100 Examples of sentences containing the common noun "nuclei"

Definition

"Nuclei" is the plural form of "nucleus," which refers to:

1. The central and most important part of an object, movement, or group, forming the basis for its activity and growth.
2. In biology, the membrane-bound structure within a cell that contains genetic material (DNA).
3. In physics, the positively charged center of an atom, made up of protons and neutrons.

Synonyms

• Cores
• Centers
• Kernels
• Hubs
• Hearts
• Foci

Antonyms

• Outskirts
• Peripheries
• Margins
• Edges
• Extremities

Examples

1. The nuclei of the cells were stained for observation under the microscope.
2. Scientists study the nuclei to understand atomic structure better.
3. The nuclei of the atoms in the sample were analyzed for isotopic composition.
4. In the study, the researchers found that the nuclei were significantly larger in cancerous cells.
5. The nuclei of interest in this experiment are the ones that exhibit unusual behavior.
6. Each nuclei provides essential data for the overall analysis.
7. The nuclei must be carefully isolated to prevent contamination.
8. She focused on the nuclei of the samples to determine their age.
9. The nuclei are essential for cellular reproduction.
10. The nuclei showed a high degree of variation across different species.
11. Researchers observed that the nuclei of certain cells were more active than others.
12. The nuclei in the provided diagram represent different energy states.
13. In quantum mechanics, the behavior of the nuclei can be quite complex.
14. The nuclei play a crucial role in the stability of the atom.
15. The nuclei of the cells were examined using advanced imaging techniques.
16. They discovered that the nuclei had distinct patterns in their arrangement.
17. The nuclei were carefully counted to ensure accurate results.
18. The experiment required precise measurements of the nuclei.
19. The nuclei showed signs of mutation over successive generations.
20. In the lab, the team prepared samples to analyze the nuclei.
21. The nuclei are responsible for carrying the genetic information of the organism.
22. The project focused on the interactions between the nuclei of various atoms.
23. The nuclei of the elements were compared to determine their properties.
24. The scientists used lasers to manipulate the nuclei in their experiments.
25. The nuclei can be visualized using special imaging techniques.
26. The research highlighted the differences between the nuclei of healthy and diseased cells.
27. The nuclei must be preserved in a controlled environment to maintain their integrity.
28. Their findings revealed that the nuclei were responsible for producing specific proteins.
29. The nuclei of the molecules exhibited unique characteristics under stress.
30. The nuclei are surrounded by the cytoplasm in eukaryotic cells.
31. The study aimed to identify the nuclei involved in the signaling pathways.
32. The nuclei of the atoms were bombarded with neutrons to study reactions.
33. The researchers mapped the nuclei to understand their spatial relationships.
34. The nuclei in this region are expected to behave similarly to those found elsewhere.
35. The nuclei were analyzed for their isotopic ratios.
36. The impact of the nuclei on the overall function of the cell was significant.
37. The nuclei can vary in size depending on the cell type.
38. Understanding the nuclei is fundamental to grasping cell biology.
39. The nuclei were tagged with fluorescent markers for visualization.
40. The experiment demonstrated how the nuclei respond to environmental changes.
41. The research findings on the nuclei could lead to breakthroughs in medicine.
42. The nuclei are critical in understanding genetic inheritance.
43. The nuclei interact with other cellular components to facilitate various processes.
44. The nuclei of the atoms were central to the theory being proposed.
45. The structure of the nuclei was revealed through X-ray crystallography.
46. The nuclei exhibited different properties under varying temperatures.
47. The team worked tirelessly to characterize the nuclei of the experimental samples.
48. The nuclei can undergo changes during cell division.
49. The nuclei must remain intact during the process to ensure successful replication.
50. The study of the nuclei has implications for understanding evolution.
51. The team focused on how the nuclei interact with the surrounding environment.
52. The nuclei were dissected to study their internal structures.
53. The researchers hypothesized that the nuclei play a role in cellular aging.
54. The nuclei of the two species were compared for genetic similarities.
55. The nuclei were crucial in the formation of new cellular structures.
56. Advanced techniques allowed for the observation of the nuclei in real-time.
57. The findings on the nuclei could revolutionize our understanding of genetics.
58. The nuclei were found to have distinct shapes and sizes.
59. The interaction between the nuclei and the cytoplasm is essential for cell function.
60. The nuclei serve as the command center for cellular activities.
61. The nuclei were found to be involved in regulating gene expression.
62. The nuclei of different elements react differently under similar conditions.
63. The study provided insights into how the nuclei influence metabolic processes.
64. The nuclei were subjected to various external stimuli to observe reactions.
65. The integrity of the nuclei is vital for genetic stability.
66. The nuclei can be influenced by external agents such as radiation.
67. The research team focused on the dynamics of the nuclei during cell division.
68. The nuclei were critical for understanding the mechanism of disease progression.
69. The nuclei of the cells were isolated for further analysis.
70. Understanding the nuclei is important for advancements in biotechnology.
71. The differences in the nuclei contributed to the diversity of species.
72. The nuclei are essential for the synthesis of ribosomal RNA.
73. The findings showed how the nuclei adapt to changing environmental conditions.
74. The study of the nuclei has implications for genetic engineering.
75. The nuclei must be carefully preserved for accurate analysis.
76. The researchers utilized advanced imaging to visualize the nuclei.
77. The nuclei provided essential insights into the cellular response to stress.
78. The nuclei were crucial for understanding cellular communication mechanisms.
79. The nuclei can change in response to hormonal signals.
80. The role of the nuclei in cellular metabolism is increasingly recognized.
81. The nuclei were subjected to various forms of treatment to study their effects.
82. The study highlighted the importance of the nuclei in developmental biology.
83. The nuclei are integral to the processes of transcription and translation.
84. The researchers aimed to elucidate the function of the nuclei in differentiation.
85. The nuclei were found to contain various regulatory elements.
86. The behavior of the nuclei under different conditions was carefully documented.
87. The nuclei serve as a repository for genetic information.
88. The interaction between the nuclei and other organelles was studied extensively.
89. The nuclei were critical in understanding the evolution of cellular life.
90. The nuclei of the cells were analyzed for chromosomal abnormalities.
91. The research focused on how the nuclei influence cellular signaling pathways.
92. The nuclei showed signs of stress under certain experimental conditions.
93. The nuclei were evaluated for their role in apoptosis.
94. The importance of the nuclei in cellular homeostasis cannot be overstated.
95. The scientists were fascinated by the behavior of the nuclei in the experiment.
96. The nuclei were instrumental in deciphering the genetic code.
97. The researchers employed novel techniques to study the nuclei.
98. The nuclei of bacteria differ significantly from those of eukaryotic cells.
99. The nuclei were found to respond rapidly to environmental changes.
100. Understanding the nuclei is fundamental to advancing medical research.