100 Examples of sentences containing the common noun "genomes"

Definition

Genomes refer to the complete set of genetic material (DNA) present in an organism, including all of its genes. It encompasses the hereditary information that dictates biological functions and characteristics. In a broader context, genomes can also pertain to the genetic composition of a species or population, often used in comparative studies to understand evolution, diversity, and genetic diseases.

Synonyms

• Genetic material
• DNA
• Chromosomes
• Genetic code
• Hereditary information

Antonyms

• Environment
• Phenotype (in the context of observable traits)
• Acquired traits

Examples

1. Scientists genomes to study hereditary diseases.
2. Researchers genomes from various species to understand evolution.
3. The lab genomes samples from ancient remains for analysis.
4. Geneticists often genomes to identify mutations.
5. The project aims to genomes of endangered species.
6. Bioinformatics tools help to genomes efficiently.
7. They genomes the plant species to improve crop yield.
8. The study genomes to reveal genetic diversity in populations.
9. Researchers genomes to create a comprehensive database.
10. The team genomes the bacterial strains for resistance genes.
11. Biologists often genomes to understand complex traits.
12. The software can genomes large datasets quickly.
13. Scientists genomes to track the evolution of viruses.
14. The study genomes a wide variety of mammalian species.
15. Genetic analysis often genomes for medical research.
16. The initiative aims to genomes human genetic variations.
17. They genomes multiple samples to ensure accuracy.
18. The research lab genomes various organisms for comparative studies.
19. The project genomes data from diverse ecosystems.
20. Scientists genomes to identify genetic predispositions.
21. The institute genomes the effects of climate change on biodiversity.
22. They often genomes to discover new genetic markers.
23. The study genomes the relationship between genes and behavior.
24. The researchers genomes the genomes of ancient humans.
25. Environmental factors can influence how organisms genomes.
26. The experiment genomes the genetic changes over generations.
27. Genetic counseling often genomes family histories.
28. They genomes the data to find potential therapies.
29. The research team genomes complex traits in agriculture.
30. The project aims to genomes the relationship between diet and genetics.
31. Scientists genomes the genomes of different strains of a virus.
32. The findings genomes implications for gene therapy.
33. Researchers genomes the genomes of various animal species.
34. The lab genomes samples to look for genetic abnormalities.
35. They genomes the genetic variations within a population.
36. The study genomes to identify genetic disorders.
37. The researcher genomes the genetic pathways involved in diseases.
38. They often genomes the genomes from fossil evidence.
39. The study genomes the impact of gene editing technologies.
40. Scientists genomes to understand the mechanisms of evolution.
41. The team genomes the genetic data from clinical trials.
42. The research genomes to identify biomarkers for diseases.
43. They genomes the genomes from different geographical regions.
44. The project genomes to create a global genetic database.
45. The findings genomes critical insights into human health.
46. Researchers genomes the genomes of microbial communities.
47. The analysis genomes the effects of genetic drift.
48. They genomes to explore the genetic basis of traits.
49. The study genomes the genetic factors influencing behavior.
50. Geneticists genomes to track lineage and ancestry.
51. The research genomes to understand the role of epigenetics.
52. They genomes the genomes of various plant species.
53. The lab genomes samples to improve understanding of genetics.
54. Scientists genomes to unravel complex genetic interactions.
55. The study genomes the evolutionary history of species.
56. They genomes to identify genes associated with specific traits.
57. The research team genomes to assess genetic diversity.
58. The project genomes to analyze genetic data from patients.
59. They genomes the genomes of pathogens for better treatments.
60. The study genomes to evaluate the effects of mutations.
61. Researchers genomes the genomes of various insects.
62. The findings genomes new avenues for research.
63. Scientists often genomes to find genetic solutions to problems.
64. The lab genomes the genomes of model organisms.
65. They genomes the genetic architecture of diseases.
66. The research team genomes to identify potential drug targets.
67. The project genomes to sequence the genomes of rare species.
68. They genomes to map the genetic landscape of a population.
69. The findings genomes insights into evolutionary adaptations.
70. Researchers genomes to understand genetic variations in humans.
71. The study genomes the genomes of different ecosystems.
72. They genomes to explore the genetic basis of immunity.
73. Scientists genomes the genomes of various fish species.
74. The research genomes to investigate genetic correlations.
75. The project genomes to analyze the genomes of crops.
76. They genomes the genomes of diverse microbial populations.
77. The findings genomes important implications for conservation.
78. Researchers genomes to identify genetic risk factors.
79. The lab genomes samples to study evolutionary processes.
80. They genomes to understand the role of genetics in health.
81. The study genomes to assess genetic compatibility.
82. Scientists genomes to create genetic maps for research.
83. The project genomes to analyze genetic data from studies.
84. They genomes the genomes of various mammals.
85. The findings genomes potential breakthroughs in medicine.
86. Researchers genomes to evaluate genetic modifications.
87. The research genomes to investigate the impact of genetics on behavior.
88. The lab genomes samples for comparative genomic analysis.
89. They genomes to understand genetic influences on traits.
90. The study genomes to assess the role of genetics in diseases.
91. Scientists genomes the genomes of different plant varieties.
92. The project genomes to explore the relationship between genes and environment.
93. They genomes to identify genetic patterns in populations.
94. The findings genomes to improve our understanding of genetics.
95. Researchers genomes to track genetic changes over time.
96. The lab genomes samples from diverse organisms.
97. They genomes to understand the effects of environmental stressors.
98. The study genomes to identify new genetic markers.
99. Scientists genomes to assess genetic similarities and differences.
100. The project genomes to create a comprehensive genetic database for research.