ライフサイエンスコーパス: lateral olfactory tract

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1 nucleus, fundus striatum, and nucleus of the lateral olfactory tract.

2 ylin-docarbocyanine perchlorate (DiI) to the lateral olfactory tract.

3 , medial, posterior cortical, nucleus of the lateral olfactory tract, amygdalohippocampal area, and i

4 and in nondecussating pathways, such as the lateral olfactory tract and the habenulointerpeduncular

5 mitral cells by antidromic activation of the lateral olfactory tract and the posterior piriform corte

6 fiber tracts within the brain, including the lateral olfactory tract and the vomeronasal nerve.

7 cells projected to either the medial or the lateral olfactory tract and, in general, the location of

8 Shock stimulation of afferent fibers (lateral olfactory tract) and association/commissural fib

9 sterior hypothalamic nucleus, nucleus of the lateral olfactory tract, and within substantia nigra par

10 dulate baseline synaptic transmission in the lateral olfactory tract but not the associational affere

11 Stimulation of the lateral olfactory tract evoked an antidromic pulse follo

12 ew brain regions, such as the nucleus of the lateral olfactory tract, exhibit astoundingly high Cbln2

13 corticofugal fibers, thalamocortical axons, lateral olfactory tract, hippocamposeptal projection, an

14 of the organization of myelinated fibers in lateral olfactory tract in the anterior and posterior pe

15 of odor is congruent with the maturation of lateral olfactory tract input in rat pups.

16 ediated postsynaptic responses in the aPC to lateral olfactory tract input, shown to be enhanced at 2

17 (BX) or bilateral transection of the rostral lateral olfactory tract (LOT) at the level of the anteri

18 Specifically, mitral cell axons form the lateral olfactory tract (LOT) by targeting lateral olfac

19 ade horseradish peroxidase (HRP) labeling of lateral olfactory tract (LOT) fibers in anterior pirifor

20 e lateral olfactory tract (LOT) by targeting lateral olfactory tract (lot) guidepost cells in the pir

21 tion from the olfactory bulb carried via the lateral olfactory tract (LOT) is 'hardwired.' Here, we r

22 ory bulb (OB) to piriform cortex through the lateral olfactory tract (LOT) relies on synchronized arr

23 ical stimulation of mitral cell axons in the lateral olfactory tract (LOT) resulted in excitation of

24 ween LEC inputs and sensory signals from the lateral olfactory tract (LOT) revealed that simultaneous

25 systems that interconnect the OB and PC: the lateral olfactory tract (LOT), which contains mitral cel

26 Lateral olfactory tract (LOT)-evoked responses were reco

27 labeled following dextran injection into the lateral olfactory tract (LOT).

28 (OB) that form an axonal bundle known as the lateral olfactory tract (LOT).

29 ials following antidromic stimulation of the lateral olfactory tract (LOT).

30 e activated by antidromic stimulation of the lateral olfactory tract (LOT).

31 n of the anterior commissure, but not in the lateral olfactory tract, mammillothalamic tract, or opti

32 multiple hypothalamic nuclei, nucleus of the lateral olfactory tract, medial amygdala, hippocampal fo

33 The nucleus of the lateral olfactory tract (nLOT) is a cortical nucleus of

34 The pathway via the nucleus of the lateral olfactory tract (NLOT) that receives input from

35 ctrical stimulation at 200 Hz applied to the lateral olfactory tract provides a substitute for the no

36 the anterior commissure, the nucleus of the lateral olfactory tract, the anterior amygdaloid area, t

37 i, periamygdaloid cortex, and nucleus of the lateral olfactory tract; these nuclei also contained var

38 by the olfactory bulb and then sent via the lateral olfactory tract to a series of olfactory cortica

39 denced by the abolition of sniffing when the lateral olfactory tracts, were cut and the retention of