100 Examples of sentences containing the noun "axon hillock"

Definition

The term "Axon Hillock" refers to the specialized region of a neuron where the axon begins. It plays a crucial role in the initiation of action potentials, serving as a trigger zone where the summation of synaptic inputs occurs. The axon hillock is characterized by a high density of voltage-gated sodium channels, making it essential for the propagation of electrical signals in the nervous system.

Synonyms

• None (specific scientific term)

Antonyms

• None (specific scientific term)

Examples

1. The neuron Axon Hillock processes incoming signals effectively.
2. The Axon Hillock is critical for generating action potentials.
3. Researchers are studying how the Axon Hillock functions in different types of neurons.
4. Damage to the Axon Hillock can disrupt neuronal communication.
5. The Axon Hillock integrates excitatory and inhibitory signals.
6. Scientists use imaging techniques to observe the Axon Hillock.
7. The Axon Hillock determines whether a neuron will fire.
8. A healthy Axon Hillock is essential for proper brain function.
9. The Axon Hillock is where the action potential is first generated.
10. Understanding the Axon Hillock can lead to advancements in neurobiology.
11. The Axon Hillock is often referred to as the "trigger zone."
12. The depolarization at the Axon Hillock leads to signal transmission.
13. The Axon Hillock is located at the axon's origin.
14. Synaptic inputs converge at the Axon Hillock.
15. The morphology of the Axon Hillock can vary among neurons.
16. Electrical activity in the Axon Hillock influences overall neuron behavior.
17. The Axon Hillock has a unique structure that facilitates its function.
18. Ion channels at the Axon Hillock are key to action potential initiation.
19. The Axon Hillock is vital for reflex actions.
20. Neurological disorders may affect the Axon Hillock.
21. The Axon Hillock plays a role in learning and memory.
22. A stronger signal at the Axon Hillock increases the likelihood of firing.
23. The Axon Hillock can be influenced by various neurotransmitters.
24. Researchers have identified proteins that are enriched in the Axon Hillock.
25. The Axon Hillock is critical for maintaining neuronal excitability.
26. Signal integration occurs primarily at the Axon Hillock.
27. The Axon Hillock helps determine the firing rate of neurons.
28. Errors in Axon Hillock function can lead to epilepsy.
29. The Axon Hillock is an area of active research in neuroscience.
30. Studying the Axon Hillock can reveal insights into synaptic plasticity.
31. The Axon Hillock must reach a threshold for an action potential to occur.
32. The Axon Hillock integrates multiple inputs before generating a response.
33. The Axon Hillock is fundamental to the functioning of the nervous system.
34. Pathological changes at the Axon Hillock can result in neuronal dysfunction.
35. The Axon Hillock is a target for pharmacological intervention.
36. Electrical properties of the Axon Hillock are essential for signal conduction.
37. The Axon Hillock can exhibit changes during development.
38. The Axon Hillock is often the first site affected in neurodegenerative diseases.
39. The Axon Hillock is crucial for the transmission of nerve impulses.
40. The Axon Hillock integrates both temporal and spatial summation.
41. Inhibitory signals can dampen the activity at the Axon Hillock.
42. The Axon Hillock is a key player in neuronal signaling pathways.
43. The shape of the Axon Hillock influences its electrical properties.
44. The Axon Hillock can be influenced by the surrounding environment.
45. The Axon Hillock is important for the overall health of neurons.
46. The dynamics of the Axon Hillock are studied in various animal models.
47. The Axon Hillock is involved in the propagation of electrical signals.
48. Changes in the Axon Hillock can affect neurotransmitter release.
49. The Axon Hillock is where the neuronal decision-making occurs.
50. The Axon Hillock is essential for rapid signal transmission.
51. The Axon Hillock can adapt its function based on neuronal activity.
52. The Axon Hillock is a critical area for synaptic integration.
53. The Axon Hillock has distinct biochemical properties.
54. The Axon Hillock contributes to the overall excitability of the neuron.
55. The Axon Hillock can be affected by changes in ionic concentrations.
56. The Axon Hillock can influence the rate of action potential firing.
57. The Axon Hillock is a focal point in the study of neurophysiology.
58. The Axon Hillock plays an essential role in neuronal circuits.
59. The Axon Hillock is often a site of action potential initiation.
60. Understanding the Axon Hillock can help in developing treatments for neurological disorders.
61. The Axon Hillock acts as a barrier to prevent excessive firing.
62. The Axon Hillock is a key area for researchers studying synaptic transmission.
63. The Axon Hillock helps maintain the balance between excitation and inhibition.
64. The Axon Hillock can be influenced by hormonal changes.
65. Changes in the Axon Hillock structure can lead to altered neuronal function.
66. The Axon Hillock is involved in the process of signal amplification.
67. The Axon Hillock can be a target for neuroprotective therapies.
68. The Axon Hillock ensures proper signal propagation in the nervous system.
69. The Axon Hillock plays a role in the timing of action potentials.
70. The Axon Hillock can affect synaptic strength.
71. The Axon Hillock is integral to the overall functioning of neurons.
72. The Axon Hillock can exhibit plastic changes in response to activity.
73. The Axon Hillock is essential for the relay of information in the brain.
74. The Axon Hillock can be modulated by various signaling pathways.
75. The Axon Hillock influences the integration of excitatory inputs.
76. The Axon Hillock is critical for the generation of rhythmic neuronal firing.
77. The Axon Hillock can be studied in the context of synaptic dynamics.
78. The Axon Hillock is crucial for maintaining neuronal homeostasis.
79. The Axon Hillock is a unique feature of neuronal architecture.
80. The Axon Hillock is involved in the regulation of neurotransmitter release.
81. The Axon Hillock can undergo changes during learning processes.
82. The Axon Hillock is where excitatory and inhibitory inputs converge.
83. The Axon Hillock is essential for the conduction of nerve impulses.
84. The Axon Hillock can influence the overall firing pattern of a neuron.
85. The Axon Hillock is critical for the proper functioning of synapses.
86. The Axon Hillock can be affected by various environmental factors.
87. The Axon Hillock is a focal point for neurochemical signaling.
88. The Axon Hillock must reach a specific threshold for an action potential.
89. The Axon Hillock is often studied in relation to neuronal plasticity.
90. The Axon Hillock is vital for the relay of sensory information.
91. The Axon Hillock can be influenced by genetic factors.
92. The Axon Hillock is involved in the coordination of neural networks.
93. The Axon Hillock is crucial for the transmission of motor commands.
94. The Axon Hillock can undergo structural changes during development.
95. The Axon Hillock is an area of interest in neuroanatomy.
96. The Axon Hillock plays a key role in neuronal responsiveness.
97. The Axon Hillock can experience changes due to stress.
98. The Axon Hillock is often a site of interest in neuropharmacology.
99. The Axon Hillock mediates the effects of excitatory and inhibitory neurotransmitters.
100. The Axon Hillock is essential for the efficiency of neural communication.