ライフサイエンスコーパス: associational

1 nges are plausibly associated with increased associational activity in CA3, with degraded declarative

2 ed in the zone of termination of commissural/associational afferents in the inner molecular layer, su

3 n in the lateral olfactory tract but not the associational afferents of the piriform cortex.

4 l neurons are connected to one another in an associational and well-organized fashion along the longi

5 s not explicitly labeled as such are merely "associational" and therefore less rigorous.

6 or a separate generator in local circuits of associational areas of neocortex manifest from a backgro

7 t to CA3, their typical sustained firing and associational axon collaterals suggest that they are fun

8 ptic targets of the prefrontal intrinsic and associational axon terminals suggested that these projec

9 All of the synapses formed by these associational axons were asymmetric, and 91.9% were onto

10 LTD) at Schaffer collateral-CA1, commissural/associational-CA3 and mossy fiber-CA3 synapses in rat hi

11 pyramidal assemblies, as these predicted the associational changes.

12 ncipal axons through the white matter formed associational clusters which were also arrayed as a seri

13 l measurements of synaptic currents to study associational-commissural (A/C) and mossy fiber (MF) syn

14 cular properties of the mossy fiber (MF) and associational-commissural (AC) synapses, it is believed

15 onist isoproterenol, failed to induce LTP at associational-commissural (assoc-com) fiber synapses ont

16 pine density in the dendritic targets of the associational-commissural afferents and medial perforant

17 ory synaptic transmission at mossy fiber and associational-commissural inputs to CA3 pyramidal neuron

18 the spatial loci of afferents comprising the associational-commissural pathway, medial perforant path

19 aptic metaplasticity between mossy fiber and associational-commissural synapses.

20 e granule cells but not at perforant path or associational-commissural synapses.

21 luR5-containing receptors at mossy fiber and associational-commissural synapses.

22 At associational/ commissural synapses facilitation occurre

23 gion of the hippocampus, extensive recurrent associational/commissural (A/C) connections made by pyra

24 ed synaptic transmission was observed at CA3 associational/commissural and mossy fiber synapses but n

25 is influenced by the boundary separating the associational/commissural and perforant path afferents.

26 EPSCs evoked by stimulating either mossy or associational/commissural fibers.

27 mossy fiber transmission and compared it to associational/commissural synapses in the CA3 region of

28 m either neighboring mossy fiber synapses or associational/commisural (A/C) synapses results in the a

29 along with the specific hyperconnectivity of associational connections between pyramidal neurons will

30 levels in these cortices revealed extensive associational connections both within and between the pe

31 Associational connections of pyramidal cells in rat post

32 al cortex also share an extensive network of associational connections that tend to be heaviest withi

33 Associational connections were studied in slices of ante

34 The present study characterizes the associational connections within the midline cortex of t

35 e carried out to examine the organization of associational connections within the rat entorhinal cort

36 Synaptic potentiation was normal in these associational connections.

37 onal cognitive map of spatial, temporal, and associational context.

38 y visual pathway and throughout higher-order associational cortex and showed impairment of distribute

39 to the postrhinal cortex originate in visual associational cortex and visuospatial areas such as the

40 e parahippocampal cortex in the hierarchy of associational cortices.

41 lytical methods appropriate for large-scale, associational data.

42 g patterns and demonstrate the importance of associational effects within mixed stands.

43 to extoll the advantages of "causal" versus "associational" evidence.

44 iprocity characterize both the intrinsic and associational excitatory connections in the prefrontal c

45 I and III are interconnected by a network of associational fibers.

46 us, and the intermodular connections as long associational fibers.

47 Whether this was a causal or associational finding cannot be determined from our data

48 eye movement (NREM) sleep after hippocampal associational function during REM dreams.

49 nd monkey could represent biplexiform and/or associational ganglion cells that receive input in the O

50 1 hr after LTP induction at the commissural-associational input to CA3 pyramidal cells had no effect

51 smission at primary sensory synapses but not associational inputs.

52 ppocampal circuit is critical for storage of associational memories.

53 h a primary mossy cell role in an excitatory associational network with granule cells of the dentate

54 ntorhinal cortex are organized into separate associational networks.

55 ystokinin (CCK)-expressing hilar commissural associational path (HICAP) cells and among somatostatin

56 cular layer did not change after commissural/associational pathway lesions.

57 Commissural/associational pathway neurons, which were identified by

58 attenuated only after lesions involving the associational pathway.

59 of dendritic spine integrity in commissural/associational pathways of hippocampal area CA3.

60 and chemical lesions of the commissural and associational pathways were used to denervate afferent t

61 m2 and m4 are presynaptic on the commissural/associational pathways.

62 ptor proteins on the hippocampal commissural/associational pathways.

63 subtypes presynaptically on the commissural/associational pathways.

64 late nuclei, respectively, and less with the associational Po and LP.

65 identify reward circuit elements within the associational portions of the CNS.

66 sional organization of the mossy fibers, the associational projection, and the local projections.

67 The associational projection, originating from cells in the

68 The associational projection, though modest at the level of

69 The associational projections from CA3 to CA3 also travel ex

70 The prefrontal injections also labeled associational projections that traveled through the whit

71 n terminals that project to other PFC areas (associational projections), over 92% of the postsynaptic

72 ation of all these connections is typical of associational projections.

73 on of these extensive networks of intrinsic, associational projections.

74 damage on a focal plant in a mixed stand) or associational resistance (reduced damage in a mixed stan

75 In contrast, we found no evidence of associational resistance; the presence of a least prefer

76 (WT) mice, ovariectomy decreased commissural/associational sprouting to the inner molecular layer of

77 re, the consistent size of the intrinsic and associational stripes (approximately 275 by 1,800 micron

78 the anterogradely- and retrogradely-labeled associational stripes were very similar to each other an

79 meter (PM2.5) and deaths, but they have been associational studies that did not use formal causal mod

80 Although this is an associational study, it may be an important step in unde

81 This may lead to either associational susceptibility (increased damage on a foca

82 erence species (larch and alder) experienced associational susceptibility when growing with pine and

83 In contrast, associational synapses onto the same cells retain the ca

84 However, associational synaptic connections between pyramidal neu

85 he rat, but had no effect on the commissural/associational system, a nonopioid-containing pathway.

86 irradiation decreases neuron number in three associational thalamic nuclei: mediodorsal (MD), anterio

87 medial entorhinal cortex, 3) the commissural/associational zone (IML) immediately adjacent to the gra