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相关概念视频

Cholinergic Neurons: Neurotransmission01:23

Cholinergic Neurons: Neurotransmission

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Cholinergic neurotransmission involves the synthesis and the release of acetylcholine (ACh) in order to transmit nerve impulses across the synapse. The process begins with the synthesis of acetyl CoA, a precursor for ACh, from ATP, acetate, and coenzyme A in the mitochondria. Choline, another vital precursor, is transported inside the neuron through choline transporters, including high-affinity choline transporter CHT1, low-affinity choline transporter CTL1, and lower-affinity choline...
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Cholinergic Receptors: Muscarinic01:25

Cholinergic Receptors: Muscarinic

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The pharmacological actions of acetylcholine are elicited via its binding to two families of cholinergic receptors or cholinoceptors, namely, muscarinic and nicotinic receptors. Muscarinic receptors are G protein-coupled receptors and have five subtypes, M1–M5. All mAChR subtypes are activated by acetylcholine and blocked by the antagonist, atropine. 
The subtypes M1, M3, and M5 couple with the Gq subunit and activate the phospholipase C (PLC) activity, mobilizing intracellular Ca2+....
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Cholinergic Receptors: Nicotinic01:15

Cholinergic Receptors: Nicotinic

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Nicotinic receptors are ligand-gated ion channels that are activated by acetylcholine and nicotine. Upon activation, they cause a rapid increase in the permeability of cells to K+, Na+, and Ca2+, followed by depolarization and excitation. They are in the autonomic ganglia, skeletal neuromuscular junction, CNS, and adrenal medulla.
There are two types of nicotinic receptors: neuromuscular (NM/NM/N1) and neuronal (NN/NN/N2). The two families differ based on their location and selectivity to...
5.4K
Indirect-Acting Cholinergic Agonists: Mechanism of Action01:18

Indirect-Acting Cholinergic Agonists: Mechanism of Action

2.5K
Indirect-acting cholinergic agonists work by interacting with an enzyme called acetylcholinesterase (AChE) in the synaptic cleft. They can be reversible or irreversible inhibitors and have different effects on the enzyme.
Reversible inhibitors like edrophonium bind to a specific part of the enzyme called the anionic catalytic site. They form noncovalent bonds, which means they are not strongly attached to the enzyme. This creates a temporary and less stable enzyme–inhibitor complex,...
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Indirect-Acting Cholinergic Agonists: Chemistry and Structure-Activity Relationship01:29

Indirect-Acting Cholinergic Agonists: Chemistry and Structure-Activity Relationship

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Indirect-acting cholinergic agonists are agents that interact with the acetylcholinesterase enzyme in the synaptic cleft, preventing the breakdown of acetylcholine into choline and acetate. Consequently, the concentration of acetylcholine in the synaptic cleft increases. These agonists can be classified into reversible and irreversible inhibitors based on their duration of action.
Reversible inhibitors display short to medium durations of action. Short-acting agents include simple alcohols with...
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Direct-Acting Cholinergic Agonists: Chemistry and Structure-Activity Relationship01:22

Direct-Acting Cholinergic Agonists: Chemistry and Structure-Activity Relationship

2.0K
Cholinergic agonists or cholinomimetics mimic the action of acetylcholine to stimulate the parasympathetic nervous system. They are categorized into direct-acting and indirect-acting agents. The direct-acting cholinergic drugs induce the parasympathetic response by directly binding to the muscarinic or nicotine receptors. In comparison, the indirect-acting cholinergic drugs prevent acetylcholine hydrolysis, indirectly contributing to the extended parasympathetic response.
The direct-acting...
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相关实验视频

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非同步的亚单元转换主要的乙胆受体激活

Mackenzie J Thompson1, Christian J G Tessier2, Anna Ananchenko1

  • 1Department of Biochemistry, Microbiology, and Immunology, University of Ottawa, Ottawa, ON, Canada.

Science (New York, N.Y.)
|October 2, 2025
PubMed
概括

对肌肉尼古丁乙胆受体的结合稳定了中间结构,揭示了序列激活机制. 这一发现解释了这些对突触通信至关重要的受体如何在非活跃状态和活跃状态之间过渡.

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科学领域:

  • 神经科学
  • 结构生物学
  • 生物化学

背景情况:

  • 后突触受体通过将化学信号转化为电反应来调解突触通信.
  • 在激动剂结合时,联结离子通道发生构造变化,导致通道开放并影响后突触信号传递.

研究的目的:

  • 阐明肌肉类型尼古丁乙胆受体激活的结构机制.
  • 确定受体的结构在未结合,单结合和二结合状态.

主要方法:

  • 肌肉类型尼古丁乙胆受体的高分辨率结构确定.
  • 单通道记录以使结构状态与功能活动相关联.

主要成果:

  • 对单个位点的激素结合会诱导一个闭合状态,其中一个子单元采用活性类型的构造,而另一个则保持不活性.
  • 鉴定了一种中间结构,显示受体激活过程中的异步子单元转换.

结论:

  • 肌肉类型的尼古丁乙胆受体激活通过一个涉及异步子单元转换的顺序机制进行.
  • 这种机制有助于理解更广泛的胺联离子通道超级家族的功能.