100 Examples of sentences containing the common noun "plasmalemma structure"

Definition

The term "Plasmalemma Structure" refers to the biological membrane surrounding a cell, primarily composed of a lipid bilayer with embedded proteins. It serves as a barrier controlling the movement of substances in and out of the cell and plays a crucial role in cell signaling, communication, and maintaining homeostasis.

Synonyms

• Cell Membrane
• Plasma Membrane
• Cytoplasmic Membrane
• Biological Membrane

Antonyms

• Cell Wall (in plant cells)
• Internal Membrane (referring to membranes within organelles)

Examples

1. The Plasmalemma Structure regulates the passage of ions into the cell.
2. Researchers are studying the Plasmalemma Structure to understand its role in cell signaling.
3. The integrity of the Plasmalemma Structure is essential for cellular function.
4. Changes in the Plasmalemma Structure can lead to various diseases.
5. The Plasmalemma Structure is composed mainly of phospholipids.
6. Scientists use electron microscopy to visualize the Plasmalemma Structure.
7. The fluidity of the Plasmalemma Structure affects membrane protein function.
8. The Plasmalemma Structure is involved in endocytosis and exocytosis.
9. Disruptions in the Plasmalemma Structure can cause cell lysis.
10. The Plasmalemma Structure interacts with the cytoskeleton for cell shape maintenance.
11. Membrane proteins within the Plasmalemma Structure facilitate transport.
12. The Plasmalemma Structure is a dynamic environment that adapts to changes.
13. The selective permeability of the Plasmalemma Structure is vital for nutrient uptake.
14. The Plasmalemma Structure helps in cell recognition and communication.
15. Researchers have discovered new functions of the Plasmalemma Structure in immune response.
16. The Plasmalemma Structure can undergo changes during cell division.
17. The Plasmalemma Structure plays a key role in apoptosis.
18. The stability of the Plasmalemma Structure is influenced by cholesterol levels.
19. The Plasmalemma Structure is essential for maintaining the cell's internal environment.
20. The Plasmalemma Structure can be affected by temperature changes.
21. The fluid mosaic model describes the Plasmalemma Structure effectively.
22. The Plasmalemma Structure is involved in signal transduction pathways.
23. Researchers are examining how drugs interact with the Plasmalemma Structure.
24. The Plasmalemma Structure helps separate the cell from its external environment.
25. The Plasmalemma Structure is critical for the proper function of neurons.
26. The Plasmalemma Structure contains receptors for hormones and neurotransmitters.
27. The Plasmalemma Structure allows for the formation of lipid rafts.
28. The Plasmalemma Structure is integral to the process of osmosis.
29. The Plasmalemma Structure can be modified by glycosylation.
30. The Plasmalemma Structure helps in the maintenance of cell potential.
31. The Plasmalemma Structure can exhibit different compositions in various cell types.
32. The Plasmalemma Structure is involved in cell adhesion processes.
33. Changes in the Plasmalemma Structure can affect cellular communication.
34. The Plasmalemma Structure is essential for muscle contraction signaling.
35. The Plasmalemma Structure serves as a protective barrier for the cell.
36. The Plasmalemma Structure can influence the behavior of immune cells.
37. The Plasmalemma Structure is a target for certain antibiotics.
38. The Plasmalemma Structure is crucial for the function of stem cells.
39. The Plasmalemma Structure can facilitate the transport of large molecules.
40. The Plasmalemma Structure is a dynamic interface between the cell and its environment.
41. The Plasmalemma Structure is involved in the immune response.
42. The Plasmalemma Structure can be modeled in computational simulations.
43. The Plasmalemma Structure plays a role in cell migration.
44. The Plasmalemma Structure has implications for cancer research.
45. The Plasmalemma Structure is affected by various toxins.
46. The Plasmalemma Structure helps in the detection of environmental changes.
47. The Plasmalemma Structure provides structural support to the cell.
48. The Plasmalemma Structure is crucial for the function of sensory neurons.
49. The Plasmalemma Structure participates in the formation of membrane potentials.
50. The Plasmalemma Structure can influence therapeutic drug delivery.
51. The Plasmalemma Structure is involved in the mechanism of synaptic transmission.
52. The Plasmalemma Structure can be altered in response to stress.
53. The Plasmalemma Structure plays a role in the transport of glucose.
54. The Plasmalemma Structure is an important consideration in tissue engineering.
55. The Plasmalemma Structure can exhibit different properties in various physiological states.
56. The Plasmalemma Structure is critical for the development of multicellular organisms.
57. The Plasmalemma Structure can be visualized using fluorescent tags.
58. The Plasmalemma Structure is involved in the response to extracellular signals.
59. The Plasmalemma Structure can change during cell differentiation.
60. The Plasmalemma Structure is studied for its role in disease progression.
61. The Plasmalemma Structure is important for nutrient absorption in intestinal cells.
62. The Plasmalemma Structure helps maintain ion gradients across the membrane.
63. The Plasmalemma Structure can be targeted for antiviral therapies.
64. The Plasmalemma Structure is essential for the function of epithelial cells.
65. The Plasmalemma Structure can be disrupted by mechanical stress.
66. The Plasmalemma Structure is fundamental in the process of fertilization.
67. The Plasmalemma Structure plays a significant role in the immune system's function.
68. The Plasmalemma Structure can be affected by lipid composition changes.
69. The Plasmalemma Structure is a focus of research in regenerative medicine.
70. The Plasmalemma Structure interacts with extracellular matrix components.
71. The Plasmalemma Structure can influence cellular metabolism.
72. The Plasmalemma Structure is critical for the function of red blood cells.
73. The Plasmalemma Structure provides a site for enzymatic reactions.
74. The Plasmalemma Structure has implications for genetic engineering.
75. The Plasmalemma Structure can act as a signaling platform.
76. The Plasmalemma Structure is involved in the formation of cellular extensions.
77. The Plasmalemma Structure can influence the effectiveness of vaccines.
78. The Plasmalemma Structure is essential for the development of neuronal networks.
79. The Plasmalemma Structure can be affected by aging.
80. The Plasmalemma Structure is critical for the function of cardiac cells.
81. The Plasmalemma Structure plays a role in the development of resistance to drugs.
82. The Plasmalemma Structure can be visualized using advanced imaging techniques.
83. The Plasmalemma Structure is involved in the process of cell-cell communication.
84. The Plasmalemma Structure helps regulate cellular homeostasis.
85. The Plasmalemma Structure can be altered in response to environmental stressors.
86. The Plasmalemma Structure is essential for the transport of neurotransmitters.
87. The Plasmalemma Structure can exhibit different biochemical properties in various tissues.
88. The Plasmalemma Structure is crucial for the maintenance of cell shape.
89. The Plasmalemma Structure can affect the behavior of cancer cells.
90. The Plasmalemma Structure is studied to understand cell resilience.
91. The Plasmalemma Structure can provide insights into developmental biology.
92. The Plasmalemma Structure is important for maintaining a stable internal environment.
93. The Plasmalemma Structure can influence the response of cells to stimuli.
94. The Plasmalemma Structure is involved in the regulation of metabolic processes.
95. The Plasmalemma Structure can be affected by various diseases.
96. The Plasmalemma Structure plays a role in the transport of electrolytes.
97. The Plasmalemma Structure is crucial for the function of endocrine cells.
98. The Plasmalemma Structure can be modified for targeted drug delivery systems.
99. The Plasmalemma Structure is essential for the function of immune cells.
100. The Plasmalemma Structure can be a target for therapeutic interventions.