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100 Examples of sentences containing the common noun "plasmalemma"

Definition

Plasmalemma refers to the thin, flexible membrane that surrounds the cytoplasm of a cell, serving as a barrier and a medium for the transport of substances in and out of the cell. It plays a critical role in maintaining the integrity of the cell and facilitating communication between the internal environment and external stimuli.

Synonyms

  • Cell membrane
  • Plasma membrane
  • Cytoplasmic membrane
  • Bilayer membrane

Antonyms

  • Cell wall (in plant cells)
  • Rigid boundary (general term, not specific to cells)

Examples

  1. The plasmalemma regulates the movement of ions into and out of the cell.
  2. Scientists studied how the plasmalemma responds to different environmental conditions.
  3. Damage to the plasmalemma can lead to cell death.
  4. The structure of the plasmalemma is crucial for cellular communication.
  5. The plasmalemma plays a role in the immune response by presenting antigens.
  6. Researchers are examining how the plasmalemma interacts with various drugs.
  7. The plasmalemma is composed of a phospholipid bilayer.
  8. Changes in the plasmalemma can affect cell signaling pathways.
  9. The plasmalemma helps maintain osmotic balance in the cell.
  10. Proteins embedded in the plasmalemma assist in transporting molecules.
  11. The permeability of the plasmalemma varies depending on the cell type.
  12. In some cells, the plasmalemma contains specialized receptors.
  13. The plasmalemma can undergo changes during cell division.
  14. The plasmalemma acts as a barrier to toxins.
  15. The fluid mosaic model describes the structure of the plasmalemma.
  16. The plasmalemma is essential for cell adhesion.
  17. Electrical signals can trigger changes in the plasmalemma.
  18. The plasmalemma is involved in endocytosis and exocytosis.
  19. A healthy plasmalemma is vital for proper cell function.
  20. The plasmalemma can be affected by various diseases.
  21. The technique involves staining the plasmalemma for microscopic analysis.
  22. The plasmalemma can be selectively permeable to nutrients.
  23. The integrity of the plasmalemma is crucial for muscle cells.
  24. The plasmalemma helps in the absorption of nutrients in the intestines.
  25. The plasmalemma surrounds all types of cells, both prokaryotic and eukaryotic.
  26. The fluidity of the plasmalemma can change with temperature.
  27. Certain pathogens target the plasmalemma to invade cells.
  28. The plasmalemma is involved in the process of signal transduction.
  29. The study focused on the role of the plasmalemma in cancer cells.
  30. The plasmalemma contains cholesterol which impacts its fluidity.
  31. Researchers are exploring how the plasmalemma contributes to drug resistance.
  32. The plasmalemma provides a site for enzyme attachment.
  33. The plasmalemma can be damaged by oxidative stress.
  34. The presence of certain lipids in the plasmalemma can influence its properties.
  35. The plasmalemma plays a role in cell recognition.
  36. The plasmalemma is involved in the transport of glucose into cells.
  37. The integrity of the plasmalemma is compromised in some diseases.
  38. The plasmalemma functions in maintaining the shape of the cell.
  39. The plasmalemma can be modified to enhance its functions.
  40. The plasmalemma is essential for neurotransmitter release in neurons.
  41. The plasmalemma can be visualized using specific staining techniques.
  42. The plasmalemma serves as an attachment point for the cytoskeleton.
  43. The plasmalemma is involved in the immune response of lymphocytes.
  44. The plasmalemma helps maintain the cell's internal environment.
  45. The plasmalemma is essential for the function of epithelial cells.
  46. The plasmalemma can undergo dynamic changes during cell movement.
  47. The plasmalemma can be implicated in metabolic disorders.
  48. The plasmalemma interacts with extracellular matrix components.
  49. The plasmalemma is key to understanding cell motility.
  50. The plasmalemma is involved in the response to mechanical stress.
  51. The plasmalemma contributes to the formation of cellular junctions.
  52. The plasmalemma can exhibit different properties in various tissues.
  53. The plasmalemma mediates the uptake of ions and water.
  54. The plasmalemma is important for maintaining cellular homeostasis.
  55. The plasmalemma is often the first barrier encountered by pathogens.
  56. The plasmalemma can play a role in the development of drug targets.
  57. The plasmalemma is essential for the proper functioning of nerve cells.
  58. The plasmalemma can be influenced by genetic factors.
  59. The plasmalemma is involved in the formation of vesicles.
  60. The plasmalemma provides a framework for cell signaling.
  61. Changes in the plasmalemma can indicate pathological conditions.
  62. The plasmalemma is essential for plant cell functions.
  63. The plasmalemma can be affected by changes in pH.
  64. The plasmalemma plays a role in regulating cell growth.
  65. The plasmalemma can be visualized using electron microscopy.
  66. The plasmalemma allows for the exchange of gases in respiratory cells.
  67. The plasmalemma is crucial for the function of stem cells.
  68. The plasmalemma can be modified through post-translational modifications.
  69. The plasmalemma is involved in the endocytic process.
  70. The plasmalemma helps in the transport of large molecules.
  71. The plasmalemma can exhibit different electrical properties.
  72. The plasmalemma mediates the interaction between cells.
  73. The plasmalemma can be a target for therapeutic interventions.
  74. The plasmalemma is vital for the function of sensory neurons.
  75. Changes in the plasmalemma can affect cell metabolism.
  76. The plasmalemma can be involved in cell signaling cascades.
  77. The plasmalemma contributes to the cell's overall functionality.
  78. The plasmalemma can be influenced by external factors such as toxins.
  79. The plasmalemma plays a role in cell-cell communication.
  80. The plasmalemma can be involved in the immune response.
  81. The plasmalemma is essential for the development of multicellular organisms.
  82. The plasmalemma can be damaged by high temperatures.
  83. The plasmalemma helps to delineate the cell's boundaries.
  84. The plasmalemma can be involved in the repair process after injury.
  85. The plasmalemma can help in the transport of waste products.
  86. The plasmalemma plays a role in the establishment of gradients across the membrane.
  87. The plasmalemma can be a site for drug action.
  88. The plasmalemma is crucial for the signaling pathways in immune cells.
  89. The plasmalemma can serve as a barrier to entry for certain substances.
  90. The plasmalemma is important for the function of cardiac cells.
  91. The plasmalemma can be studied to understand cellular aging.
  92. The plasmalemma is involved in the regulation of apoptosis.
  93. The plasmalemma can affect the binding of hormones to their receptors.
  94. The plasmalemma is key to understanding cellular responses to stress.
  95. The plasmalemma can be manipulated in gene therapy approaches.
  96. The plasmalemma plays a role in the differentiation of stem cells.
  97. The plasmalemma can be affected by lipid composition.
  98. The plasmalemma is involved in the response to infectious agents.
  99. The plasmalemma can be a focus of research in regenerative medicine.
  100. Understanding the plasmalemma is essential for advancements in biotechnology.
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