100 Examples of sentences containing the noun "axoplasmic transport"

Definition

Axoplasmic transport refers to the process by which various substances, such as proteins and organelles, are transported along the axons of neurons. This process is crucial for the maintenance of neuronal function and communication, as it enables the movement of essential materials to and from the nerve cell body and the axon terminals.

Synonyms

• Axonal transport
• Neuronal transport
• Intracellular transport

Antonyms

• Axoplasmic stagnation
• Impaired transport

Examples

1. The study focused on how axoplasmic transport affects neuronal health.
2. Researchers discovered that disruptions in axoplasmic transport can lead to neurodegenerative diseases.
3. Scientists are investigating the mechanisms behind axoplasmic transport in different types of neurons.
4. The efficiency of axoplasmic transport is vital for synaptic function.
5. Blocking axoplasmic transport can have detrimental effects on cell survival.
6. The role of axoplasmic transport in neurotransmitter release is well-documented.
7. Changes in axoplasmic transport rates are observed in aging neurons.
8. The experiment demonstrated how axoplasmic transport is influenced by external factors.
9. Understanding axoplasmic transport can pave the way for new therapeutic strategies.
10. The integrity of axoplasmic transport is essential for neuronal plasticity.
11. Disruptions in axoplasmic transport can lead to cognitive decline.
12. The role of axoplasmic transport in muscle contraction is an interesting topic.
13. Scientists hypothesize that enhanced axoplasmic transport may improve recovery after injury.
14. The study provided insights into how axoplasmic transport is regulated.
15. Axoplasmic transport is crucial for the delivery of proteins to the axon.
16. The research highlighted the relationship between axoplasmic transport and mitochondrial function.
17. Axoplasmic transport dynamics can vary significantly between different types of neurons.
18. Inhibiting axoplasmic transport may be a potential strategy for targeting specific diseases.
19. The findings suggest that axoplasmic transport can be modulated by various signaling pathways.
20. The slow and fast modes of axoplasmic transport were analyzed in the study.
21. Axoplasmic transport plays a significant role in the maintenance of axon integrity.
22. The implications of altered axoplasmic transport are profound in neurobiology.
23. The relationship between axoplasmic transport and cellular metabolism is an area of active research.
24. Scientists are exploring how to enhance axoplasmic transport for therapeutic purposes.
25. The study revealed that toxins can disrupt normal axoplasmic transport.
26. Researchers are developing drugs that target axoplasmic transport pathways.
27. The impact of aging on axoplasmic transport was a key focus of the research.
28. Axoplasmic transport is essential for the regeneration of damaged neurons.
29. Variations in axoplasmic transport can affect the overall health of the nervous system.
30. The role of axoplasmic transport in disease progression is currently under investigation.
31. Disruption of axoplasmic transport can lead to the accumulation of damaged proteins.
32. The efficiency of axoplasmic transport can influence neuronal signaling.
33. Enhanced axoplasmic transport has been associated with improved cognitive function.
34. The study utilized advanced imaging techniques to observe axoplasmic transport.
35. Understanding the role of axoplasmic transport in synaptic plasticity is crucial for neuroscience.
36. Researchers noted that axoplasmic transport is influenced by both genetic and environmental factors.
37. The link between axoplasmic transport and neuroinflammation is an emerging area of interest.
38. The relationship between axoplasmic transport and axonal degeneration is complex.
39. Scientists are investigating how different diseases affect axoplasmic transport.
40. Pharmacological agents that affect axoplasmic transport could have therapeutic potential.
41. The mechanics of axoplasmic transport are governed by motor proteins.
42. Changes in axoplasmic transport can be an early indicator of neurodegeneration.
43. The study aimed to characterize the components involved in axoplasmic transport.
44. Axoplasmic transport is critical for the distribution of cellular materials.
45. Researchers are looking into the role of axoplasmic transport in nerve injury repair.
46. The dynamics of axoplasmic transport can reveal insights into neuronal function.
47. Disruptions in axoplasmic transport can lead to synaptic dysfunction.
48. The relationship between axoplasmic transport and neurotrophic factors is significant.
49. The efficiency of axoplasmic transport varies among different types of neurons.
50. Understanding the regulation of axoplasmic transport is essential for developing new treatments.
51. The impact of environmental toxins on axoplasmic transport is concerning.
52. Axoplasmic transport is a critical factor in maintaining axonal health.
53. The study demonstrated that axoplasmic transport can be enhanced through certain interventions.
54. The relationship between axoplasmic transport and neurodevelopment is complex.
55. The findings suggest that impaired axoplasmic transport may contribute to cognitive disorders.
56. Scientists are studying the effects of aging on axoplasmic transport mechanisms.
57. The role of axoplasmic transport in neuronal communication cannot be overstated.
58. Disruptions in axoplasmic transport can lead to cellular stress responses.
59. The implications of altered axoplasmic transport in psychiatric disorders are being explored.
60. The interplay between axoplasmic transport and synaptic function is a key area of research.
61. Axoplasmic transport is essential for the proper functioning of the nervous system.
62. The study found that enhancing axoplasmic transport could aid in recovery from injury.
63. The interaction between axoplasmic transport and glial cells is being investigated.
64. Researchers are looking into the role of axoplasmic transport in learning and memory.
65. The efficiency of axoplasmic transport can affect neuronal connectivity.
66. Alterations in axoplasmic transport can impact overall brain function.
67. The study highlighted the importance of axoplasmic transport in maintaining homeostasis.
68. Axoplasmic transport is a target for therapeutic interventions in neurodegenerative diseases.
69. The study emphasized the need to understand axoplasmic transport in the context of disease.
70. The effect of stress on axoplasmic transport is a topic of growing interest.
71. Axoplasmic transport is vital for the transport of organelles within neurons.
72. Disruptions in axoplasmic transport may play a role in synaptic elimination.
73. The role of axoplasmic transport in cell signaling is an important research area.
74. The study aimed to elucidate the mechanisms underlying axoplasmic transport.
75. Changes in axoplasmic transport are linked to various neurological conditions.
76. The efficiency of axoplasmic transport can vary with neuronal activity.
77. Researchers are developing models to study axoplasmic transport in vitro.
78. The importance of axoplasmic transport in neuronal function is widely recognized.
79. The findings suggest that enhancing axoplasmic transport could be beneficial in treatment.
80. Axoplasmic transport is a fundamental process in the life of a neuron.
81. The impact of genetic mutations on axoplasmic transport is being studied.
82. The relationship between axoplasmic transport and axonal regeneration is crucial.
83. The dynamics of axoplasmic transport can inform our understanding of brain diseases.
84. Disruptions in axoplasmic transport can lead to the accumulation of toxic proteins.
85. The study revealed new insights into the regulation of axoplasmic transport.
86. Understanding axoplasmic transport is essential for developing neuroprotective strategies.
87. The role of axoplasmic transport in neuronal signaling is a complex subject.
88. Researchers are exploring how to optimize axoplasmic transport in therapeutic contexts.
89. The study highlighted the potential of targeting axoplasmic transport for drug delivery.
90. The relationship between axoplasmic transport and synaptic plasticity is intricate.
91. Axoplasmic transport is critical for the maintenance of neuronal architecture.
92. The findings suggest a link between axoplasmic transport and neurotrophic signaling.
93. Researchers are investigating the impact of lifestyle factors on axoplasmic transport.
94. The role of axoplasmic transport in cellular communication is essential for understanding biology.
95. Disruptions in axoplasmic transport can lead to impaired neuronal function.
96. The study aimed to characterize the proteins involved in axoplasmic transport.
97. The efficiency of axoplasmic transport can be affected by various cellular conditions.
98. Understanding axoplasmic transport is crucial for advancing neuroscience research.
99. The implications of altered axoplasmic transport in aging are significant.
100. The study emphasized the importance of axoplasmic transport in cellular health and disease.