100 Examples of sentences containing the common noun "epigenomes"

Definition

Epigenomes refer to the complete set of chemical modifications to the DNA and histone proteins of an organism, which regulate gene expression without altering the underlying DNA sequence. These modifications can influence cellular behavior and are heritable, playing a critical role in development, differentiation, and responses to environmental factors.

Synonyms

• Epigenetic landscape
• Epigenetic markers
• Gene regulatory mechanisms

Antonyms

• Genomes
• DNA sequence
• Genetic information

Examples

1. Researchers are studying how epigenomes can affect cellular aging.
2. Environmental factors can significantly alter the epigenomes of organisms.
3. Advances in technology allow scientists to map the epigenomes of various species.
4. The epigenomes of cancer cells differ from those of healthy cells.
5. Understanding epigenomes may lead to breakthroughs in personalized medicine.
6. Some genes can be turned on or off depending on the state of their epigenomes.
7. Nutrition has a profound impact on the epigenomes of developing embryos.
8. The study of epigenomes is crucial for understanding complex diseases.
9. Researchers are focusing on the epigenomes of stem cells to unlock their potential.
10. Changes in epigenomes can have lasting effects on an organism’s phenotype.
11. The epigenomes of identical twins can differ due to environmental influences.
12. Scientists are exploring how epigenomes can be modified to treat genetic disorders.
13. The epigenomes of plants can help them adapt to changing climates.
14. Certain drugs can target the epigenomes to alter gene expression in diseases.
15. The role of epigenomes in memory formation is a topic of ongoing research.
16. Environmental toxins can disrupt the normal function of epigenomes.
17. The relationship between diet and epigenomes is an emerging field of study.
18. Epigenomes can provide insights into the effects of stress on health.
19. The epigenomes of different tissues can vary significantly.
20. Researchers hope to harness the power of epigenomes for therapeutic purposes.
21. The stability of epigenomes is essential for normal cellular function.
22. Epigenomes can be influenced by lifestyle choices such as exercise and diet.
23. The field of epigenetics studies how epigenomes interact with the environment.
24. Scientists have developed techniques to edit epigenomes for research purposes.
25. The preservation of epigenomes is crucial during cellular division.
26. Certain diseases are linked to changes in the epigenomes of affected individuals.
27. The complexity of epigenomes poses challenges for researchers.
28. Epigenomes play a significant role in the differentiation of stem cells.
29. The evolution of epigenomes may provide insights into species adaptation.
30. Some researchers believe that epigenomes could explain differences in behavior.
31. The interplay between genetics and epigenomes is a key area of research.
32. Epigenomes can be modified by external factors such as pollutants.
33. The field of developmental biology often investigates the role of epigenomes.
34. Epigenomes can influence how organisms respond to their environment.
35. The study of epigenomes is essential for understanding hereditary diseases.
36. Epigenomes can serve as biomarkers for various health conditions.
37. The plasticity of epigenomes allows for adaptability in changing environments.
38. Epigenomes are crucial for maintaining cellular identity in multicellular organisms.
39. The mapping of epigenomes can reveal patterns of gene regulation.
40. Differences in epigenomes may contribute to variations in phenotypes.
41. Epigenomes can be shaped by experiences, impacting future generations.
42. The role of epigenomes in aging is an important area of scientific inquiry.
43. Investigating epigenomes can enhance our understanding of evolutionary processes.
44. The dynamic nature of epigenomes makes them a fascinating subject of study.
45. Epigenomes can be influenced by maternal health during pregnancy.
46. The integration of epigenomes in genetic research is gaining attention.
47. Disruptions in epigenomes can lead to developmental disorders.
48. The study of epigenomes has implications for regenerative medicine.
49. Epigenomes are increasingly recognized for their role in cell signaling.
50. Understanding how epigenomes function can inform cancer treatment strategies.
51. The interplay between epigenomes and transcription factors is complex.
52. Some scientists are developing therapies that target specific epigenomes.
53. The mapping of human epigenomes is a monumental task in genetics.
54. Epigenomes can regulate the timing of gene expression during development.
55. The study of epigenomes can help explain why some individuals are more prone to certain diseases.
56. Epigenomes can be influenced by exposure to various chemicals and substances.
57. The relationship between epigenomes and mental health is an emerging area of research.
58. Advances in sequencing technology have made it easier to analyze epigenomes.
59. The stability of epigenomes is crucial for reproductive success.
60. Epigenomes can reflect an organism’s response to environmental challenges.
61. Researchers are beginning to understand how epigenomes contribute to immune responses.
62. The field of epigenomics is rapidly evolving as new discoveries are made.
63. Epigenomes can influence the effectiveness of certain medications.
64. The relationship between epigenomes and behavior is a topic of interest in psychology.
65. Investigating epigenomes can help unravel the mysteries of human development.
66. Epigenomes are essential for the proper function of the nervous system.
67. The impact of epigenomes on metabolism is an area of growing interest.
68. Changes in epigenomes may contribute to the development of obesity.
69. The field of agriculture is exploring how epigenomes can improve crop resilience.
70. Epigenomes can provide insights into evolutionary adaptations in species.
71. The study of epigenomes can inform strategies for biodiversity conservation.
72. Epigenomes play a role in the regulation of circadian rhythms.
73. The complexity of epigenomes requires interdisciplinary approaches to study.
74. Understanding epigenomes can lead to advancements in gene therapy.
75. Variations in epigenomes can be linked to different responses to stress.
76. Researchers are using animal models to study how epigenomes affect behavior.
77. The influence of epigenomes on gene expression is a fundamental concept in biology.
78. Epigenomes can mediate the effects of lifestyle on health outcomes.
79. The relationship between aging and epigenomes is a key focus of research.
80. Disruptions in epigenomes can lead to cancer progression.
81. Epigenomes can inform our understanding of complex traits in populations.
82. The study of epigenomes can enhance our knowledge of tissue regeneration.
83. Epigenomes can be influenced by paternal factors during conception.
84. The mapping of epigenomes is critical for advancements in precision medicine.
85. Epigenomes can serve as a record of environmental exposures throughout life.
86. The interaction between epigenomes and microbiomes is an exciting area of research.
87. Epigenomes can affect how organisms cope with environmental stressors.
88. Research on epigenomes is helping to uncover the mechanisms of inheritance.
89. Epigenomes can influence developmental pathways in embryogenesis.
90. The role of epigenomes in plant adaptation to climate change is being explored.
91. The interplay of epigenomes and genetics is fundamental to evolutionary biology.
92. Epigenomes can provide insights into the biological basis of complex diseases.
93. The study of epigenomes is essential for understanding gene regulation.
94. Epigenomes can impact the efficacy of vaccines and immune responses.
95. Researchers are investigating how epigenomes contribute to cardiovascular health.
96. The plasticity of epigenomes allows for rapid adaptation in response to changes.
97. Epigenomes can influence the development of neurological disorders.
98. The field of epigenomics is expanding to include diverse organisms and environments.
99. Understanding how epigenomes function may lead to novel therapeutic approaches.
100. The research on epigenomes is reshaping our understanding of biology and medicine.