100 Examples of sentences containing the noun "cnidocyte"

Definition

Cnidocyte: A specialized cell found in certain aquatic invertebrates, particularly cnidarians (such as jellyfish, corals, and sea anemones), that is equipped with a stinging structure called a nematocyst. Cnidocytes are primarily used for capturing prey and for defense against predators.

Synonyms

• Stinging cell
• Nematocyte
• Cnidoblast

Antonyms

• None (as cnidocytes are unique to specific organisms and do not have direct opposites)

Examples

1. The cnidocyte is crucial for the jellyfish’s ability to capture prey.
2. When threatened, the sea anemone can rapidly deploy its cnidocyte to deter predators.
3. Researchers study how the cnidocyte operates to better understand marine biology.
4. The cnidocyte contains a coiled structure that can inject toxins into potential threats.
5. In some species, the density of cnidocyte can vary significantly based on environmental conditions.
6. The cnidocyte is a fascinating adaptation that has evolved over millions of years.
7. Observing the behavior of the cnidocyte can provide insights into the feeding habits of jellyfish.
8. The effectiveness of a cnidocyte often depends on its location on the organism's body.
9. Some marine animals have developed resistance to the toxins delivered by the cnidocyte.
10. The cnidocyte plays a significant role in the ecological balance of coral reefs.
11. The mechanism of the cnidocyte firing is a complex process that scientists are still studying.
12. Each cnidocyte can fire only once before it needs to regenerate.
13. The cnidocyte is not only for capturing prey but also for competition among marine species.
14. An increase in pollutants can affect the function of the cnidocyte in marine life.
15. The cnidocyte is often used in educational demonstrations to teach students about marine biology.
16. Different species of cnidarians exhibit variations in their cnidocyte structure and function.
17. The stinging sensation from a jellyfish's cnidocyte is caused by the venom injected into the skin.
18. Understanding the cnidocyte can help in developing new medical treatments from marine toxins.
19. The cnidocyte is a critical feature that distinguishes cnidarians from other invertebrates.
20. During a dive, the diver accidentally brushed against a cnidocyte and felt the sting.
21. The cnidocyte can be triggered by physical contact or chemical signals.
22. Some researchers are working to replicate the cnidocyte mechanism for use in biotechnology.
23. The cnidocyte of the box jellyfish is particularly potent and can be deadly to humans.
24. The efficiency of a cnidocyte can be influenced by the nutrient availability in the water.
25. In the laboratory, scientists can observe the firing of a cnidocyte under a microscope.
26. The cnidocyte is vital for the survival of many marine organisms in their habitat.
27. Observing how a cnidocyte operates can reveal much about the organism's lifestyle.
28. The cnidocyte is a key element in the defensive strategy of many cnidarians.
29. Each cnidocyte contains a unique type of nematocyst tailored to its environment.
30. The cnidocyte can also play a role in territorial disputes among marine species.
31. The cnidocyte is triggered by specific stimuli, allowing for precise predation.
32. Using a microscope, researchers were able to analyze the structure of the cnidocyte.
33. The cnidocyte is an evolutionary innovation that enhances the survival of its host.
34. A well-functioning cnidocyte can mean the difference between life and death for the cnidarian.
35. Some species have developed ways to camouflage their cnidocyte to avoid detection.
36. The cnidocyte can be a source of inspiration for new materials in science and technology.
37. The cnidocyte operates on a principle of rapid movement to deliver its sting effectively.
38. The presence of cnidocyte in marine ecosystems indicates a healthy environment.
39. The cnidocyte is often the first line of defense for many marine organisms.
40. The interaction between cnidocyte and prey is a subject of extensive research in marine biology.
41. The cnidocyte serves as a model for understanding cell specialization in other organisms.
42. The cnidocyte has a unique mechanism that allows for the rapid release of its harpoon-like structure.
43. The study of the cnidocyte has implications for understanding evolutionary biology.
44. The cnidocyte can be found in various forms across different cnidarian species.
45. The composition of the venom in a cnidocyte can vary significantly between species.
46. The cnidocyte provides not only food acquisition but also protection from larger predators.
47. A healthy population of cnidarians is often a sign of thriving cnidocyte activity.
48. The cnidocyte is a remarkable example of natural engineering.
49. The effectiveness of the cnidocyte can be influenced by the surrounding water temperature.
50. Many marine creatures have evolved adaptations to avoid the sting of a cnidocyte.
51. The cnidocyte can release toxins that affect both prey and potential threats.
52. Understanding how the cnidocyte works can lead to advancements in pain management.
53. The cnidocyte has intrigued scientists for decades due to its unique properties.
54. The cnidocyte plays a role in the food web by impacting prey availability.
55. The cnidocyte is essential for the reproductive strategies of some cnidarians.
56. The cnidocyte is a critical component in the hunting strategy of sea anemones.
57. The structure of the cnidocyte can be complex, with multiple types of nematocysts.
58. The function of the cnidocyte can vary based on the organism's life stage.
59. The cnidocyte is not just a weapon; it’s also a tool for capturing food.
60. A malfunctioning cnidocyte can hinder a cnidarian's ability to survive in the wild.
61. The cnidocyte is often studied in relation to ecological interactions in marine environments.
62. The cnidocyte serves as a defense mechanism for young marine organisms.
63. When a predator comes too close, the cnidocyte can launch a counterattack.
64. The cnidocyte is a fundamental aspect of the life cycle of many marine species.
65. The presence of cnidocyte is a defining characteristic of the phylum Cnidaria.
66. The cnidocyte can be an effective deterrent against larger marine threats.
67. The study of the cnidocyte can provide insights into animal behavior.
68. The cnidocyte has a unique ability to regenerate after being used.
69. Understanding the cnidocyte can help with conservation efforts for endangered species.
70. The cnidocyte can also be affected by environmental changes, such as ocean acidification.
71. The cnidocyte is crucial for the survival of many coral species.
72. The efficiency of a cnidocyte can determine the success of a predatory encounter.
73. A high density of cnidocyte can indicate a thriving marine ecosystem.
74. The cnidocyte can also play a role in symbiotic relationships with other organisms.
75. The cnidocyte is often highlighted in discussions about marine venom research.
76. The cnidocyte can vary in size and shape depending on its specific function.
77. The cnidocyte is an example of how evolution shapes organism functionality.
78. The cnidocyte provides vital information about the health of marine life.
79. The cnidocyte can create a dramatic feeding spectacle in the ocean.
80. The cnidocyte serves as a reminder of the complexity of marine ecosystems.
81. The study of the cnidocyte can lead to breakthroughs in biomimicry.
82. The cnidocyte remains an area of active research due to its unique properties.
83. The cnidocyte plays a key role in maintaining the balance of marine food webs.
84. The cnidocyte can influence the behavior of both prey and predators in the ocean.
85. The cnidocyte is a fascinating area of study for marine biologists.
86. The deployment of a cnidocyte can be both a defensive and offensive mechanism.
87. The cnidocyte is integral to understanding the dynamic nature of marine life.
88. The structure of the cnidocyte has inspired innovations in various scientific fields.
89. The cnidocyte can serve multiple functions depending on the species of cnidarian.
90. The cnidocyte is a remarkable example of specialization in the animal kingdom.
91. The presence of cnidocyte can indicate a healthy coral reef ecosystem.
92. The cnidocyte provides a fascinating glimpse into evolutionary adaptations.
93. The cnidocyte can react to environmental stimuli within milliseconds.
94. The cnidocyte has evolved to become a highly effective predatory tool.
95. The cnidocyte is often highlighted in documentaries about marine life.
96. The cnidocyte is essential for the survival of many species in the ocean.
97. The structure of a cnidocyte can reveal much about its evolutionary history.
98. The cnidocyte can affect the population dynamics of marine organisms.
99. The cnidocyte remains a focal point in the study of marine toxins.
100. The cnidocyte is a testament to the intricate relationships within marine ecosystems.