| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| A Takeda, J Sawashita, S Takefuta, M Ohnuma, S Okad. Role of zinc released by stimulation in rat amygdala. Journal of neuroscience research. vol 57. issue 3. 1999-09-08. PMID:10412032. |
these results suggest that vesicular zinc is essential to the function of the amygdala, e.g., olfactory function. |
1999-09-08 |
2023-08-12 |
rat |
| A Martínez-Marcos, E Lanuza, M Halper. Organization of the ophidian amygdala: chemosensory pathways to the hypothalamus. The Journal of comparative neurology. vol 412. issue 1. 1999-09-01. PMID:10440709. |
the amygdala was divided into olfactory recipient (ventral anterior and external amygdalae), vomeronasal recipient (nucleus sphericus, ns, and medial amygdala, ma), and nonchemosensory (e.g., posterior dorsal ventricular ridge, pdvr, and dorsolateral amygdaloid nucleus, dla) subdivisions. |
1999-09-01 |
2023-08-12 |
Not clear |
| A Martínez-Marcos, E Lanuza, M Halper. Organization of the ophidian amygdala: chemosensory pathways to the hypothalamus. The Journal of comparative neurology. vol 412. issue 1. 1999-09-01. PMID:10440709. |
in addition to receiving afferents from the main olfactory bulb, the olfactory amygdala receives afferents from ns and projects to the ns, pdvr, and dorsal hypothalamus. |
1999-09-01 |
2023-08-12 |
Not clear |
| A Martínez-Marcos, E Lanuza, M Halper. Organization of the ophidian amygdala: chemosensory pathways to the hypothalamus. The Journal of comparative neurology. vol 412. issue 1. 1999-09-01. PMID:10440709. |
among the nonchemosensory amygdaloid structures, the pdvr receives afferents from the lcrv and the olfactory amygdala and projects to the vmh, whereas dla receives afferents from the lcrv and ns, and projects to the periventricular hypothalamus. |
1999-09-01 |
2023-08-12 |
Not clear |
| A Martínez-Marcos, E Lanuza, M Halper. Organization of the ophidian amygdala: chemosensory pathways to the hypothalamus. The Journal of comparative neurology. vol 412. issue 1. 1999-09-01. PMID:10440709. |
these results substantially clarify the olfactory and vomeronasal tertiary connections and demonstrate that parts of the nonchemosensory amygdala play a major role in relaying chemosensory information to the hypothalamus. |
1999-09-01 |
2023-08-12 |
Not clear |
| S W Newma. The medial extended amygdala in male reproductive behavior. A node in the mammalian social behavior network. Annals of the New York Academy of Sciences. vol 877. 1999-08-10. PMID:10415653. |
in the male syrian hamster, these signals are integrated in nuclei of the medial extended amygdala, where olfactory and vomeronasal system transmission is modulated by populations of androgen- and estrogen-sensitive neurons. |
1999-08-10 |
2023-08-12 |
Not clear |
| V Cornea-Hébert, M Riad, C Wu, S K Singh, L Descarrie. Cellular and subcellular distribution of the serotonin 5-HT2A receptor in the central nervous system of adult rat. The Journal of comparative neurology. vol 409. issue 2. 1999-07-28. PMID:10379914. |
the distribution of 5-ht2a-immunolabeled soma/dendrites was characterized in cerebral cortex, olfactory system, septum, hippocampal formation, basal ganglia, amygdala, diencephalon, cerebellum, brainstem, and spinal cord. |
1999-07-28 |
2023-08-12 |
human |
| D Nakahara, Y Ishida, M Nakamura, I Kuwahara, K Todaka, T Nishimor. Regional differences in desensitization of c-Fos expression following repeated self-stimulation of the medial forebrain bundle in the rat. Neuroscience. vol 90. issue 3. 1999-06-14. PMID:10218800. |
among them, structures showing a larger number of the stained neurons on the stimulated side were the anterior olfactory nucleus, amygdala, medial caudate-putamen complex, lateral septum, bed nucleus of the stria terminals, ventral pallidum, substantia innominata, lateral preoptic area, medial preoptic area, lateral hypothalamus rostral to the stimulating electrodes, and substantia nigra. |
1999-06-14 |
2023-08-12 |
rat |
| J K Pinkstaff, J Detterich, G Lynch, C Gal. Integrin subunit gene expression is regionally differentiated in adult brain. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 19. issue 5. 1999-04-20. PMID:10024342. |
general results and areas of notable labeling were as follows: alpha1-limited neuronal expression, neocortical layer v, hippocampal ca3; alpha3 and alpha5-diffuse neuronal and glial labeling, purkinje cells, hippocampal stratum pyramidale, locus coeruleus (alpha3); alpha4- discrete limbic regions, olfactory cortical layer ii, hippocampal ca2; alpha6-most prominently neuronal, neocortical subplate, endopiriform, subiculum; alpha7-discrete, all neocortical layers, hippocampal granule cells and ca3, cerebellar granule and purkinje cells, all efferent cranial nerve nuclei; alpha8-discrete neuronal, deep cortex, hippocampal ca1, basolateral amygdala, striatum; alphav-all cortical layers, striatum, purkinje cells; beta4-dentate gyrus granule cells; beta5-broadly distributed, neocortex, medial amygdala, cerebellar granule and purkinje cells, efferent cranial nerve nuclei; alpha2, beta2, and beta3-mrnas not detected. |
1999-04-20 |
2023-08-12 |
rat |
| J Motte, M J Fernandes, T Z Baram, A Nehli. Spatial and temporal evolution of neuronal activation, stress and injury in lithium-pilocarpine seizures in adult rats. Brain research. vol 793. issue 1-2. 1999-03-29. PMID:9630518. |
the expression of fos appeared very early, 2-30 min after the onset of polyspikes and intensified during the following 4 h. fos immunoreactivity was especially high in the hippocampus, cerebral cortex, amygdala and anterior olfactory nuclei. |
1999-03-29 |
2023-08-12 |
rat |
| J Motte, M J Fernandes, T Z Baram, A Nehli. Spatial and temporal evolution of neuronal activation, stress and injury in lithium-pilocarpine seizures in adult rats. Brain research. vol 793. issue 1-2. 1999-03-29. PMID:9630518. |
neuronal damage was extensive in the piriform and entorhinal cortices, the hippocampal ca3 area and the polymorphic layer of the dentate gyrus, basal amygdala, mediodorsal thalamus and anterior olfactory nuclei. |
1999-03-29 |
2023-08-12 |
rat |
| M Morales, E Battenberg, F E Bloo. Distribution of neurons expressing immunoreactivity for the 5HT3 receptor subtype in the rat brain and spinal cord. The Journal of comparative neurology. vol 402. issue 3. 1999-03-15. PMID:9853906. |
within the forebrain, intensely immunoreactive cells were found in layers ii-iii of the neocortex, anterior olfactory nucleus, hippocampal formation, and amygdala. |
1999-03-15 |
2023-08-12 |
rat |
| K P Bhatnagar, E Meisam. Vomeronasal organ in bats and primates: extremes of structural variability and its phylogenetic implications. Microscopy research and technique. vol 43. issue 6. 1999-03-11. PMID:9880162. |
however, considering the functionality of this chemosensory structure, the presence of a non-cilated (microvillar) neuroepithelium (and not just any odd type of epithelium) encased in a variously shaped vomeronasal cartilage, along with vomeronasal nerve bundles and above all an accessory olfactory bulb connected to the limbic vomeronasal amygdala, are the absolute essential neurostructural characteristics and anatomic requirement for a functional vno and the accessory olfactory system in any tetrapod. |
1999-03-11 |
2023-08-12 |
monkey |
| R I Woo. Integration of chemosensory and hormonal input in the male Syrian hamster brain. Annals of the New York Academy of Sciences. vol 855. 1999-02-24. PMID:9929628. |
chemosensory cues from the vomeronasal organ and olfactory mucosa are transmitted through limbic nuclei that contain receptors for gonadal steroid hormones, including the medial amygdaloid nucleus (me) and medial preoptic area (mpoa). |
1999-02-24 |
2023-08-12 |
Not clear |
| B Gallez, C Baudelet, M Geurt. Regional distribution of manganese found in the brain after injection of a single dose of manganese-based contrast agents. Magnetic resonance imaging. vol 16. issue 10. 1999-02-17. PMID:9858278. |
maximal mn concentration was observed in the hippocampal region, thalamus, colliculi, amygdala, olfactory nuclei, and cerebellum. |
1999-02-17 |
2023-08-12 |
mouse |
| B Depczynski, K Nichol, Z Fathi, T Iismaa, J Shine, A Cunningha. Distribution and characterization of the cell types expressing GALR2 mRNA in brain and pituitary gland. Annals of the New York Academy of Sciences. vol 863. 1999-02-16. PMID:9928165. |
we examined the distribution of galr2 in rat brain and pituitary by in situ hybridization histochemistry and found it abundant in regions of hippocampus, piriform and entorhinal cortex, basal nucleus of the accessory olfactory tract, amygdala, hypothalamic nuclei, purkinje cells, and discrete brainstem nuclei. |
1999-02-16 |
2023-08-12 |
rat |
| G Cousens, T Ott. Both pre- and posttraining excitotoxic lesions of the basolateral amygdala abolish the expression of olfactory and contextual fear conditioning. Behavioral neuroscience. vol 112. issue 5. 1999-01-26. PMID:9829787. |
both pre- and posttraining excitotoxic lesions of the basolateral amygdala abolish the expression of olfactory and contextual fear conditioning. |
1999-01-26 |
2023-08-12 |
human |
| G Cousens, T Ott. Both pre- and posttraining excitotoxic lesions of the basolateral amygdala abolish the expression of olfactory and contextual fear conditioning. Behavioral neuroscience. vol 112. issue 5. 1999-01-26. PMID:9829787. |
the present study examined whether the basolateral amygdaloid complex (bla) participates in the expression of fear conditioned to both an olfactory conditioned stimulus (cs) and the training context. |
1999-01-26 |
2023-08-12 |
human |
| A Mallamaci, R Iannone, P Briata, L Pintonello, S Mercurio, E Boncinelli, G Cort. EMX2 protein in the developing mouse brain and olfactory area. Mechanisms of development. vol 77. issue 2. 1999-01-22. PMID:9831645. |
we also observe that the emx2 and emx1 homeoproteins display complementary expression patterns in olfactory bulbs and amygdaloid complex. |
1999-01-22 |
2023-08-12 |
mouse |
| A Takeda, S Ishiwatari, S Okad. In vivo stimulation-induced release of manganese in rat amygdala. Brain research. vol 811. issue 1-2. 1999-01-12. PMID:9804933. |
the results suggest that the role of manganese ions in the amygdala, and probably in the olfactory system, is dynamically linked to neural signalling processes. |
1999-01-12 |
2023-08-12 |
rat |