most part this was due

64 , as well as in the most proximal portion of dendritic processes, but not throughout most of the dend

65 The dendritic processes contained polymerized actin as well

66 Calcium dynamics in individual dendritic processes could be examined for extensive peri

67 and GFP+YFP+ macrophages extend and retract dendritic processes, dancing on the spot with little net

68 tic processes showed that, of the somata and dendritic processes exhibiting GPR177, 32% contained MOR

69 ts results in use-dependent proliferation of dendritic processes, followed by partial pruning, of lay

70 and CD83 expression, as well as formation of dendritic processes in CI-treated myeloid cells, and str

71 se transporters (GLUTs) from the surfaces of dendritic processes in hippocampal neurons.

72 principal neurons, promotes the extension of dendritic processes in immature forebrain neurons, and a

73 1) perikarya in the ganglion cell layer, (2) dendritic processes in the inner plexiform layer (IPL),

74 However, the recruitment of active dendritic processing in vivo and its relationship to som

75 uggests that the glycocalyx of the osteocyte dendritic process is required for forming strong integri

76 y in development and then on cell bodies and dendritic processes later is consistent with roles for b

77 tory molecule expression, tendencies to form dendritic processes, loss of CD14 expression by monocyte

78 The G(oalpha)-positive dendritic processes made close contact with all cone ped

79 at varied connectivity patterns and forms of dendritic processing may underlie observed ICx neurons'

80 Through their dendritic processes, melanocytes distribute melanosomes

81 ry neurons detect environmental signals with dendritic processes near the skin, but the molecules tha

82 The dendritic process of a third specialized neuron terminat

83 The ciliated dendritic processes of 10 neurons lie in the amphidial c

84 amphid is innervated by 13 neurons, and the dendritic processes of 10 of these extend nearly to the

85 -Cl(-) cotransporter protein was observed in dendritic processes of CA1-CA3 hippocampal pyramidal neu

86 rvous system and that it is localized to the dendritic processes of cultured neurons, GC-GAP may play

87 of alpha-synuclein immunoreactive puncta in dendritic processes of cultured neurons.

88 e presynaptic specializations to form in the dendritic processes of GABA-expressing motor neurons dur

89 the intact and spontaneously active retina, dendritic processes of ganglion cells exhibit rapid and

90 solateral nucleus of the amygdala), with the dendritic processes of identified layer 5 corticospinal

91 ique, we seamlessly reconstructed axonal and dendritic processes of intact individual retrovirus-labe

92 itates parcellation by extensive staining of dendritic processes of MGd, MGm, and lateral posterior n

93 esicles in excitatory synapses on somata and dendritic processes of multipolar GABAergic interneurons

94 to subcellular sites, such as the axonal and dendritic processes of neurons.

95 contacts were made on the soma and putative dendritic processes of opsin- and VIP-immunoreactive CSF

96 d 5-HT reactivity were detected close to the dendritic processes of primary and secondary spinal moto

97 defects in the sensory cilia located on the dendritic processes of sensory neurons.

98 AGl cross and possibly make contact with the dendritic processes of single medium spiny neurons.

99 The dendritic processes of the LGMD1 and -2 in the lobula ar

100 body neuropil was a result of growth of the dendritic processes of the mushroom body intrinsic neuro

101 H and 5-HT reactivity closely apposed to the dendritic processes of the nucleus of the medial longitu

102 or osteocyte, first appearing on the forming dendritic processes of these cells.

103 Dendritic processes of two specialized neurons leave the

104 To understand dendritic processing of bursts during up-states, changes

105 se data provide direct evidence of nonlinear dendritic processing of correlated sensory and motor inf

106 Dendritic processing of glutamatergic synaptic inputs wa

107 cyclic nucleotide-gated cation) channels on dendritic processing of subthreshold excitatory postsyna

108 tivity is established via the combination of dendritic processing of synaptic input patterns with lon

109 s, and consequently altered the motoneuronal dendritic processing of synaptic inputs.

110 mechanical loading was applied to either the dendritic processes or the cell body.

111 and the volume and membrane surface area of dendritic processes per neuron within layer V of the con

112 ivity in adult rat and rabbit hippocampus to dendritic processes, primarily to dendritic spines.

113 y short bursts of spikes, probably caused by dendritic processing, rather than by isolated spikes.

114 Some of these dendritic processes received symmetric synaptic input fr

115 henotype with retracted cytoplasm, prominent dendritic processes, reduced stress fibers, and accumula

116 embrane association and transport throughout dendritic processes requires palmitoylation of cysteine

117 king AII amacrine cell of the mouse retina a dendritic process sharing organizational and functional

118 of GPR177 and MOR in striatal somata and in dendritic processes showed that, of the somata and dendr

119 s are only active at the small tips of their dendritic processes, suggesting another function for Cx4

120 These cells possessed a dendritic process that extended toward the lateral ventr

121 They have prominent dendritic processes that are oriented transversely and e

122 Somata and dendritic processes that contained both GPR177 and MOR m

123 d and an elaborate, highly branched arbor of dendritic processes that envelop the animal with a web-l

124 idence for an anatomical border comprised of dendritic processes that separate striatal compartments.

125 PSPs was formed by the recruitment of active dendritic processes that transformed the ongoing action

126 yer of the epidermis, and form multiple long dendritic processes that transport melanosomes from the

127 Within mineralized bone, osteocytes form dendritic processes that travel through canaliculi to ma

128 3.4% of IXN synaptic relationships were with dendritic processes that were also contacted by unlabele

129 ty (86.6%) of IXN afferent endings were with dendritic processes that were not in apparent contact wi

130 ctivity in neurons is generally initiated in dendritic processes then propagated along axons to synap

131 y minimal growth of primary axonal and whole dendritic processes through the last time point examined

132 approximately 60% increase in the number of dendritic processes undergoing NK(1) receptor endocytosi

133 ll layer and extend their rudimentary apical dendritic processes upon a radial glial scaffold.

134 located in layer 2/upper layer 3, and their dendritic processes were commonly aspiny and sometimes h

135 ns and either TH-immunoreactive or unlabeled dendritic processes were examined at the electron micros

136 t, neurons differentiate distinct axonal and dendritic processes whose outgrowth is influenced by env

137 d elongation of keratocytes and extension of dendritic processes within 3-D matrices, without inducin