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The neuronal architecture of the cochlear nucleus of the cat.

作者信息

Brawer J R, Morest D K, Kane E C

出版信息

J Comp Neurol. 1974 Jun 1;155(3):251-300. doi: 10.1002/cne.901550302.

DOI:10.1002/cne.901550302
PMID:4134212
Abstract
摘要

相似文献

1
The neuronal architecture of the cochlear nucleus of the cat.猫耳蜗核的神经元结构
J Comp Neurol. 1974 Jun 1;155(3):251-300. doi: 10.1002/cne.901550302.
2
Synaptic organization in the dorsal cochlear nucleus of the cat: a light and electron microscopic study.猫耳蜗背核的突触组织:光镜和电镜研究
J Comp Neurol. 1974 Jun 1;155(3):301-29. doi: 10.1002/cne.901550303.
3
Reconstruction and general constitution of the cochlear mucleus of the cat.猫耳蜗核的重建与一般结构
Anat Anz. 1971;128(3):265-77.
4
Study of the elements constituting the cochlear nucleus of the cat.猫耳蜗核组成元素的研究。
Anat Anz. 1971;128(3):248-64.
5
[Do 2d-order neurons exist in the cat cochlear nerve?].[猫的耳蜗神经中存在二阶神经元吗?]
Arkh Anat Gistol Embriol. 1987 Sep;93(9):75-7.
6
Pathways connecting the right and left cochlear nuclei.连接左右耳蜗核的通路。
J Comp Neurol. 1982 Dec 10;212(3):313-26. doi: 10.1002/cne.902120308.
7
Postnatal maturation of the cat cochlear nuclear complex.猫耳蜗核复合体的出生后成熟
Acta Otolaryngol Suppl. 1984;417:1-43.
8
Octopus cells in the cochlear nucleus of the cat: heterotypic synapses upon homeotypic neurons.
Int J Neurosci. 1973;5(6):251-79. doi: 10.3109/00207457309149485.
9
Cytoarchitecture of the cochlear nuclei in the cat.猫耳蜗核的细胞构筑
J Comp Neurol. 1969 Aug;136(4):453-84. doi: 10.1002/cne.901360407.
10
Ultrastructural features of neurons and nerve fibres in the spiral ganglia of cats.猫螺旋神经节中神经元和神经纤维的超微结构特征
J Neurocytol. 1973 Mar;2(1):91-103. doi: 10.1007/BF01099211.

引用本文的文献

1
Fusiform Cells in the Dorsal Cochlear Nucleus Change Intrinsic Electrophysiological Properties and Morphologically Remodel Their Basal Dendrites with Age.耳蜗背核中的梭形细胞会随着年龄改变其内在电生理特性并在形态上重塑其基底树突。
bioRxiv. 2025 Jul 21:2025.07.16.665173. doi: 10.1101/2025.07.16.665173.
2
Cellular and synaptic specializations for sub-millisecond precision in the mammalian auditory brainstem.哺乳动物听觉脑干中实现亚毫秒精度的细胞和突触特化。
Front Cell Neurosci. 2025 May 19;19:1568506. doi: 10.3389/fncel.2025.1568506. eCollection 2025.
3
Kv channels improve the temporal processing of auditory neurons in the cochlear nucleus.
钾离子通道改善耳蜗核中听觉神经元的时间处理能力。
J Physiol. 2024 Dec 4. doi: 10.1113/JP286174.
4
Optical measurement of glutamate release robustly reports short-term plasticity at a fast central synapse.谷氨酸释放的光学测量有力地揭示了快速中枢突触处的短期可塑性。
Front Mol Neurosci. 2024 Feb 28;17:1351280. doi: 10.3389/fnmol.2024.1351280. eCollection 2024.
5
Glycine is a transmitter in the human and chimpanzee cochlear nuclei.甘氨酸是人类和黑猩猩耳蜗核中的一种神经递质。
Front Neuroanat. 2024 Feb 15;18:1331230. doi: 10.3389/fnana.2024.1331230. eCollection 2024.
6
Mechanisms of age-related hearing loss at the auditory nerve central synapses and postsynaptic neurons in the cochlear nucleus.年龄相关性听力损失在听神经中枢突触和耳蜗核内突触后神经元中的机制。
Hear Res. 2024 Feb;442:108935. doi: 10.1016/j.heares.2023.108935. Epub 2023 Dec 9.
7
Differential projections from the cochlear nucleus to the inferior colliculus in the mouse.小鼠耳蜗核至下丘的差异投射。
Front Neural Circuits. 2023 Jul 24;17:1229746. doi: 10.3389/fncir.2023.1229746. eCollection 2023.
8
High-resolution volumetric imaging constrains compartmental models to explore synaptic integration and temporal processing by cochlear nucleus globular bushy cells.高分辨率容积成像限制了分室模型,以探索通过耳蜗核球状束细胞的突触整合和时间处理。
Elife. 2023 Jun 8;12:e83393. doi: 10.7554/eLife.83393.
9
Comparative analysis of four nuclei in the human brainstem: Individual differences, left-right asymmetry, species differences.人类脑干中四个核团的比较分析:个体差异、左右不对称性、物种差异。
Front Neuroanat. 2023 Feb 16;17:1069210. doi: 10.3389/fnana.2023.1069210. eCollection 2023.
10
Dendritic Degeneration and Altered Synaptic Innervation of a Central Auditory Neuron During Age-related Hearing Loss.年龄相关性听力损失过程中中枢听觉神经元的树突退变和突触支配改变。
Neuroscience. 2023 Mar 15;514:25-37. doi: 10.1016/j.neuroscience.2023.01.037. Epub 2023 Feb 3.