100 Examples of sentences containing the noun "akinetoplast"

Definition

Akinetoplast refers to a specialized structure found within certain types of protozoan cells, particularly in the family Kinetoplastida. It is characterized by a network of circular DNA molecules (kDNA) located in a single large mitochondrion, which is crucial for the cellular functions and replication of these organisms.

Synonyms

• Kinetoplast
• Mitochondrial DNA

Antonyms

• N/A (as "Akinetoplast" is a specific scientific term and does not have direct opposites)

Examples

1. The presence of Akinetoplast is crucial for the survival of certain parasites.
2. Researchers studied how the Akinetoplast affects the metabolism of the organism.
3. In the lab, we observed the Akinetoplast under a microscope for further analysis.
4. The Akinetoplast plays a vital role in the life cycle of trypanosomes.
5. Scientists are trying to understand the genetic implications of the Akinetoplast structure.
6. The unique features of the Akinetoplast contribute to the parasite's resistance to drugs.
7. A malfunctioning Akinetoplast can lead to severe consequences for the cell.
8. The study focused on the evolutionary significance of the Akinetoplast.
9. The Akinetoplast is often used as a marker for identifying certain protozoan species.
10. Observations showed that the Akinetoplast undergoes changes during the cell division process.
11. The team was excited to discover a new species with a distinct Akinetoplast configuration.
12. Researchers hypothesized that the Akinetoplast is responsible for unique metabolic pathways.
13. The Akinetoplast can be visualized using specific staining techniques in cellular biology.
14. Understanding the Akinetoplast is key to developing treatments for diseases caused by these parasites.
15. The presence of an Akinetoplast indicates a unique evolutionary lineage among eukaryotes.
16. Genetic sequencing of the Akinetoplast provided insights into the organism's adaptation strategies.
17. The Akinetoplast structure is essential in studying mitochondrial functionality.
18. In some species, the Akinetoplast has been found to contain non-coding RNA.
19. The researchers noted the Akinetoplast’s role in energy production in the cell.
20. Advances in microscopy have allowed scientists to study the Akinetoplast in greater detail.
21. The Akinetoplast was identified as a potential target for new anti-parasitic drugs.
22. Observing the Akinetoplast can help in diagnosing certain diseases.
23. The Akinetoplast is a fascinating subject of research in evolutionary biology.
24. The Akinetoplast has a unique genetic organization not found in other organelles.
25. The study aimed to explore the dynamics of the Akinetoplast during cell differentiation.
26. A healthy Akinetoplast is critical for the organism's overall health.
27. The Akinetoplast often exhibits a distinct morphology under electron microscopy.
28. Changes in the Akinetoplast can indicate stress responses in the organism.
29. The researchers were puzzled by the unusual structure of the Akinetoplast in this sample.
30. The Akinetoplast is involved in the synthesis of proteins essential for cellular function.
31. Understanding the role of the Akinetoplast can pave the way for novel therapeutic strategies.
32. The Akinetoplast is integral to the life stages of many parasitic protozoans.
33. Observations of the Akinetoplast support theories on mitochondrial evolution.
34. The genetic material within the Akinetoplast is crucial for the organism’s reproduction.
35. The Akinetoplast has been a focal point in studies of mitochondrial inheritance.
36. The researchers used fluorescent markers to highlight the Akinetoplast.
37. The structure of the Akinetoplast varies significantly among different species.
38. The Akinetoplast is a key feature that differentiates certain protozoan groups.
39. Understanding the Akinetoplast can help in the development of diagnostic tools.
40. The integrity of the Akinetoplast is vital for maintaining cellular homeostasis.
41. The study revealed that mutations in the Akinetoplast can lead to pathogenicity.
42. The unique DNA arrangement in the Akinetoplast raises questions about gene expression.
43. The Akinetoplast has been a subject of controversy in evolutionary discussions.
44. Techniques for isolating the Akinetoplast have improved significantly over the years.
45. The Akinetoplast is often used as a model for studying mitochondrial diseases.
46. The research team analyzed the Akinetoplast to better understand its function.
47. The Akinetoplast is a fascinating area of study for microbiologists.
48. The team discovered that the Akinetoplast adapts to environmental changes.
49. The Akinetoplast offers insights into the evolutionary history of mitochondria.
50. The researchers were intrigued by the complexity of the Akinetoplast structure.
51. The presence of an Akinetoplast can help identify certain strains of parasites.
52. The Akinetoplast contains genes that are essential for mitochondrial replication.
53. The study of the Akinetoplast is crucial for understanding infectious diseases.
54. The researchers were able to visualize the Akinetoplast using advanced imaging techniques.
55. The Akinetoplast plays a vital role in the energy metabolism of the cell.
56. The effects of temperature on the Akinetoplast were investigated during the experiment.
57. The Akinetoplast is thought to have evolved from ancestral prokaryotic organisms.
58. Anomalies in the Akinetoplast can lead to dysfunction in cellular processes.
59. The research on the Akinetoplast could lead to breakthroughs in parasitology.
60. The Akinetoplast serves as a key marker in evolutionary studies.
61. The organization of the Akinetoplast is critical for its function.
62. The unique properties of the Akinetoplast have intrigued scientists for decades.
63. The Akinetoplast is essential for the maintenance of mitochondrial DNA.
64. The role of the Akinetoplast in cellular communication is an emerging field of study.
65. The researchers hypothesized that the Akinetoplast could influence cell signaling pathways.
66. Studies have shown that the Akinetoplast is involved in the adaptive response of the organism.
67. The Akinetoplast has been recognized as a significant factor in drug resistance.
68. The complexity of the Akinetoplast structure is still being unraveled by scientists.
69. The implications of the Akinetoplast research extend beyond microbiology.
70. The Akinetoplast can be targeted by specific antibiotics developed for treatment.
71. The Akinetoplast was a key focus of the research project.
72. Changes in the Akinetoplast can serve as indicators of cellular health.
73. The discovery of a new Akinetoplast variant has excited the scientific community.
74. The ecology of the organism is closely linked to the functionality of the Akinetoplast.
75. The Akinetoplast is known for its unique replication mechanism.
76. The researchers were keen to explore the role of the Akinetoplast in energy production.
77. The Akinetoplast is an important component of the organism’s adaptation to its environment.
78. The study of mutations in the Akinetoplast has provided valuable insights into evolutionary biology.
79. The Akinetoplast is often associated with specific disease states in humans.
80. Research on the Akinetoplast has implications for understanding mitochondrial disorders.
81. The researchers developed a new method to extract the Akinetoplast for analysis.
82. The Akinetoplast has been implicated in various metabolic pathways.
83. The structural integrity of the Akinetoplast is crucial for cellular function.
84. The Akinetoplast has been the subject of numerous scientific publications.
85. The implications of understanding the Akinetoplast are vast in the field of genetics.
86. The Akinetoplast is a fascinating example of cellular specialization.
87. The Akinetoplast serves as a model for studying organelle evolution.
88. The discovery of the Akinetoplast structure has led to new avenues of research.
89. The Akinetoplast is essential for understanding the biology of certain pathogenic organisms.
90. The researchers examined the Akinetoplast to determine its role in cell signaling.
91. The Akinetoplast is a critical component in the life cycle of many parasitic species.
92. The investigation into the Akinetoplast has provided new insights into cellular evolution.
93. The Akinetoplast is often studied in the context of host-parasite interactions.
94. The unique features of the Akinetoplast make it a key target for research.
95. The Akinetoplast is involved in the regulation of mitochondrial functions.
96. Advances in technology have allowed for better visualization of the Akinetoplast.
97. The Akinetoplast is a crucial element in understanding the cell's energy dynamics.
98. The Akinetoplast has been found to play a role in the organism’s immune response.
99. The examination of the Akinetoplast has shed light on its evolutionary significance.
100. Future research on the Akinetoplast could lead to innovative therapeutic approaches.