ライフサイエンスコーパス: directional selectivity

1 ate motor preparation, as reflected in their directional selectivity.

2 ing inputs is critical for the generation of directional selectivity.

3 particular FM direction and thus change its directional selectivity.

4 the null direction, thereby ensuring robust directional selectivity.

5 xist such that nicotinic blockade eliminates directional selectivity.

6 aused even smaller responses, but no loss of directional selectivity.

7 ctively, before and during saccades and with directional selectivity.

8 atterns, with weak theta-modulation and head-directional selectivity.

9 (L4) simple cells, most of which show strong directional selectivity.(18) However, two important ques

10 dentified which neurons are necessary for T4 directional selectivity and ON motion behavioral respons

11 els that also tended to account for both the directional selectivity and responses to coherent motion

12 al functions, including size discrimination, directional selectivity, and looming-evoked escape.

13 latency, contrast sensitivity (C-50 values), directional selectivity, and optimal stimulus velocity.

14 corticothalamic feedback projections on the directional selectivity (angular tuning) of neurons in t

15 ay, the blue cone pathway, and ganglion cell directional selectivity are discussed.

16 tent with a two-asymmetric-pathways model of directional selectivity, but inconsistent with an asymme

17 In the current study, we assessed how directional selectivity changes when reaching movements

18 ge reductions in all measures of spatial and directional selectivity compared with WT neurons.

19 the number of neurons with hemifield and non-directional selectivity curves decreased with increasing

20 All 675 directional selectivity curves obtained from 75 IC neuro

21 The directional selectivity curves of 45 (60%) neurons did n

22 A family of nine directional selectivity curves was plotted with a neuron

23 Among 68 IC neurons whose directional selectivity curves were compared quantitativ

24 The type and sharpness of these directional selectivity curves were then compared in rel

25 ctivity curves were compared quantitatively, directional selectivity determined with sequentially pre

26 athway of binocular animals, the property of directional selectivity (DS) is first exhibited in stria

27 Directional selectivity during visually guided hand move

28 This finding explains the high degree of directional selectivity found already in the fly's prima

29 tarburst amacrine cells is the generation of directional selectivity in ON-OFF directionally selectiv

30 The md-L neurons exhibit directional selectivity in response to mechanical stimul

31 ately one-half of VIP cells show significant directional selectivity in response to optic flow, one-h

32 up II mGluRs have the potential to influence directional selectivity in RGCs by inhibiting transmitte

33 rt that spike threshold can strongly amplify directional selectivity in that the spike directionality

34 ngs, we examine the mechanisms underlying FM directional selectivity in the IC.

35 Application of EGLU alone failed to alter directional selectivity in the RGCs but did reduce the r

36 contrast with previously demonstrated strong directional selectivity in the second, T5-cell, pathway.

37 x (V1) also contains DS neurons, but whether directional selectivity in V1 emerges de novo(11)(,)(12)

38 en show that, in our sample of IC cells, PSP directional selectivity is not created de novo.

39 Exploring retinotopy's impact on directional selectivity leads us to infer that the excit

40 visual functions including motion detection, directional selectivity, local edge detection, looming d

41 y of LGN-DS neurons contributes to the sharp directional selectivity of cortical simple cells.

42 The hypothesis for directional selectivity of frequency modulations (FMs) i

43 ery cycle may contribute to the variation of directional selectivity of IC neurons with sequential pr

44 locking inhibition significantly reduced the directional selectivity of these neurons, suggesting tha

45 ctural basis for the SACs' ability to confer directional selectivity on postsynaptic neurons is conse

46 esults indicate that, rather than sharpening directional selectivity per se, these circuit elements r

47 A model for retinal directional selectivity postulates that GABAergic inhibi

48 share similar functional properties, such as directional selectivity, project to similar depths withi

49 he parietofrontal network resumed egocentric directional selectivity, showing higher activation for c

50 nferior occipital gyrus, whereas allocentric directional selectivity (target relative to a visual lan

51 In addition, egocentric directional selectivity (target relative to gaze) was ob

52 iscovered that nicotinic blockade eliminated directional selectivity to drifting, low spatial frequen

53 extend the range of stimuli that can elicit directional selectivity to include moving textures, that

54 eld bushy T-cells (T4) demonstrate only weak directional selectivity to motion, in striking contrast

55 This change of directional selectivity was due to the variation in reco

56 Second, directional selectivity was minimal in PI neurons belong

57 To examine the emergence of directional selectivity, we developed genetic driver lin

58 y also maintained visual properties, such as directional selectivity, while increasing response gain

59 Here we evaluated FM directional selectivity with in vivo whole-cell recordin

60 So far, attempts to eliminate directional selectivity with nicotinic blockade have fai

61 ntal role in the neural circuitry underlying directional selectivity within the retina.