100 Examples of sentences containing the common noun "rhabdoviruses"

Definition

Rhabdoviruses are a family of single-stranded RNA viruses known for their rod-shaped appearance. They primarily infect animals and plants, and some species within this family are responsible for serious diseases, including rabies in mammals.

Synonyms

• RNA viruses
• Rod-shaped viruses

Antonyms

• DNA viruses
• Non-viral pathogens

Examples

1. The study of Rhabdoviruses has revealed their complex life cycles.
2. Scientists are investigating how Rhabdoviruses can affect livestock health.
3. Researchers have found that Rhabdoviruses can be transmitted through bites.
4. Rhabdoviruses often cause neurological symptoms in infected animals.
5. The vaccine for rabies targets Rhabdoviruses to prevent outbreaks.
6. Understanding how Rhabdoviruses mutate is crucial for developing effective treatments.
7. Many Rhabdoviruses are capable of infecting multiple host species.
8. The impact of Rhabdoviruses on ecosystems is still being studied.
9. Rhabdoviruses can be detected through specific laboratory tests.
10. Public health officials monitor Rhabdoviruses to prevent zoonotic diseases.
11. Some Rhabdoviruses are used in gene therapy research.
12. The transmission routes of Rhabdoviruses are well documented.
13. Rhabdoviruses can remain dormant in host cells for extended periods.
14. Certain Rhabdoviruses are being explored for their potential in biocontrol.
15. The symptoms of diseases caused by Rhabdoviruses can vary widely.
16. Rhabdoviruses are classified under the order Mononegavirales.
17. The history of Rhabdoviruses research dates back over a century.
18. Rhabdoviruses pose a significant threat to wildlife populations.
19. Some strains of Rhabdoviruses exhibit high virulence.
20. The mechanism of action for Rhabdoviruses involves hijacking host cellular machinery.
21. Rhabdoviruses are often studied in the context of vaccine development.
22. The role of Rhabdoviruses in animal health cannot be understated.
23. Rhabdoviruses can be isolated from various environmental samples.
24. The spread of Rhabdoviruses in urban areas raises public health concerns.
25. Understanding the ecology of Rhabdoviruses is crucial for disease management.
26. Rhabdoviruses are sometimes transmitted through contaminated water sources.
27. Certain Rhabdoviruses have been linked to behavioral changes in infected hosts.
28. The genetic diversity of Rhabdoviruses is an active area of research.
29. Rhabdoviruses can be lethal to their host organisms.
30. New methods for detecting Rhabdoviruses are being developed regularly.
31. Rhabdoviruses can cause significant economic loss in agriculture.
32. The research on Rhabdoviruses has led to breakthroughs in virology.
33. An outbreak of Rhabdoviruses can spark public health alerts.
34. The study of Rhabdoviruses contributes to our understanding of viral evolution.
35. Rhabdoviruses can infect a wide range of mammals, including humans.
36. The transmission dynamics of Rhabdoviruses are complex and multifactorial.
37. Vaccination against Rhabdoviruses is essential for high-risk populations.
38. Rhabdoviruses can be manipulated for use in molecular biology research.
39. The genome of Rhabdoviruses is typically around 11,000 nucleotides long.
40. Rhabdoviruses can have severe impacts on animal populations.
41. The role of wildlife in the transmission of Rhabdoviruses is being studied.
42. Rhabdoviruses can cause chronic infections in some species.
43. The emergence of new Rhabdoviruses poses challenges for public health.
44. Rhabdoviruses are often resistant to environmental degradation.
45. The characteristics of Rhabdoviruses can vary between species.
46. Researchers are developing antiviral drugs specifically targeting Rhabdoviruses.
47. Rhabdoviruses can be transmitted through aerosols in certain conditions.
48. Understanding the interaction between Rhabdoviruses and their hosts is vital.
49. The classification of Rhabdoviruses is based on their genetic material.
50. Rhabdoviruses can cause extensive tissue damage in infected animals.
51. The transmission of Rhabdoviruses often requires close contact between hosts.
52. Many Rhabdoviruses are studied for their potential as bioweapons.
53. The lifecycle of Rhabdoviruses includes both intracellular and extracellular phases.
54. Rhabdoviruses are known for their ability to evade immune responses.
55. The impact of Rhabdoviruses on public health is significant.
56. Rhabdoviruses can be a major concern for veterinarians.
57. The ecological role of Rhabdoviruses is often underestimated.
58. Rhabdoviruses are sometimes used as vectors in gene delivery systems.
59. The persistence of Rhabdoviruses in the environment can complicate control efforts.
60. Rhabdoviruses have been discovered in a variety of habitats.
61. The potential for zoonotic transmission of Rhabdoviruses is a public health issue.
62. Rhabdoviruses can be responsible for mass mortality events in wildlife.
63. Understanding how Rhabdoviruses interact with host immune systems is crucial.
64. Rhabdoviruses can be detected using molecular techniques.
65. The epidemiology of Rhabdoviruses is a growing field of study.
66. Rhabdoviruses can cause neurological disorders in infected species.
67. The study of Rhabdoviruses has implications for evolutionary biology.
68. Researchers are focused on understanding the transmission routes of Rhabdoviruses.
69. Rhabdoviruses can be responsible for significant agricultural losses.
70. The biology of Rhabdoviruses is complex and multifaceted.
71. The potential for Rhabdoviruses to jump species is a concern for ecologists.
72. Rhabdoviruses are often associated with specific host species.
73. The spread of Rhabdoviruses can lead to widespread panic in communities.
74. Rhabdoviruses can be studied in laboratory settings to understand their behavior.
75. The symptoms of Rhabdoviruses infection can mimic other diseases.
76. Rhabdoviruses are a significant focus for veterinary virologists.
77. The public awareness of Rhabdoviruses is crucial for prevention.
78. The role of bats in the ecology of Rhabdoviruses is particularly interesting.
79. Rhabdoviruses can be transmitted through organ transplants in rare cases.
80. The potential for Rhabdoviruses to cause pandemics is a topic of concern.
81. Rhabdoviruses are often studied in the context of emerging infectious diseases.
82. The genetics of Rhabdoviruses are being mapped for better understanding.
83. The impact of climate change on the spread of Rhabdoviruses is under investigation.
84. Rhabdoviruses can lead to significant morbidity in affected populations.
85. The role of vectors in the transmission of Rhabdoviruses is an important area of research.
86. Rhabdoviruses can affect both domestic and wild animal populations.
87. The control measures for Rhabdoviruses often include vaccination strategies.
88. Rhabdoviruses continue to evolve, posing new challenges for researchers.
89. The study of Rhabdoviruses contributes to our understanding of viral pathogenesis.
90. Some Rhabdoviruses have been linked to neurological diseases in humans.
91. Rhabdoviruses can be transmitted through saliva during animal bites.
92. The emergence of new Rhabdoviruses is monitored by health organizations.
93. Rhabdoviruses have a significant impact on public health policy.
94. The development of antiviral therapies targeting Rhabdoviruses is ongoing.
95. Rhabdoviruses can serve as models for studying viral diseases.
96. The interactions between Rhabdoviruses and their hosts are complex.
97. Rhabdoviruses can be a significant concern in wildlife conservation.
98. The study of Rhabdoviruses provides insights into viral evolution.
99. Rhabdoviruses are often investigated for their potential as biological control agents.
100. The health implications of Rhabdoviruses extend beyond individual infections.