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100 Examples of sentences containing the common noun "mutation"

Definition

Mutation refers to a change or alteration in the form or structure of a gene, chromosome, or organism. It can also refer to any significant change in a process or system, often leading to new characteristics or outcomes. In a broader context, "mutation" can denote any modification or transformation that occurs in various fields such as biology, genetics, linguistics, or even in cultural contexts.

Synonyms

  • Change
  • Alteration
  • Modification
  • Transformation
  • Variation
  • Shift
  • Divergence
  • Transition
  • Metamorphosis
  • Adaptation

Antonyms

  • Stability
  • Consistency
  • Sameness
  • Uniformity
  • Constancy
  • Continuity
  • Preservation
  • Maintenance

Examples

  1. Scientists have observed a mutation in the virus that has led to increased transmissibility.
  2. The mutation in the plant's DNA allowed it to survive in harsher climates.
  3. A random mutation can sometimes lead to beneficial traits in a species.
  4. The study focused on the effects of a particular mutation on cell growth.
  5. Geneticists analyze the mutation patterns to understand hereditary diseases.
  6. The rapid mutation of bacteria presents challenges in developing antibiotics.
  7. A single mutation can drastically change an organism's phenotype.
  8. With every generation, there is a chance for a mutation to occur.
  9. The mutation rate in some species is surprisingly high.
  10. Researchers are tracking the mutation of the pathogen in real time.
  11. The mutation responsible for the new trait was identified quickly.
  12. Understanding this mutation could lead to breakthroughs in cancer treatment.
  13. The mutation created a variation that was previously unseen in the population.
  14. Certain environmental factors can trigger a mutation in DNA.
  15. The mutation led to a new strain of the plant that was more resilient.
  16. A beneficial mutation can spread rapidly through a population.
  17. The implications of this mutation are still being studied.
  18. The mutation process can be influenced by radiation exposure.
  19. The rare mutation caught the attention of genetic researchers worldwide.
  20. The phenomenon of mutation is crucial for the theory of evolution.
  21. Most mutations are neutral, having little impact on the organism.
  22. A harmful mutation can lead to genetic disorders.
  23. The mutation was identified during routine genetic screening.
  24. Evolution is driven by the accumulation of beneficial mutations.
  25. The mutation of the gene was linked to the disease.
  26. In some cases, a mutation can confer antibiotic resistance.
  27. The lab focused on understanding how mutation rates vary among species.
  28. The unexpected mutation surprised the research team.
  29. This particular mutation was first documented in the early 2000s.
  30. The mutation affected the organism's survival in its habitat.
  31. The researchers were fascinated by the rapid rate of mutation.
  32. Some mutations can be beneficial in changing environments.
  33. The study revealed a mutation pattern that was previously unknown.
  34. The mutation caused significant changes in the organism's behavior.
  35. Many mutations occur spontaneously during DNA replication.
  36. The newly discovered mutation has implications for genetic therapies.
  37. The mutation was classified as a point mutation due to its nature.
  38. A genetic mutation can be inherited from one or both parents.
  39. The focus of the research was on the mutation in the Y chromosome.
  40. Mutation rates can vary based on the organism and environmental factors.
  41. The mutation led to the development of a new species over time.
  42. Understanding the mutation allows scientists to predict future changes.
  43. The consequences of the mutation were evident in the population.
  44. A single mutation can lead to a cascade of changes in an organism.
  45. The potential for mutation is what drives genetic diversity.
  46. The team was studying the effects of a specific mutation on protein function.
  47. The recent mutation in the virus necessitated a change in vaccine strategy.
  48. The mutation was traced back to a common ancestor in the species.
  49. Observing the mutation in real-time provided valuable insights.
  50. The presence of a mutation may not always be detrimental to survival.
  51. The researchers were excited to document a rare mutation.
  52. The mutation had profound implications for the field of genetics.
  53. This particular mutation is known to increase longevity in some organisms.
  54. The mutation created a new variant that was resistant to treatment.
  55. Genetic mutation is a natural process that occurs over time.
  56. The mutation in the gene was linked to the development of the trait.
  57. Each mutation has the potential to impact evolutionary pathways.
  58. The study of mutation is essential for understanding adaptation.
  59. A mutation can sometimes be advantageous in a changing environment.
  60. The mutation was identified as a key factor in the research.
  61. Certain mutations are considered advantageous for survival.
  62. The mutation process can be accelerated by environmental stressors.
  63. The discovery of the mutation shifted the paradigm in genetic research.
  64. The mutation was confirmed through extensive genetic testing.
  65. Researchers are examining how this mutation affects gene expression.
  66. The mutation resulted in dramatic changes in morphology.
  67. This particular mutation is being studied for its role in cancer.
  68. The implications of a single mutation can be far-reaching.
  69. A mutation may provide a survival advantage in certain conditions.
  70. Understanding the mechanisms of mutation is vital for future therapies.
  71. The mutation rate can be influenced by various factors, including UV radiation.
  72. The genetic mutation was a focal point of the conference.
  73. Researchers are mapping the mutation to understand its impact better.
  74. A recent mutation has raised concerns among health officials.
  75. The effects of the mutation on the ecosystem are still being studied.
  76. The mutation was found to be a key driver of the observed changes.
  77. This mutation led to a breakthrough in agricultural practices.
  78. Each mutation presents an opportunity for scientific discovery.
  79. The mutation may have originated due to environmental pressures.
  80. The mutation was documented in a leading scientific journal.
  81. Following the mutation, the species exhibited different behaviors.
  82. The significance of the mutation cannot be overstated.
  83. The research team is investigating the mutation and its effects.
  84. A clear understanding of mutation can enhance our knowledge of evolution.
  85. The consequences of a genetic mutation can vary widely.
  86. A particular mutation was responsible for the observed resistance.
  87. The mutation provided an interesting case study for researchers.
  88. The frequency of mutation can vary between populations.
  89. The mutation has been linked to changes in the organism's habitat.
  90. The study of mutation is essential for advancements in medicine.
  91. The mutation was a result of prolonged exposure to toxins.
  92. Each mutation has the potential to change the course of evolution.
  93. The mutation can be beneficial, neutral, or harmful.
  94. The identification of the mutation was a pivotal moment in the study.
  95. The mutation might explain the differences observed in the species.
  96. Understanding mutation processes can help in developing new treatments.
  97. The research highlighted the role of mutation in genetic diversity.
  98. A specific mutation was linked to the organism's adaptability.
  99. The mutation rates observed in the laboratory were staggering.
  100. The phenomenon of mutation continues to intrigue scientists.
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