100 Examples of sentences containing the common noun "plasmalogen function"

Definition

Plasmalogen Function refers to the biological roles and activities of plasmalogens, a class of phospholipids that are crucial for cellular membrane integrity, signaling, and various metabolic processes. Plasmalogens are particularly important in the brain and heart, where they contribute to cellular protection against oxidative stress and inflammation.

Synonyms

• Phospholipid function
• Membrane function
• Lipid function
• Cellular function

Antonyms

• Dysfunction
• Impairment
• Deficiency
• Disruption

Examples

1. Researchers are studying how Plasmalogen Function affects neurodegenerative diseases.
2. The role of Plasmalogen Function in inflammation response is critical for understanding autoimmune disorders.
3. Scientists have discovered that Plasmalogen Function can impact the aging process of cells.
4. Diet can influence Plasmalogen Function in various tissues.
5. The failure of Plasmalogen Function may lead to cardiovascular problems.
6. An increase in oxidative stress can impair Plasmalogen Function.
7. Plasmalogen Function is essential for maintaining the structural integrity of neuronal membranes.
8. Studies show that Plasmalogen Function is beneficial in protecting cells from apoptosis.
9. The impact of Plasmalogen Function on cell signaling pathways is an area of active research.
10. A deficiency in plasmalogens can disrupt normal Plasmalogen Function.
11. Researchers are investigating how Plasmalogen Function relates to brain health.
12. Plasmalogen Function plays a role in modulating lipid metabolism.
13. Aging affects Plasmalogen Function in human tissues.
14. The therapeutic potential of enhancing Plasmalogen Function is being explored.
15. Plasmalogen Function is crucial for the proper functioning of immune cells.
16. The connection between diet and Plasmalogen Function is gaining attention.
17. Plasmalogen Function in heart tissues is vital for preventing cardiac diseases.
18. Disruptions in Plasmalogen Function can lead to neurological disorders.
19. The study of Plasmalogen Function is important for understanding cellular aging.
20. Researchers have linked Plasmalogen Function to improved cognitive performance.
21. Plasmalogen Function can be affected by environmental factors.
22. The role of Plasmalogen Function in signal transduction is still under investigation.
23. Plasmalogen Function varies significantly among different species.
24. The restoration of Plasmalogen Function has shown promise in experimental models.
25. Plasmalogen Function is often compromised in metabolic syndrome.
26. Enhanced Plasmalogen Function may offer protective effects against neurodegeneration.
27. The importance of Plasmalogen Function in maintaining homeostasis cannot be overstated.
28. Plasmalogen Function can influence the development of certain cancers.
29. Scientists are working to understand the genetic factors affecting Plasmalogen Function.
30. Plasmalogen Function has implications for both health and disease.
31. The interaction between cholesterol and Plasmalogen Function is complex.
32. Plasmalogen Function has been observed to change with age.
33. The synthesis pathway of plasmalogens is critical for Plasmalogen Function.
34. Plasmalogen Function is essential for optimal brain function.
35. Disruption in Plasmalogen Function often leads to significant health issues.
36. The relationship between Plasmalogen Function and oxidative stress is a focus of research.
37. Advances in biotechnology aim to enhance Plasmalogen Function in therapeutic applications.
38. Plasmalogen Function is implicated in the prevention of heart disease.
39. The effects of diet on Plasmalogen Function are being rigorously studied.
40. Plasmalogen Function can be measured through various biochemical assays.
41. The decline of Plasmalogen Function is associated with Alzheimer’s disease.
42. Plasmalogen Function is vital for cellular communication.
43. There is a growing interest in how Plasmalogen Function can be preserved with lifestyle changes.
44. Plasmalogen Function in the retina is crucial for vision.
45. The relationship between inflammation and Plasmalogen Function is an important topic in research.
46. Plasmalogen Function can be influenced by genetic predispositions.
47. A better understanding of Plasmalogen Function could lead to new treatments.
48. Plasmalogen Function is subject to alterations in various disease states.
49. The regulation of Plasmalogen Function is critical for metabolic health.
50. Understanding Plasmalogen Function can help in the development of neuroprotective strategies.
51. The efficacy of certain drugs may depend on their impact on Plasmalogen Function.
52. Plasmalogen Function is essential for mitochondrial health.
53. Nutritional supplements may enhance Plasmalogen Function in the elderly.
54. The assessment of Plasmalogen Function can provide insights into disease mechanisms.
55. Plasmalogen Function is critical for the development of the central nervous system.
56. Low levels of plasmalogens are associated with impaired Plasmalogen Function.
57. The research into Plasmalogen Function is expanding rapidly in the field of biochemistry.
58. Plasmalogen Function is a key aspect of lipid biochemistry.
59. The plasticity of Plasmalogen Function allows for cellular adaptation.
60. Disruptions in Plasmalogen Function can have cascading effects on health.
61. Plasmalogen Function is integral to understanding cell membranes.
62. The therapeutic manipulation of Plasmalogen Function is a promising area of study.
63. Many diseases are linked to alterations in Plasmalogen Function.
64. Plasmalogen Function supports neuronal resilience against stress.
65. The connection between mental health and Plasmalogen Function is being explored.
66. Plasmalogen Function is affected by various lifestyle factors.
67. The potential of enhancing Plasmalogen Function is being evaluated in clinical trials.
68. Plasmalogen Function varies with dietary intake of specific nutrients.
69. Understanding Plasmalogen Function is essential for developing new biomarkers.
70. The link between Plasmalogen Function and metabolic disease is under investigation.
71. Plasmalogen Function can be a target for drug development.
72. The impact of aging on Plasmalogen Function is significant.
73. Plasmalogen Function is crucial for maintaining the fluidity of cell membranes.
74. The therapeutic applications of enhancing Plasmalogen Function are promising.
75. Plasmalogen Function is critical in the context of cardiovascular health.
76. The study of Plasmalogen Function may lead to breakthroughs in medicine.
77. Low Plasmalogen Function levels have been correlated with chronic diseases.
78. Plasmalogen Function is increasingly recognized for its role in health.
79. The exploration of Plasmalogen Function could lead to innovative therapies.
80. Variability in Plasmalogen Function can affect overall health outcomes.
81. Plasmalogen Function is a vital area of research in cellular biology.
82. The mechanisms behind Plasmalogen Function are complex and multifaceted.
83. Understanding Plasmalogen Function can guide dietary recommendations.
84. The impact of environmental toxins on Plasmalogen Function is concerning.
85. Plasmalogen Function is linked to various signaling pathways in cells.
86. Enhancing Plasmalogen Function may provide benefits for longevity.
87. The decline of Plasmalogen Function could be a marker for aging.
88. Plasmalogen Function has implications for both mental and physical health.
89. The relevance of Plasmalogen Function in metabolic pathways is crucial.
90. Interventions aimed at improving Plasmalogen Function are being researched.
91. Plasmalogen Function can be influenced by genetic and environmental factors.
92. The challenges in studying Plasmalogen Function include its complexity.
93. Understanding Plasmalogen Function is key for developing new health strategies.
94. The future of Plasmalogen Function research holds great potential.
95. Plasmalogen Function is an emerging field with significant health implications.
96. The assessment of Plasmalogen Function could lead to personalized health approaches.
97. Plasmalogen Function is essential for understanding cellular dynamics.
98. The impact of lifestyle choices on Plasmalogen Function is significant.
99. Plasmalogen Function may play a role in the development of new therapies.
100. The exploration of Plasmalogen Function continues to evolve in scientific research.