100 Examples of sentences containing the common noun "plasmodium chabaudi"

Definition

Plasmodium chabaudi is a species of parasitic protozoan that belongs to the genus Plasmodium, known for causing malaria in rodents. It is often used in scientific research to study the biology of malaria and the effects of various treatments.

Synonyms

• None (as it is a specific scientific term)

Antonyms

• None (as it is a specific scientific term)

Examples

1. The researchers Plasmodium chabaudi in laboratory mice to understand its life cycle.
2. Scientists Plasmodium chabaudi to investigate potential vaccines.
3. In experiments, they Plasmodium chabaudi to test drug efficacy.
4. The team Plasmodium chabaudi in a controlled environment to monitor its behavior.
5. She Plasmodium chabaudi to observe its interactions with host immune systems.
6. They Plasmodium chabaudi for insights into malaria transmission.
7. The biologist Plasmodium chabaudi to study genetic variations.
8. Researchers Plasmodium chabaudi to identify potential treatment targets.
9. The lab technician Plasmodium chabaudi under a microscope.
10. The team Plasmodium chabaudi to evaluate the effects of new antimalarial compounds.
11. In the study, they Plasmodium chabaudi to establish a baseline for comparison.
12. The scientist Plasmodium chabaudi to determine its resistance to medications.
13. They Plasmodium chabaudi to assess its lifecycle stages.
14. The experimenters Plasmodium chabaudi to reveal its reproductive strategies.
15. She Plasmodium chabaudi in the lab to monitor its growth rates.
16. The research group Plasmodium chabaudi to develop a better understanding of malaria.
17. They Plasmodium chabaudi to explore its effects on the host's blood cells.
18. The students Plasmodium chabaudi to learn more about protozoan parasites.
19. He Plasmodium chabaudi to see its impact on rodent populations.
20. The team Plasmodium chabaudi for their thesis on malaria research.
21. She Plasmodium chabaudi to analyze its genetic makeup.
22. They Plasmodium chabaudi to investigate the immune response.
23. The researchers Plasmodium chabaudi to study transmission dynamics.
24. He Plasmodium chabaudi to examine its pathology in infected hosts.
25. The scientists Plasmodium chabaudi to explore drug resistance mechanisms.
26. They Plasmodium chabaudi to compare it with other Plasmodium species.
27. She Plasmodium chabaudi to document its developmental stages.
28. The group Plasmodium chabaudi during their fieldwork in the lab.
29. They Plasmodium chabaudi to analyze its effect on the host's immune response.
30. The team Plasmodium chabaudi to understand its transmission in wild rodents.
31. He Plasmodium chabaudi to correlate its effects with environmental factors.
32. The researchers Plasmodium chabaudi in a series of controlled experiments.
33. She Plasmodium chabaudi to investigate its behavior in different conditions.
34. They Plasmodium chabaudi to refine their research methodologies.
35. The scientist Plasmodium chabaudi to improve malaria treatment strategies.
36. The team Plasmodium chabaudi to enhance their understanding of parasite-host interactions.
37. He Plasmodium chabaudi to assess its virulence factors.
38. The researchers Plasmodium chabaudi to observe its lifecycle in real-time.
39. She Plasmodium chabaudi to map its geographical distribution.
40. They Plasmodium chabaudi to explore its role in malaria outbreaks.
41. The team Plasmodium chabaudi to simulate infection scenarios.
42. He Plasmodium chabaudi to identify genetic markers for resistance.
43. The researchers Plasmodium chabaudi to conduct comparative studies with other species.
44. She Plasmodium chabaudi to investigate the effects of climate change on its lifecycle.
45. They Plasmodium chabaudi to analyze differences in virulence.
46. The scientist Plasmodium chabaudi to explore potential therapeutic interventions.
47. The group Plasmodium chabaudi to understand how it evades the host immune system.
48. He Plasmodium chabaudi to evaluate different host responses.
49. The team Plasmodium chabaudi to check for cross-species transmission.
50. She Plasmodium chabaudi to study its adaptation mechanisms.
51. They Plasmodium chabaudi to develop new hypotheses for future research.
52. The researchers Plasmodium chabaudi to analyze its metabolic pathways.
53. He Plasmodium chabaudi for insights into its evolutionary history.
54. The team Plasmodium chabaudi to understand its role in malaria epidemiology.
55. She Plasmodium chabaudi to test various treatment protocols.
56. They Plasmodium chabaudi to correlate environmental changes with infection rates.
57. The scientist Plasmodium chabaudi to identify potential vaccine candidates.
58. The group Plasmodium chabaudi to explore its interaction with insect vectors.
59. He Plasmodium chabaudi to determine its impact on rodent health.
60. The researchers Plasmodium chabaudi to study host-pathogen dynamics.
61. She Plasmodium chabaudi to understand its contribution to malaria burden.
62. They Plasmodium chabaudi to analyze its lifecycle in laboratory settings.
63. The team Plasmodium chabaudi to investigate its reproductive strategies.
64. He Plasmodium chabaudi to monitor its response to different environmental conditions.
65. The scientist Plasmodium chabaudi to gain insights into its virulence.
66. The researchers Plasmodium chabaudi to assess the effectiveness of preventive measures.
67. She Plasmodium chabaudi to document its interactions with the host.
68. They Plasmodium chabaudi to explore its potential as a model organism.
69. The group Plasmodium chabaudi to study its effects on the host's physiology.
70. He Plasmodium chabaudi to investigate its pathogenesis in detail.
71. The researchers Plasmodium chabaudi to analyze its resistance patterns.
72. She Plasmodium chabaudi to evaluate its impact on rodent populations.
73. They Plasmodium chabaudi to understand its ecological implications.
74. The team Plasmodium chabaudi to explore its role in disease transmission.
75. He Plasmodium chabaudi to assess its impact on host immune responses.
76. The scientists Plasmodium chabaudi to investigate its genetic diversity.
77. She Plasmodium chabaudi to monitor its lifecycle in various environments.
78. They Plasmodium chabaudi to explore its adaptations to different hosts.
79. The research group Plasmodium chabaudi to identify factors influencing transmission.
80. He Plasmodium chabaudi to evaluate its role in public health.
81. The team Plasmodium chabaudi to study its interactions with other pathogens.
82. She Plasmodium chabaudi to examine its life cycle in detail.
83. They Plasmodium chabaudi to assess various treatment protocols.
84. The researchers Plasmodium chabaudi to explore potential genetic modifications.
85. He Plasmodium chabaudi to understand its ecological role.
86. The scientists Plasmodium chabaudi to investigate host-pathogen interactions.
87. She Plasmodium chabaudi to document its lifecycle stages.
88. They Plasmodium chabaudi to study its adaptation to different environments.
89. The group Plasmodium chabaudi to analyze its transmission pathways.
90. He Plasmodium chabaudi to explore its impact on malaria epidemiology.
91. The researchers Plasmodium chabaudi to evaluate its resistance mechanisms.
92. She Plasmodium chabaudi to assess its interaction with other species.
93. They Plasmodium chabaudi to conduct studies on its pathogenicity.
94. The team Plasmodium chabaudi to investigate its effects on host health.
95. He Plasmodium chabaudi to analyze its lifecycle under different conditions.
96. The scientists Plasmodium chabaudi to understand its systemic effects.
97. She Plasmodium chabaudi to explore its evolutionary adaptations.
98. They Plasmodium chabaudi to document its impact on rodent health.
99. The research team Plasmodium chabaudi to explore potential therapeutic approaches.
100. He Plasmodium chabaudi to assess its role in malaria transmission.