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相关概念视频

Olfactory Receptors: Location and Structure01:03

Olfactory Receptors: Location and Structure

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The process of olfaction, also known as the sense of smell, is a sophisticated chemical response system. The specialized sensory neurons that facilitate this process, known as olfactory receptor neurons, are situated in an upper segment of the nasal cavity, known as the olfactory epithelium. Olfactory sensory neurons are bipolar, with their dendrites extending from the epithelium's apex into the mucus that lines the nasal cavity. Airborne molecules, when inhaled, traverse the olfactory...
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Additional Subnuclear Structures02:10

Additional Subnuclear Structures

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Additional Subnuclear Structures02:10

Additional Subnuclear Structures

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The eukaryotic nucleus is a double membrane-bound organelle that contains nearly all of the cell’s genetic material in the form of chromosomes. It is rightly called the “brain” of the cell as it shoulders the responsibility of responding to various physiological processes, stress, altered metabolic conditions, and other cellular signals. 
The nucleus contains many membrane-less subnuclear organelles or nuclear bodies, such as nucleoli, Cajal bodies, speckles,...
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Assembly of Signaling Complexes01:30

Assembly of Signaling Complexes

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Multiprotein signaling complexes are formed in a dynamic process involving protein-protein interactions at the cytoplasmic domain of transmembrane receptors or enzymatic and non-enzymatic proteins associated with the receptor. These complexes ensure the activation and propagation of intracellular signals that regulate cell functions.
Interaction domains in cell signaling
Interaction domains recognize exposed features of their binding partners containing post-translationally modified sequences,...
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Topographic CA1 input shapes subicular spatial coding.

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相关实验视频

Updated: Feb 24, 2026

In Vivo Optical Calcium Imaging of Learning-Induced Synaptic Plasticity in Drosophila melanogaster
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In Vivo Optical Calcium Imaging of Learning-Induced Synaptic Plasticity in Drosophila melanogaster

Published on: October 8, 2019

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潜编码了环境结构.

Ryan Place1, Emily Xu1, Yanjun Sun2

  • 1Department of Cognitive Science, University of California San Diego, La Jolla, USA.

Hippocampus
|February 22, 2026
PubMed
概括
此摘要是机器生成的。

背部垂体通过编码环境结构,在空间导航中发挥关键作用. 它的神经元调整到边界和角度,形成了解环境形状和路径网络的基础.

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Correlative Confocal and 3D Electron Microscopy of a Specific Sensory Cell
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Correlative Confocal and 3D Electron Microscopy of a Specific Sensory Cell

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Recording Temperature-induced Neuronal Activity through Monitoring Calcium Changes in the Olfactory Bulb of Xenopus laevis
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Recording Temperature-induced Neuronal Activity through Monitoring Calcium Changes in the Olfactory Bulb of Xenopus laevis

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相关实验视频

Last Updated: Feb 24, 2026

In Vivo Optical Calcium Imaging of Learning-Induced Synaptic Plasticity in Drosophila melanogaster
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In Vivo Optical Calcium Imaging of Learning-Induced Synaptic Plasticity in Drosophila melanogaster

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Correlative Confocal and 3D Electron Microscopy of a Specific Sensory Cell
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Correlative Confocal and 3D Electron Microscopy of a Specific Sensory Cell

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Recording Temperature-induced Neuronal Activity through Monitoring Calcium Changes in the Olfactory Bulb of Xenopus laevis
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科学领域:

  • 神经科学是一个神经科学.
  • 认知科学 认知科学
  • 空间导航 空间导航

背景情况:

  • 脑膜是大脑认知地图系统的关键组成部分.
  • 它与参与空间处理和导航的各种大脑区域相互连接.

研究的目的:

  • 审查认知地图中背部垂体的功能作用的证据.
  • 探索其在编码环境结构与传输空间信息方面的潜在作用.

主要方法:

  • 现有研究的文献综述 关于脑膜功能.
  • 分析与环境特征相关的神经元调特性.

主要成果:

  • 背部垂体参与整合位置,方向和边界信息.
  • 有证据表明,它在将空间编码转化为导航行动中的作用.

结论:

  • 潜神经元对边界,角度和轴等环境特征进行调整,是环境形状的编码的基础.
  • 这种编码对于理解路径网络和引导导航至关重要.