100 Examples of sentences containing the common noun "plasmid"

Definition

A plasmid is a small, circular piece of DNA that is distinct from the chromosomal DNA and can replicate independently within a cell. Plasmids are commonly found in bacteria and often carry genes that provide the cell with genetic advantages, such as antibiotic resistance or the ability to metabolize unusual substances.

Synonyms

• Circular DNA
• Genetic vector
• Cloning vector
• DNA molecule

Antonyms

• Chromosomal DNA
• Linear DNA

Examples

1. Scientists plasmid the new gene into the bacterial culture.
2. Researchers plasmid the DNA to study its effects on protein expression.
3. The team plasmid a marker gene to track cell division.
4. They plasmid the vector to facilitate gene cloning.
5. The laboratory plasmid a plasmid that confers antibiotic resistance.
6. She plasmid the plasmid into a yeast strain for fermentation research.
7. The experiment aimed to plasmid multiple genes into one vector.
8. They plasmid the plasmid to enhance the efficacy of gene therapy.
9. He plasmid the foreign DNA into the host cell successfully.
10. The technician plasmid a fluorescent protein for visualization.
11. Researchers plasmid the plasmid to compare gene expression levels.
12. They plasmid the modified plasmid to assess its stability.
13. The graduate student plasmid a new plasmid for her thesis project.
14. The lab successfully plasmid a plasmid containing the CRISPR system.
15. Scientists plasmid the plasmid into a viral vector for delivery.
16. The team plasmid the gene responsible for sugar metabolism.
17. She plasmid the plasmid with a promoter for enhanced transcription.
18. They plasmid the plasmid to explore gene function in vivo.
19. The researchers plasmid a synthetic plasmid to study gene regulation.
20. The experiment required them to plasmid the plasmid into several strains.
21. He plasmid the plasmid to analyze its replication origin.
22. The lab plasmid a high-copy plasmid for protein production.
23. She needed to plasmid the gene into a specific bacterial strain.
24. The students plasmid the plasmid as part of their lab course.
25. They plasmid the plasmid using electroporation for efficiency.
26. Researchers plasmid the plasmid to investigate horizontal gene transfer.
27. The professor plasmid the plasmid to illustrate genetic engineering concepts.
28. The team plasmid a plasmid containing multiple resistance genes.
29. He successfully plasmid the plasmid into the target cells.
30. They plasmid the plasmid to determine its compatibility with the host.
31. The laboratory plasmid a new version of the plasmid for better yield.
32. She plasmid the plasmid to create genetically modified organisms.
33. The students plasmid various plasmids during the workshop.
34. Researchers plasmid a plasmid to develop a vaccine.
35. The team plasmid the plasmid containing a reporter gene for studies.
36. He plasmid the plasmid to test its effects on cell growth.
37. They plasmid the plasmid for use in synthetic biology projects.
38. She plasmid the plasmid with a sequence for protein tagging.
39. The geneticists plasmid the plasmid to study gene interactions.
40. He plasmid the plasmid and analyzed the transformation efficiency.
41. The team plasmid different plasmids to compare their functions.
42. They plasmid the plasmid with a strong promoter for high expression.
43. She plasmid the plasmid to facilitate gene editing experiments.
44. Researchers plasmid the plasmid to enhance bioluminescence in cells.
45. The lab plasmid the plasmid to evaluate its impact on metabolism.
46. He plasmid the plasmid into the bacteria to produce insulin.
47. They plasmid the plasmid to study the effects of gene silencing.
48. The scientist plasmid the plasmid in preparation for sequencing.
49. She plasmid the plasmid to produce a therapeutic protein.
50. The researchers plasmid the plasmid to track gene expression changes.
51. They plasmid the plasmid using a new protocol for efficiency.
52. He plasmid the plasmid to study plasmid stability over generations.
53. The team plasmid a plasmid containing a gene for antibiotic production.
54. She plasmid the plasmid in her experiment with success.
55. They plasmid the plasmid to assess its role in bioengineering.
56. The lab successfully plasmid the plasmid into cultured cells.
57. He needed to plasmid the plasmid before the next phase of the project.
58. They plasmid the plasmid for a study on gene therapy applications.
59. The researchers plasmid the plasmid to create a knockout model.
60. She plasmid the plasmid to test its effects on metabolic pathways.
61. The team plasmid the plasmid to explore its potential in agriculture.
62. Researchers plasmid the plasmid to analyze its expression profile.
63. He plasmid the plasmid for use in a collaborative research project.
64. They plasmid the plasmid to investigate its interaction with host DNA.
65. She plasmid the plasmid successfully, leading to new findings.
66. The lab plasmid a plasmid for the production of therapeutic antibodies.
67. He plasmid the plasmid to evaluate its stability under stress conditions.
68. The researchers plasmid the plasmid to study resistance mechanisms.
69. They plasmid the plasmid containing multiple editing tools.
70. She plasmid the plasmid to enhance the expression of a key enzyme.
71. The team plasmid the plasmid to monitor gene expression in real-time.
72. He plasmid the plasmid to create a model for drug testing.
73. They plasmid the plasmid in preparation for a field trial.
74. The lab plasmid the plasmid with a sequence for enhanced stability.
75. She needed to plasmid the plasmid before cloning her target gene.
76. Researchers plasmid the plasmid to investigate its role in pathogenesis.
77. The team plasmid the plasmid for a demonstration on gene cloning.
78. He plasmid the plasmid and assessed its transformation rate.
79. They plasmid a plasmid to improve the efficiency of genetic modification.
80. She plasmid the plasmid to create a fluorescent marker for tracking.
81. The scientists plasmid the plasmid to assess gene function in plants.
82. He plasmid the plasmid to analyze the effects of gene dosage.
83. They plasmid the plasmid for experiments on microbial resistance.
84. The lab plasmid a plasmid to study the effects of gene knockdown.
85. She plasmid the plasmid in an effort to produce a sustainable biofuel.
86. Researchers plasmid the plasmid to explore new therapeutic strategies.
87. The team plasmid the plasmid to optimize protein production in yeast.
88. He plasmid the plasmid and monitored its replication dynamics.
89. They plasmid the plasmid for a collaborative research initiative.
90. She plasmid the plasmid to evaluate its effects on cell signaling.
91. The scientists plasmid the plasmid to investigate gene expression in cancer.
92. He plasmid the plasmid to create a stable cell line for research.
93. They plasmid the plasmid in a series of transformation experiments.
94. The laboratory plasmid the plasmid to generate a library of variants.
95. She plasmid the plasmid to facilitate the study of metabolic pathways.
96. The researchers plasmid the plasmid to analyze its role in gene regulation.
97. He plasmid the plasmid to create genetically modified microorganisms.
98. They plasmid the plasmid to explore its applications in medicine.
99. The team plasmid the plasmid to assess its potential for bioremediation.
100. She plasmid the plasmid and prepared for further analysis.