100 Examples of sentences containing the common noun "polygenic"

Definition

Polygenic refers to a trait or characteristic that is influenced by multiple genes, rather than a single gene. This term is commonly used in genetics to describe the inheritance patterns of complex traits, such as height, skin color, and susceptibility to certain diseases.

Synonyms

• Multifactorial
• Multigenic
• Complex trait
• Polygenic inheritance

Antonyms

• Monogenic
• Single-gene
• Simple trait

Examples

1. Scientists believe that many diseases are polygenic in nature.
2. The study of polygenic traits helps in understanding human diversity.
3. Researchers are exploring how polygenic factors contribute to intelligence.
4. Height is a classic example of a polygenic trait.
5. The model of polygenic inheritance can explain variations in skin color.
6. Understanding polygenic traits can improve breeding programs in agriculture.
7. The risk for certain conditions is often polygenic, requiring comprehensive studies.
8. Some researchers argue that polygenic scores can predict health outcomes.
9. The concept of polygenic traits challenges the simplistic view of genetics.
10. Geneticists often focus on polygenic patterns when studying complex behaviors.
11. The relationship between genetics and environment is crucial for polygenic studies.
12. Many psychological traits are considered to be polygenic.
13. A polygenic risk score can help identify individuals at higher risk for diseases.
14. The polygenic nature of obesity complicates treatment strategies.
15. There is growing interest in how polygenic traits interact with lifestyle factors.
16. The inheritance of polygenic traits can vary widely among individuals.
17. Recent advancements have made it easier to analyze polygenic effects.
18. The polygenic model allows for a more nuanced understanding of heredity.
19. Some traits are influenced by polygenic interactions, making predictions difficult.
20. The study of polygenic traits is vital for personalized medicine.
21. Many common diseases are thought to be polygenic in origin.
22. The polygenic approach provides insights into evolutionary biology.
23. Researchers are mapping polygenic traits to identify genetic variants.
24. The complexity of polygenic inheritance can pose challenges in research.
25. It's important to consider both genetic and environmental factors in polygenic studies.
26. The polygenic nature of certain traits means they can't be attributed to one gene alone.
27. Understanding the polygenic basis of diseases can aid in drug development.
28. The interaction of multiple genes can create a polygenic effect on phenotype.
29. Family studies often reveal the polygenic nature of various traits.
30. The polygenic model helps explain the heritability of complex traits.
31. Some traits are so polygenic that they cannot be easily categorized.
32. New technologies are enhancing our ability to study polygenic traits.
33. The influence of a polygenic trait can vary greatly from one person to another.
34. The field of genetics is increasingly focused on polygenic risk factors.
35. Polygenic traits often exhibit a continuous distribution in populations.
36. Researchers use genome-wide association studies to identify polygenic influences.
37. The polygenic model is essential for understanding many health conditions.
38. The polygenic nature of intelligence makes it a complex area of study.
39. Many traits that were once thought to be single-gene are now recognized as polygenic.
40. The analysis of polygenic traits requires sophisticated statistical methods.
41. There are ongoing debates about the ethical implications of polygenic research.
42. The polygenic risk of developing diabetes varies among different populations.
43. The study of polygenic traits has led to significant discoveries in genetics.
44. Polygenic inheritance patterns can help explain familial similarities in traits.
45. The polygenic nature of certain behaviors has implications for psychology.
46. Identifying polygenic traits can provide insights into evolutionary fitness.
47. The polygenic approach is crucial for understanding complex diseases.
48. Many agricultural traits are influenced by polygenic inheritance.
49. Polygenic models often incorporate environmental factors into their assessments.
50. The complexity of polygenic traits can make them difficult to study accurately.
51. Genetic counseling often discusses the polygenic nature of certain conditions.
52. Understanding how polygenic traits interact with environment is key to research.
53. The implications of polygenic inheritance are vast in medicine and biology.
54. Geneticists focus on polygenic effects to understand population diversity.
55. The relationships among polygenic traits can reveal much about evolutionary history.
56. The polygenic architecture of traits can complicate breeding strategies.
57. Many traits considered polygenic are influenced by both genetics and environment.
58. The contribution of each gene in a polygenic trait is usually small.
59. The polygenic model has reshaped our understanding of many disorders.
60. Some diseases are diagnosed based on their polygenic risk profiles.
61. The polygenic nature of certain traits makes them difficult to predict.
62. The study of polygenic inheritance is a rapidly evolving field.
63. Many geneticists are focused on unraveling polygenic complexities.
64. The polygenic risk for certain cancers can vary dramatically among individuals.
65. Understanding polygenic influences can lead to better health interventions.
66. The interaction of multiple genes creates a polygenic landscape in traits.
67. There's much to learn about the polygenic basis of mental health disorders.
68. The polygenic nature of certain traits can also affect evolutionary strategies.
69. Polygenic traits can show different patterns of inheritance across families.
70. The future of genetics lies in understanding polygenic relationships.
71. Many physical traits are influenced by polygenic factors, making them diverse.
72. The concept of polygenic inheritance has revolutionized genetic research.
73. The polygenic model offers insights into the complexity of human traits.
74. Scientists are developing tools to analyze polygenic systems more efficiently.
75. The study of polygenic traits is essential for advancements in agriculture.
76. Understanding polygenic interactions is crucial for wildlife conservation.
77. The polygenic nature of traits can lead to unexpected outcomes in studies.
78. Genetic diversity is often a result of polygenic variations within populations.
79. The polygenic aspects of intelligence are still being researched extensively.
80. The understanding of polygenic traits is critical for evolutionary biology.
81. The polygenic model helps explain the heritability of complex diseases.
82. Many social behaviors are thought to be influenced by polygenic interactions.
83. The polygenic basis of traits is a key area of interest in modern genetics.
84. Advances in technology facilitate the study of polygenic influences on traits.
85. The polygenic nature of certain traits complicates genetic testing.
86. Many researchers are focusing on the polygenic nature of addiction.
87. The polygenic architecture of traits requires large sample sizes for studies.
88. The study of polygenic traits has implications for public health policies.
89. Researchers are increasingly looking at polygenic interactions in diseases.
90. The polygenic model enables a deeper understanding of human variation.
91. The complexity of polygenic traits requires interdisciplinary approaches.
92. The polygenic nature of certain traits can lead to diverse phenotypes.
93. The future of personalized medicine is tied to understanding polygenic factors.
94. The polygenic structure of traits can influence evolutionary processes.
95. Many traits that appear simple are actually polygenic in their inheritance.
96. The polygenic approach allows for a broader understanding of genetics.
97. The study of polygenic interactions is essential for understanding health outcomes.
98. The polygenic nature of traits often leads to ethical considerations in research.
99. Understanding polygenic traits can improve strategies for disease prevention.
100. The complexity of polygenic traits makes them a fascinating area of study.