100 Examples of sentences containing the common noun "heterozygosity"

Definition

Heterozygosity refers to the presence of different alleles at one or more loci on homologous chromosomes. It is a genetic term that describes the condition of having two different alleles for a particular gene, which can contribute to genetic diversity within a population.

Synonyms

• Genetic diversity
• Allelic variation
• Genetic polymorphism

Antonyms

• Homozygosity
• Inbreeding
• Genetic uniformity

Examples

1. Researchers often study how heterozygosity affects the adaptability of species in changing environments.
2. High levels of heterozygosity in a population can indicate a healthy gene pool.
3. The heterozygosity of certain species is crucial for their long-term survival.
4. Conservation efforts aim to maintain heterozygosity in endangered species.
5. Geneticists measure heterozygosity to assess the genetic health of populations.
6. The heterozygosity observed in the sample suggests a diverse genetic background.
7. Inbreeding depression can lead to reduced heterozygosity and increased genetic disorders.
8. Studies have shown that heterozygosity can enhance fitness in changing environmental conditions.
9. Heterozygosity is often used as a measure of genetic variability in evolutionary biology.
10. The heterozygosity of the population was analyzed to determine its evolutionary potential.
11. Increased heterozygosity can improve disease resistance in plants.
12. Scientists are investigating the role of heterozygosity in cancer susceptibility.
13. The heterozygosity rate was significantly lower in the isolated population.
14. A high degree of heterozygosity may contribute to the success of invasive species.
15. Genetic mapping can reveal patterns of heterozygosity across different regions.
16. The effects of heterozygosity on phenotypic traits are a key area of research.
17. Heterozygosity can influence reproductive success in some species.
18. The team found a correlation between heterozygosity and longevity in certain animals.
19. Heterozygosity can provide insights into the evolutionary history of a species.
20. The loss of heterozygosity can be a warning sign of impending extinction.
21. Heterozygosity plays a critical role in the immune response of organisms.
22. Some studies suggest that heterozygosity can buffer against environmental stress.
23. The concept of heterozygosity is fundamental in population genetics.
24. Increased heterozygosity can lead to greater adaptive potential in changing climates.
25. The heterozygosity of the genetic markers was analyzed in the study.
26. Heterozygosity can be a double-edged sword, offering both benefits and risks.
27. The researchers published their findings on heterozygosity in a leading genetics journal.
28. The implications of heterozygosity for conservation genetics are profound.
29. Heterozygosity is often associated with overall fitness in natural populations.
30. The analysis revealed a striking level of heterozygosity among the tested individuals.
31. Heterozygosity is essential for the maintenance of healthy ecosystems.
32. The researchers hypothesized that heterozygosity influenced mating preferences.
33. The impact of heterozygosity on agricultural traits is an important topic for breeders.
34. Geneticists often utilize heterozygosity as a criterion for evaluating breeding programs.
35. The conservation strategy focused on enhancing heterozygosity in local species.
36. The researchers found that heterozygosity contributed to the resilience of the population.
37. Heterozygosity can be measured using various genetic techniques.
38. The decline in heterozygosity was linked to habitat fragmentation.
39. The study examined the relationship between heterozygosity and reproductive isolation.
40. Heterozygosity can affect the expression of phenotypic traits.
41. The benefits of heterozygosity are clear in many ecological contexts.
42. The heterozygosity observed in the population was quite remarkable.
43. Efforts to preserve heterozygosity are crucial for biodiversity management.
44. Heterozygosity can enhance the potential for adaptation in fluctuating environments.
45. The findings highlighted the importance of maintaining heterozygosity in breeding populations.
46. Conservationists are concerned about the loss of heterozygosity in threatened species.
47. The role of heterozygosity in evolutionary dynamics is a fascinating area of study.
48. The heterozygosity index was calculated to assess genetic diversity.
49. Understanding heterozygosity can have implications for human health and disease.
50. The researchers measured heterozygosity across multiple loci to draw conclusions.
51. High levels of heterozygosity can promote population resilience to disease outbreaks.
52. The study aimed to investigate the effects of heterozygosity on gene expression.
53. Heterozygosity is a key factor in understanding evolutionary processes.
54. The researchers conducted experiments to test the effects of heterozygosity on survival.
55. The discovery of heterozygosity in previously studied populations was unexpected.
56. Heterozygosity can influence the adaptability of organisms to new environments.
57. The implications of heterozygosity extend to agricultural practices and crop resilience.
58. The analysis suggested that heterozygosity played a role in the species' success.
59. The study on heterozygosity garnered significant attention in the scientific community.
60. Heterozygosity can enhance the ability of populations to cope with environmental changes.
61. The researchers emphasized the significance of heterozygosity in their findings.
62. The loss of heterozygosity can lead to increased vulnerability to disease.
63. Genetic diversity, including heterozygosity, is crucial for ecosystem stability.
64. The concept of heterozygosity is foundational in understanding genetic variation.
65. The research focused on the relationship between heterozygosity and adaptive traits.
66. The effects of heterozygosity on fitness were carefully measured in the experiment.
67. The analysis highlighted the importance of maintaining heterozygosity in breeding programs.
68. Heterozygosity is often used as a marker for genetic health in populations.
69. The conservation project aimed to restore heterozygosity in declining species.
70. The role of heterozygosity in population dynamics is an important area of study.
71. Heterozygosity can play a significant role in the evolution of species.
72. The findings on heterozygosity were published in a prestigious journal.
73. The researchers found a strong correlation between heterozygosity and survival rates.
74. The study provided new insights into the role of heterozygosity in evolution.
75. Heterozygosity can contribute to the overall adaptability of a species.
76. The researchers measured heterozygosity to assess genetic health in the population.
77. The implications of heterozygosity for conservation strategies are substantial.
78. The study's findings indicate that heterozygosity is linked to reproductive success.
79. The researchers investigated how heterozygosity affects behavioral traits.
80. Heterozygosity can be a key factor in the success of restoration efforts.
81. The analysis of heterozygosity was crucial for understanding population structure.
82. The impact of heterozygosity on ecological interactions is a growing area of interest.
83. The findings emphasized the need to preserve heterozygosity in ecosystems.
84. The researchers conducted experiments to explore the effects of heterozygosity on fitness.
85. Heterozygosity can provide a buffer against environmental changes.
86. The study focused on the relationship between heterozygosity and adaptation.
87. The conservation effort aimed to enhance heterozygosity in the local population.
88. The heterozygosity observed in the study was higher than expected.
89. The researchers highlighted the role of heterozygosity in evolutionary processes.
90. Geneticists often measure heterozygosity to evaluate the health of populations.
91. The study found that heterozygosity is linked to increased survival rates.
92. The implications of heterozygosity for species conservation cannot be overstated.
93. Changes in heterozygosity can provide insights into population dynamics.
94. The role of heterozygosity in the success of invasive species is an important topic.
95. The researchers discussed the potential benefits of heterozygosity in their findings.
96. Heterozygosity can influence the likelihood of offspring survival.
97. The study aimed to quantify heterozygosity in various populations.
98. The relationship between heterozygosity and fitness is a key focus in ecology.
99. The researchers used heterozygosity as a measure of genetic diversity in their analysis.
100. The conservation strategy prioritized the maintenance of heterozygosity across species.