100 Examples of sentences containing the noun "axoneme"

Definition

Axoneme refers to the structural framework of cilia and flagella in eukaryotic cells, primarily composed of microtubules arranged in a specific pattern (typically a "9+2" arrangement). It plays a crucial role in the movement of these organelles and is essential for various cellular functions.

Synonyms

• Cilia core
• Flagella core
• Microtubule arrangement

Antonyms

• None (as "axoneme" refers to a specific cellular structure without direct opposites)

Examples

1. The axoneme is critical for the motility of sperm cells.
2. Researchers studied how the axoneme contributes to cellular movement.
3. The integrity of the axoneme is vital for the function of cilia.
4. Damage to the axoneme can lead to respiratory issues.
5. Scientists observed the axoneme under a microscope.
6. The axoneme consists of a central pair of microtubules surrounded by nine doublets.
7. Mutations in genes related to the axoneme can cause infertility.
8. The axoneme structure is conserved across many species.
9. The axoneme is essential for the beating motion of flagella.
10. Defects in the axoneme can result in a disease known as primary ciliary dyskinesia.
11. The axoneme provides the mechanical support for cilia during their movement.
12. Various proteins associate with the axoneme to facilitate its function.
13. The assembly of the axoneme occurs in the basal body.
14. Observations of the axoneme have advanced our understanding of cell biology.
15. The axoneme plays a role in signaling pathways within the cell.
16. The structure of the axoneme can be affected by environmental factors.
17. The axoneme is responsible for the whip-like motion in flagella.
18. Disruption of the axoneme can lead to respiratory infections.
19. The axoneme helps in the movement of protozoa in aquatic environments.
20. Genetic studies have identified key proteins that stabilize the axoneme.
21. The axoneme must be properly formed for effective cell motility.
22. Researchers are exploring therapies targeting the axoneme in ciliary disorders.
23. The length of the axoneme can vary significantly among different organisms.
24. The axoneme is involved in the transport of materials within the cell.
25. The axoneme serves as a scaffold for other cellular components.
26. Scientists can visualize the axoneme using advanced imaging techniques.
27. The axoneme can be affected by certain toxins in the environment.
28. The axoneme is an important subject in the study of cell motility.
29. Many cellular functions depend on a healthy axoneme.
30. The axoneme has been a focal point in developmental biology research.
31. The evolution of the axoneme has been traced through various species.
32. The axoneme is crucial for the proper functioning of eukaryotic cells.
33. Disruption of the axoneme assembly can lead to developmental abnormalities.
34. The axoneme facilitates the movement of cells towards stimuli.
35. The study of the axoneme has implications for understanding human diseases.
36. The axoneme is a key feature in the anatomy of spermatozoa.
37. The axoneme interacts with various signaling molecules to regulate movement.
38. Changes in the axoneme can indicate underlying health issues.
39. The axoneme is often compared to a motor that drives cellular movement.
40. Understanding the dynamics of the axoneme can reveal insights into cell behavior.
41. The axoneme is essential for the proper functioning of sensory cells.
42. Investigating the axoneme has opened new avenues in cellular biology.
43. The axoneme can be influenced by genetic and environmental factors.
44. The structure of the axoneme is fundamental to its function.
45. The axoneme must be maintained to ensure the health of the cell.
46. The axoneme is crucial in the context of reproductive biology.
47. The study of the axoneme is integral to understanding flagellated organisms.
48. The axoneme exhibits a remarkable degree of structural complexity.
49. The axoneme plays a role in the movement of mucus in the respiratory tract.
50. Researchers aim to manipulate the axoneme for therapeutic purposes.
51. The axoneme can serve as a model for studying other cellular structures.
52. The organization of the axoneme is critical for its operational efficiency.
53. The axoneme is composed of proteins that work in concert to achieve movement.
54. The health of the axoneme is linked to overall cellular health.
55. The axoneme is a target for drug development in certain diseases.
56. The axoneme is a fascinating subject for molecular biology studies.
57. The axoneme can be seen as the engine of motility in many cells.
58. The axoneme has been extensively studied in the context of evolution.
59. Various techniques are used to visualize the axoneme in live cells.
60. The axoneme has been implicated in various pathologies.
61. The axoneme is essential for the proper orientation of cells.
62. The axoneme is an area of active research in cell biology.
63. The axoneme undergoes changes during different stages of the cell cycle.
64. The axoneme has been found to interact with other cellular structures.
65. The functioning of the axoneme is influenced by external signals.
66. The axoneme is integral to the movement of cilia in the respiratory system.
67. The axoneme has a unique structure that distinguishes it from other cellular components.
68. The axoneme is crucial for the survival of certain microorganisms.
69. The axoneme is a key component in the study of cellular mechanics.
70. The axoneme can be affected by genetic mutations leading to disease.
71. The axoneme is involved in the pathogenesis of several disorders.
72. Understanding the axoneme is important for developing new treatments.
73. The axoneme is often a focus in studies of motile cilia.
74. The axoneme can be affected by various pharmacological agents.
75. The axoneme interacts with the cytoskeleton for cellular stability.
76. The study of the axoneme has implications for regenerative medicine.
77. The axoneme is involved in the transport of proteins within the cell.
78. The axoneme represents a significant area of inquiry in biology.
79. The axoneme is crucial for the proper functioning of the immune system.
80. The axoneme has been observed to change in response to environmental stress.
81. The axoneme is essential for the proper development of multicellular organisms.
82. The axoneme is a remarkable example of nature's engineering.
83. The axoneme can provide insights into the evolution of cellular structures.
84. The axoneme is involved in the coordination of cellular movements.
85. The axoneme can be a site for therapeutic intervention in disease.
86. The axoneme is vital for the locomotion of various microorganisms.
87. The axoneme has been studied for its role in developmental processes.
88. The axoneme is integral in the functioning of the reproductive system.
89. The axoneme structure can vary significantly between different species.
90. The axoneme is essential for the proper functioning of sensory neurons.
91. The axoneme is often a focal point in studies of ciliary function.
92. The axoneme is involved in the regulation of cell signaling pathways.
93. The axoneme must be properly assembled for effective ciliary function.
94. The axoneme plays a role in the mechanical properties of the cell.
95. The axoneme is a subject of interest in the field of biophysics.
96. The axoneme is critical for the motility of certain algae.
97. The axoneme can serve as a diagnostic tool in certain diseases.
98. The axoneme is essential for the coordination of movement in multicellular organisms.
99. The axoneme is influenced by various signaling cascades within the cell.
100. The axoneme is a vital component in the study of cellular architecture.