100 Examples of sentences containing the noun "axon terminal"

Definition

An "axon terminal" is the end part of an axon in a neuron, where the axon makes contact with other neurons, muscle cells, or glands to transmit signals through neurotransmitters. It plays a crucial role in the nervous system by facilitating communication between nerve cells.

Synonyms

• Axon bouton
• Synaptic terminal
• Terminal button

Antonyms

• Dendrite (in context of signal reception)
• Soma (cell body of a neuron)

Examples

1. The axon terminal transmits neurotransmitters to the next neuron.
2. In the reflex arc, the axon terminal plays a critical role in signal propagation.
3. During synaptic transmission, the axon terminal releases chemical messengers.
4. The study focused on how the axon terminal influences neuron communication.
5. Researchers observed changes in the axon terminal due to neurodegenerative diseases.
6. The axon terminal is essential for effective synaptic signaling.
7. Each axon terminal connects to multiple dendrites of other neurons.
8. The axon terminal can be affected by various neurotransmitters.
9. When stimulated, the axon terminal releases vesicles filled with neurotransmitters.
10. The health of the axon terminal is vital for maintaining proper nervous system function.
11. In experiments, scientists manipulated the axon terminal to study synaptic strength.
12. The axon terminal is equipped with receptors that respond to incoming signals.
13. Damage to the axon terminal can lead to impaired motor functions.
14. The axon terminal undergoes structural changes during learning and memory formation.
15. A malfunctioning axon terminal can result in neurological disorders.
16. The axon terminal forms a synapse with the postsynaptic neuron.
17. Electrical impulses travel down the axon to reach the axon terminal.
18. The axon terminal is responsible for converting electrical signals into chemical signals.
19. Scientists use imaging techniques to study the axon terminal in real-time.
20. The axon terminal is highly specialized for its function in neurotransmission.
21. In the central nervous system, the axon terminal connects with various types of neurons.
22. The axon terminal facilitates rapid communication between nerve cells.
23. Researchers have identified key proteins involved in the axon terminal function.
24. The axon terminal can be influenced by external stimuli and environmental factors.
25. Each axon terminal is surrounded by glial cells that support its function.
26. The axon terminal is involved in the process of synaptic plasticity.
27. Disruptions in the axon terminal can lead to synaptic dysfunction.
28. The axon terminal releases neurotransmitters in response to an action potential.
29. The morphology of the axon terminal can vary depending on its location.
30. The axon terminal can adapt to changes in neuronal activity.
31. Electrical stimulation of the axon terminal can enhance synaptic transmission.
32. The axon terminal is key to understanding synaptic integration.
33. An intact axon terminal is crucial for effective neuronal communication.
34. The axon terminal can regenerate after injury, allowing for recovery.
35. The structure of the axon terminal is essential for neurotransmitter release.
36. The axon terminal acts as a bridge between different neurons.
37. The efficiency of the axon terminal affects overall neural network function.
38. The axon terminal is involved in both excitatory and inhibitory signaling.
39. Researchers are studying the axon terminal to develop new treatments for neurological conditions.
40. The axon terminal can exhibit plasticity based on usage and activity.
41. The connection at the axon terminal is vital for information processing in the brain.
42. The axon terminal is often the site of drug action in pharmacology.
43. Changes in the axon terminal can indicate the progression of certain diseases.
44. The axon terminal receives signals from the cell body to trigger neurotransmitter release.
45. The axon terminal is fundamental to the functioning of the nervous system.
46. The axon terminal contributes to the overall excitability of the neuron.
47. The health of the axon terminal is crucial for maintaining synaptic efficacy.
48. The axon terminal is integral in mediating communication between the brain and body.
49. Damage to the axon terminal can lead to severe neurological impairments.
50. The axon terminal is the final destination for action potentials traveling down the axon.
51. The axon terminal has specialized mechanisms for releasing neurotransmitters.
52. The interaction at the axon terminal is essential for learning and memory.
53. The axon terminal can be influenced by neurotrophic factors.
54. The axon terminal is often studied in the context of synaptic development.
55. The axon terminal is where synaptic vesicles store neurotransmitters.
56. The axon terminal can exhibit varying degrees of stability depending on neuronal activity.
57. Researchers are exploring the role of the axon terminal in pain signaling.
58. The axon terminal is a critical component in the functioning of motor neurons.
59. The structure of the axon terminal can provide insights into neuronal health.
60. Electrical activity in the axon terminal is essential for neurotransmitter release.
61. The axon terminal plays a role in the modulation of pain signals.
62. Changes in the axon terminal morphology can indicate neural plasticity.
63. The axon terminal can affect how signals are integrated within the neuron.
64. The axon terminal is involved in the recycling of neurotransmitters.
65. The axon terminal is key to understanding the mechanisms of synaptic transmission.
66. The axon terminal can release multiple types of neurotransmitters.
67. The integrity of the axon terminal is vital for proper sensory processing.
68. The axon terminal is often a target for therapeutic interventions in neurodegeneration.
69. The axon terminal interacts with various proteins to facilitate neurotransmission.
70. The efficiency of the axon terminal can be altered by synaptic activity.
71. The axon terminal can be influenced by experience and learning.
72. The axon terminal is essential for coordinating complex behaviors.
73. The axon terminal is where synaptic fatigue can occur after prolonged activity.
74. The axon terminal is critical in the process of synaptic pruning during development.
75. The axon terminal can exhibit unique properties based on its location in the nervous system.
76. The axon terminal has a rich array of receptors to respond to signaling molecules.
77. The axon terminal serves as a hub for communication between neurons.
78. The axon terminal can be affected by external environmental changes.
79. The axon terminal is often studied in the context of addiction and behavior.
80. The axon terminal can undergo significant changes in response to injury.
81. The axon terminal is crucial for the release of hormones in the endocrine system.
82. The axon terminal can contribute to the overall plasticity of neural circuits.
83. The axon terminal is vital for the coordination of muscle contractions.
84. The axon terminal can play a role in the pathophysiology of mental disorders.
85. The axon terminal is where signals are transmitted to effector cells.
86. The axon terminal can vary significantly in size and shape between different neurons.
87. The axon terminal can be a site of action for certain neurotoxins.
88. The axon terminal is essential for the transmission of sensory information.
89. The axon terminal can modulate its activity based on previous experiences.
90. The axon terminal is involved in the process of long-term potentiation.
91. The axon terminal can be influenced by genetic factors.
92. The axon terminal plays a critical role in the development of the nervous system.
93. The axon terminal can facilitate communication across large distances in the body.
94. The axon terminal is a key element in the functioning of reflex arcs.
95. The axon terminal can exhibit diversity in neurotransmitter release profiles.
96. The axon terminal is often the focus of studies on synaptic dysfunction.
97. The axon terminal can be visualized using advanced imaging techniques.
98. The axon terminal is responsible for the release of excitatory and inhibitory signals.
99. The axon terminal can be affected by various pharmacological agents.
100. The axon terminal is fundamental to our understanding of neurobiology.