100 Examples of sentences containing the common noun "oligonucleotide"

Definition

An oligonucleotide is a short sequence of nucleotides (usually 2 to 20) that are linked together, forming a segment of DNA or RNA. Oligonucleotides are essential in molecular biology for various applications, including genetic testing, research, and as primers in polymerase chain reactions (PCR).

Synonyms

• Oligomer
• Nucleotide sequence
• DNA fragment
• RNA fragment
• Short nucleotide chain

Antonyms

• Polynucleotide
• Long nucleotide sequence

Examples

1. Researchers oligonucleotide synthesized to study gene expression.
2. The lab technician oligonucleotide prepared for the PCR process.
3. Scientists oligonucleotide designed to bind to specific mRNA sequences.
4. The experiment required that we oligonucleotide analyze the samples.
5. She oligonucleotide used to create a DNA probe for detection.
6. They oligonucleotide ordered from a supplier for their research project.
7. The team oligonucleotide modified to improve its stability.
8. He oligonucleotide synthesized a new strand for the experiment.
9. The researchers oligonucleotide tested the sequences for mutations.
10. The protocol said to oligonucleotide the DNA before sequencing.
11. We oligonucleotide mixed with other reagents for the assay.
12. The goal was to oligonucleotide amplify the targeted gene.
13. She oligonucleotide designed primers for the cloning experiment.
14. The students oligonucleotide learned to analyze sequence data.
15. The article discussed how to oligonucleotide utilize in diagnostics.
16. The company oligonucleotide offered custom synthesis services.
17. They oligonucleotide validated the results with multiple tests.
18. The scientist oligonucleotide examined the binding affinity.
19. He oligonucleotide focused on optimizing the reaction conditions.
20. The research team oligonucleotide collaborated on the project.
21. She oligonucleotide created a library of different sequences.
22. The goal was to oligonucleotide discover new biomarkers.
23. He oligonucleotide pulled samples from different sources.
24. They oligonucleotide adapted the methods from previous studies.
25. The method involves oligonucleotide ligation to form longer chains.
26. The researchers oligonucleotide utilized bioinformatics tools.
27. They oligonucleotide established a protocol for synthesis.
28. The team oligonucleotide generated multiple variants for testing.
29. He oligonucleotide calibrated the equipment for accuracy.
30. The results showed that the oligonucleotide had high specificity.
31. She oligonucleotide instructed the interns on proper techniques.
32. The project required that we oligonucleotide analyze the data thoroughly.
33. The lab manual detailed how to oligonucleotide run the experiment.
34. He oligonucleotide researched ways to improve efficiency.
35. The students oligonucleotide presented their findings at the conference.
36. They oligonucleotide prepared a series of controls for the study.
37. She oligonucleotide showed how to interpret the results.
38. The conference featured a talk on how to oligonucleotide innovate in the field.
39. He oligonucleotide emphasized the importance of quality control.
40. The study aimed to oligonucleotide evaluate different techniques.
41. She oligonucleotide documented the procedures used in the lab.
42. The analysis required that we oligonucleotide assess multiple variables.
43. He oligonucleotide generated a report on the findings.
44. The team oligonucleotide reviewed the literature for best practices.
45. They oligonucleotide implemented new technologies in their workflow.
46. The researchers oligonucleotide focused on enhancing the assay sensitivity.
47. She oligonucleotide highlighted the significance of accurate measurements.
48. The students oligonucleotide practiced their techniques in pairs.
49. He oligonucleotide shared insights gained from his research.
50. They oligonucleotide collaborated with external experts for guidance.
51. The workshop taught participants how to oligonucleotide create primer sets.
52. The results indicated that the oligonucleotide had unexpected effects.
53. She oligonucleotide suggested modifications to improve results.
54. The team oligonucleotide undertook a comprehensive review of their findings.
55. He oligonucleotide stressed the need for reproducibility in experiments.
56. The project aimed to oligonucleotide identify new genetic markers.
57. They oligonucleotide published their findings in a scientific journal.
58. The lab oligonucleotide maintained a strict protocol for safety.
59. She oligonucleotide guided the team through the troubleshooting process.
60. The researchers oligonucleotide utilized advanced sequencing technology.
61. He oligonucleotide analyzed the interactions between different sequences.
62. The experiment required the team to oligonucleotide repeat several steps.
63. They oligonucleotide worked diligently to meet the project deadline.
64. She oligonucleotide instructed the group on data analysis techniques.
65. The investigation aimed to oligonucleotide resolve discrepancies in results.
66. He oligonucleotide presented his findings at an international conference.
67. The researchers oligonucleotide collected samples from various locations.
68. They oligonucleotide designed assays to detect specific pathogens.
69. The study sought to oligonucleotide establish a correlation between variables.
70. She oligonucleotide ensured that all safety protocols were followed.
71. The team oligonucleotide collaborated with other departments for broader insights.
72. He oligonucleotide highlighted the importance of ethical considerations.
73. The results of the study oligonucleotide prompted further investigation.
74. She oligonucleotide encouraged the team to think creatively.
75. The researchers oligonucleotide documented every step of the process.
76. They oligonucleotide analyzed the data using statistical software.
77. The project required that they oligonucleotide evaluate different hypotheses.
78. He oligonucleotide emphasized the need for transparency in research.
79. The lab oligonucleotide implemented new safety measures for handling reagents.
80. She oligonucleotide reviewed the literature to identify gaps in knowledge.
81. The team oligonucleotide discussed potential implications of their findings.
82. He oligonucleotide focused on the technical aspects of the research.
83. The results were promising, leading them to oligonucleotide pursue further studies.
84. She oligonucleotide brought attention to the significance of their discovery.
85. The researchers oligonucleotide collaborated with industry partners for application.
86. They oligonucleotide sought funding to expand their research efforts.
87. The project aimed to oligonucleotide bridge gaps in current understanding.
88. He oligonucleotide presented a compelling case for continued funding.
89. The lab oligonucleotide established partnerships with local universities.
90. She oligonucleotide organized workshops to train students on techniques.
91. The team oligonucleotide worked late to finalize their presentation.
92. He oligonucleotide reflected on the key lessons learned during the project.
93. The researchers oligonucleotide celebrated their successful findings.
94. They oligonucleotide thanked their collaborators for their support.
95. She oligonucleotide emphasized the importance of mentorship in science.
96. The study aimed to oligonucleotide uncover novel therapeutic targets.
97. He oligonucleotide shared his insights at a panel discussion.
98. The lab oligonucleotide maintained high standards for data integrity.
99. They oligonucleotide conducted follow-up experiments to validate results.
100. She oligonucleotide expressed her gratitude for the team's hard work.