"Developmentalhomeostasis" Example Sentences
1. The concept of developmental homeostasis is crucial in understanding how organisms maintain stability during growth.
2. Genetic mutations can disrupt the delicate balance of developmental homeostasis and lead to developmental disorders.
3. The ability to regulate gene expression is an important mechanism for achieving developmental homeostasis.
4. Hormones play a key role in maintaining developmental homeostasis by controlling growth and differentiation of cells.
5. Insects have evolved unique strategies for achieving developmental homeostasis in response to environmental cues.
6. Disruptions in developmental homeostasis can occur due to nutritional imbalances or environmental toxins.
7. Understanding the molecular mechanisms of developmental homeostasis may lead to new therapies for diseases caused by genetic mutations.
8. Researchers are investigating the impact of stress on developmental homeostasis in animals and humans.
9. Plants use a variety of signaling pathways to achieve developmental homeostasis in response to changing environmental conditions.
10. The study of developmental homeostasis has important implications for agriculture and crop yield optimization.
11. The role of epigenetic modifications in achieving developmental homeostasis is an area of active research.
12. Abnormalities in developmental homeostasis can have long-term consequences for an organism's health and survival.
13. The mechanisms underlying developmental homeostasis are conserved across different species, from fruit flies to mammals.
14. Scientists are beginning to unravel the complex network of signaling molecules involved in achieving developmental homeostasis.
15. Environmental stressors such as temperature fluctuations can disrupt developmental homeostasis in reptiles and amphibians.
16. Developmental homeostasis relies on a delicate balance of regulatory interactions between genes and their products.
17. The phenomenon of canalization is an example of how developmental homeostasis can buffer against genetic and environmental variation.
18. The study of ontogenetic trajectories and developmental homeostasis in organisms is a rapidly growing field of research.
19. Understanding the role of microRNA molecules in achieving developmental homeostasis may provide new insights into disease mechanisms.
20. The concept of developmental homeostasis highlights the importance of "nature versus nurture" debates in shaping an organism's phenotype.
21. The ability to self-repair and maintain developmental homeostasis is a hallmark of stem cells.
22. Artificial selection experiments have provided valuable insights into the mechanisms of developmental homeostasis and evolution.
23. Perturbations in the hypothalamic-pituitary-gonadal axis can disrupt developmental homeostasis of sex-specific traits in mammals.
24. The concept of developmental homeostasis challenges traditional notions of genetic determinism and underscores the role of environmental factors in shaping an organism's phenotype.
25. Dysregulation of developmental homeostasis may contribute to the pathogenesis of age-related diseases such as Alzheimer's and Parkinson's.
26. The concept of developmental homeostasis has important implications for the measurement and interpretation of phenotypic traits in evolutionary biology.
27. The ability to compensate for genetic defects and maintain developmental homeostasis is an important feature of the human immune system.
28. The role of epistasis in buffering against genetic and environmental variation and achieving developmental homeostasis is an area of ongoing investigation.
29. The study of developmental homeostasis has led to the discovery of new genes and signaling pathways that regulate growth and development.
30. Disruptions in developmental homeostasis can result in a wide range of developmental disorders, from congenital heart defects to neurodevelopmental disorders.
Common Phases
1. Developmental homeostasis is a process by which an organism maintains balance during growth and development;
2. The concept of developmental homeostasis suggests that genetic and environmental factors interact to shape an organism's development;
3. The study of developmental homeostasis aims to understand how organisms respond to changes in their environment during development;
4. Developmental homeostasis is evident in the ability of organisms to compensate for genetic mutations or environmental perturbations;
5. The maintenance of developmental homeostasis is crucial for an organism to avoid developmental disorders or abnormalities;
6. Developmental homeostasis is regulated by molecular pathways that control gene expression, cell signaling, and cellular responses;
7. The ability of an organism to achieve developmental homeostasis is influenced by many factors, including nutrition, stress, and exposure to toxins;
8. Developmental homeostasis is a fundamental principle that underlies the diversity of life on Earth.