ライフサイエンスコーパス: neuronal connection

1 stages of development of a simple, specific neuronal connection.

2 u pathology can spread and propagate through neuronal connections.

3 guidance mechanisms during establishment of neuronal connections.

4 e episodes are associated with remodeling of neuronal connections.

5 amaged host neurons and reconstitute damaged neuronal connections.

6 n result in highly localized modification of neuronal connections.

7 nvolvement in the growth and regeneration of neuronal connections.

8 tant in the establishment and maintenance of neuronal connections.

9 visual system, a system with well-described neuronal connections.

10 s provides additional specificity in forming neuronal connections.

11 ience depends at least in part on changes in neuronal connections.

12 ry from injuries depend on the plasticity of neuronal connections.

13 etworks of circulating soluble molecules and neuronal connections.

14 ed, although they broadly involve humoral or neuronal connections.

15 ilk component that promotes the formation of neuronal connections.

16 interpenetrated transistors that mimic real neuronal connections.

17 fully timed reorganization and refinement of neuronal connections.

18 experience plays a crucial role in sculpting neuronal connections.

19 survive after injury and to regenerate lost neuronal connections.

20 axon guidance is necessary to form accurate neuronal connections.

21 development to determine the specificity of neuronal connections.

22 orsolateral PAG (dl-PAG), which has abundant neuronal connections.

23 isms that control the development of complex neuronal connections.

24 to chemoattractant, build tissues, and make neuronal connections.

25 lls, to determine cell lineage, and to trace neuronal connections.

26 n its cleft but also modulate development of neuronal connections.

27 utes to the formation of complex patterns of neuronal connections.

28 s and glia are essential in forming specific neuronal connections.

29 age and large-scale, permanent disruption of neuronal connections.

30 alian brain that helps sculpt the pattern of neuronal connections.

31 built as discrete map of highly stereotyped neuronal connections [5, 6].

32 We propose BOINC ("barcoding of individual neuronal connections"), a method for converting the prob

33 shifts in the size and signaling strength of neuronal connections, a process known as synaptic plasti

34 Comprehensive mapping of neuronal connections across entire nervous systems remai

35 Our study demonstrates that specific neuronal connections, across cortical layers and even wi

36 circumstances: during development to refine neuronal connections, after injury to clear damaged neur

37 eral different combinations to determine the neuronal connections and cyto- and chemoarchitecture of

38 ecision should make it easier to investigate neuronal connections and find further links between conn

39 llular basis for developmental refinement of neuronal connections and for learning and memory.

40 y improved our understanding not only of the neuronal connections and function of the healthy brain,

41 ought to play a crucial role in formation of neuronal connections and in experience-dependent modific

42 de information about cortical processing via neuronal connections and temporal interactions of neural

43 cell division in combination with tracers of neuronal connections and time-lapse live imaging, we fou

44 h leads to synaptic dysfunction, the loss of neuronal connections and ultimately progressive neurodeg

45 ed occurrence of cellular apoptosis, reduced neuronal connection, and reduced optokinetic behavioral

46 ues lead to mispositioned neurons, disrupted neuronal connections, and abnormal function.

47 promote maturation of neurons, refinement of neuronal connections, and assembly of appropriate functi

48 lls and superfluous connections ensures that neuronal connections are appropriately refined, while cl

49 Neuronal connections are arranged topographically such t

50 Long-term modifications of neuronal connections are critical for reliable memory st

51 How neuronal connections are established and organized into

52 Neuronal connections are established through a series of

53 ritically dependent on TrkA signaling before neuronal connections are established.

54 Optimal integration and segregation of neuronal connections are necessary for efficient large-s

55 etwork analysis reveals that the patterns of neuronal connections are organized into putative computa

56 are developmental time windows during which neuronal connections are shaped by experience.

57 The data also suggest that stabilized neuronal connections are the foundation of durable motor

58 athway and synaptological characteristics of neuronal connection between the dorsal PCRt premotor neu

59 ortance of the retinoraphe pathway, a direct neuronal connection between the retina and the dorsal ra

60 ls that form the retinohypothalamic tract, a neuronal connection between the retina and the suprachia

61 currently exist for noninvasive tracking of neuronal connections between functional regions.

62 Retinal ganglion cells (RGCs) are the neuronal connections between the eye and the brain conve

63 ites is crucial for the formation of precise neuronal connections, but the mechanisms underlying deve

64 growth is the first step in the formation of neuronal connections, but the pathways that regulate axo

65 rms of epilepsy are associated with aberrant neuronal connections, but the relationship between such

66 egeneration that is characterized by loss of neuronal connections, but the role of Presenilin in esta

67 roles in the establishment and remodeling of neuronal connections, but the signaling pathways involve

68 r via changes in blood gases or by brainstem neuronal connections, but their ultimate effect is invar

69 vo and may modulate structural remodeling of neuronal connections by controlling the rate of spontane

70 ia also participate in the fine sculpting of neuronal connections by pruning excess axonal projection

71 Remodelling neuronal connections by synaptic activity requires membr

72 astrocytes, the extent of lateral excitatory neuronal connections can be manipulated.

73 HCs showed some physiological properties and neuronal connections consistent with a fate switch.

74 These findings suggest neuronal connections contain two information channels th

75 rtant in the establishment and refinement of neuronal connections during both development and regener

76 sential for the establishment of appropriate neuronal connections during development and regeneration

77 uning and neuronal cell death help to sculpt neuronal connections during development, but their mecha

78 participates in the establishment of precise neuronal connections during development.

79 is essential for the establishment of proper neuronal connections during development.

80 stablish the basic axon scaffolds from which neuronal connections evolve.

81 Reciprocal neuronal connections exist between the internal organs o

82 ularities reduce the length of intracortical neuronal connections for some connection rules.

83 erosis Complex (TSC) show aberrant wiring of neuronal connections formed during development which may

84 ms to exhibit satiety quiescence, suggesting neuronal connection from ASI to RIM and RIC is essential

85 ion of electron-microscopy reconstruction of neuronal connections, genetic manipulations, electrophys

86 t clear whether they will throw light on how neuronal connections give rise to cognitive processes.

87 lity of synapses to modulate the strength of neuronal connections; however, the molecular factors tha

88 or many processes, including immune defense, neuronal connection, hyphal fusion, and sexual reproduct

89 chondrial energy metabolism reflects loss of neuronal connections in AD.

90 specific mutations alter the development of neuronal connections in different brain regions and whet

91 family protein required for the formation of neuronal connections in Drosophila.

92 key event in the development of appropriate neuronal connections in many regions of the central nerv

93 The intrinsic horizontal neuronal connections in MI are a strong candidate substr

94 s in the fly including proper development of neuronal connections in photoreceptor cells and axonal t

95 ostsynaptic cells helps shape the pattern of neuronal connections in response to experience, but the

96 Synaptic plasticity alters neuronal connections in response to experience, which is

97 de required to establish complex networks of neuronal connections in the brain and the mechanisms of

98 The mechanisms that generate specific neuronal connections in the brain are under intense inve

99 explain the mechanism for specifying diverse neuronal connections in the brain, Sperry proposed that

100 ry experience in early postnatal life shapes neuronal connections in the brain.

101 rovide the staggering diversity required for neuronal connections in the brain.

102 s orderly in the direction of the excitatory neuronal connections in the circuit.

103 o sensory experience-dependent refinement of neuronal connections in the developing nervous system, b

104 We validated BAcTrace at three neuronal connections in the Drosophila olfactory system.

105 a general mechanism orchestrating long-range neuronal connections in the mammalian brain.

106 Developmental control of long-range neuronal connections in the mammalian midbrain remains u

107 on guidance and the formation of topographic neuronal connections in the vertebrate brain.

108 escribe and validate a compound that reveals neuronal connections in vivo, using MRI.

109 vesicular stomatitis virus (VSV) for tracing neuronal connections in vivo.

110 ays a role in development and maintenance of neuronal connections in zebrafish visual system.

111 sent only one type of functionally important neuronal connection; in particular, extrasynaptic, "wire

112 t also destroy cells and eliminate important neuronal connections, including light reception pathways

113 The theory is applied to real data on neuronal connections, interacting genes in radiation hyb

114 anism(s) may elicit the disruption of normal neuronal connections/interactions.

115 Organization of neuronal connections into topographic maps is essential

116 n is facilitated through the organization of neuronal connections into topographic maps of space.

117 The C1-orexin neuronal connection is probably one of several suprabulb

118 The establishment of topographic maps of neuronal connections is believed to involve graded repul

119 Activity-induced modification of neuronal connections is essential for the development of

120 , but the role of Presenilin in establishing neuronal connections is less clear.

121 he brain, appropriate assembly and tuning of neuronal connections is likely to require appropriate fu

122 However, the stepwise development of layered neuronal connections is not well understood.

123 It has been proposed that the efficacy of neuronal connections is strengthened when there is a per

124 efects include disruptions in the pattern of neuronal connections made by all three classes of R cell

125 this is consistent with the idea that these neuronal connections may encode beliefs about "what I wo

126 Taking advantage of the well-mapped neuronal connections of Caenorhabditis elegans and the s

127 Further, although neuronal connections of HVC are not topographic, project

128 Thus, neuronal connections of pHVC are highly integrated with

129 Neuronal connections of the High Vocal Center (HVC), a c

130 vide a framework for ongoing analyses of the neuronal connections of the insular cortex of the macaqu

131 estigate the neurogenesis and time course of neuronal connections of the tectorotundal pathway in chi

132 Formation of specific neuronal connections often involves competition between

133 omechanics and graph theoretical analysis of neuronal connections, or connectomics, to form a neuroco

134 nt in human milk during early lactation when neuronal connections rapidly form in the infant brain.

135 ortex develop by the progressive addition of neuronal connections rather than by sculpting preliminar

136 The refinement and plasticity of neuronal connections require synaptic activity and neuro

137 The formation of neuronal connections requires the precise guidance of de

138 % through a trained neural network with 1650 neuronal connections stored within the fibre.

139 plasticity, the activity-dependent change in neuronal connection strength, has long been considered a

140 ortant in modifying the strength of existing neuronal connections (synapses).

141 The inter-neuronal connections that constitute these systems are p

142 ntrols the remodeling of initially imprecise neuronal connections through the regulation of gene expr

143 mechanisms exist to reestablish appropriate neuronal connections to regenerated hair cells.

144 r behavior and progressive deconstruction of neuronal connections, ultimately causing age-related neu

145 debris, in addition to helping to refine CNS neuronal connections via microglia-mediated pruning of i

146 d how they mediate the emergence of specific neuronal connections via selective axon guidance.

147 m imaging and mutations that affect specific neuronal connections, we show that AWC neurons are activ

148 dic devices to recreate discretely organized neuronal connections, we show that the spread and propag

149 dark cycle, SCN neurons remained intact, and neuronal connections were undisturbed, including photic

150 ubtypes and alter the development of defined neuronal connections which require NMDA receptor activat

151 ent composition of neuronal types and set of neuronal connections, which among other factors, determi

152 generated granule cells (DGCs) form aberrant neuronal connections with neighboring DGCs, disrupting t

153 l forebrain region that shares bidirectional neuronal connections with the hippocampus and has recent

154 of neural implants to survive and establish neuronal connections with the host.

155 ion but also in remote brain regions sharing neuronal connections with the injured site.

156 rus americanus, and the development of their neuronal connections with the paired olfactory and acces

157 of primate primary visual cortex (V1) depict neuronal connections within and between different V1 lay

158 at regulate formation of precise patterns of neuronal connections within the central nervous system r

159 d in temporal processing and share extensive neuronal connections, yet it remains unclear how these s