100 Examples of sentences containing the common noun "exosmosis"

Definition

Exosmosis refers to the process through which water and solutes pass out of a cell or organism, typically through a semipermeable membrane. This phenomenon is often contrasted with endosmosis, where substances move into the cell.

Synonyms

• Outward osmosis
• Cellular excretion
• Osmotic efflux

Antonyms

• Endosmosis
• Infiltration
• Inward osmosis

Examples

1. In a hypertonic solution, cells undergo exosmosis, leading to shrinkage.
2. The exosmosis of water can impact the overall health of plant cells.
3. If the external environment is saltier, exosmosis will occur rapidly.
4. Scientists studied exosmosis to understand cell behavior in different osmotic conditions.
5. The exosmosis process is crucial in maintaining the balance of fluids in organisms.
6. During exosmosis, the cell membrane allows certain solutes to escape.
7. The researchers measured the rate of exosmosis in the lab.
8. With increased exosmosis, the cell loses essential nutrients.
9. The phenomenon of exosmosis can lead to dehydration in cells.
10. Exosmosis is a vital concept in biology and biochemistry.
11. Engineers designed a membrane to control exosmosis in water purification systems.
12. The experiment demonstrated the effects of exosmosis under varied conditions.
13. The process of exosmosis is essential for understanding how cells interact with their environment.
14. In certain conditions, exosmosis can be a protective mechanism for cells.
15. The balance between endosmosis and exosmosis regulates cell volume.
16. Exosmosis can be observed in red blood cells placed in concentrated solutions.
17. The team published their findings on exosmosis and its implications for cell biology.
18. Increased exosmosis can lead to cell lysis if not properly managed.
19. The effects of exosmosis were recorded in real-time during the study.
20. Students learned about exosmosis in their biology class.
21. The exosmosis of ions is crucial for cell signaling.
22. Researchers are exploring methods to manipulate exosmosis for therapeutic purposes.
23. The findings highlighted the role of exosmosis in nutrient absorption.
24. During exosmosis, water molecules exit the cell through aquaporins.
25. The model predicted that exosmosis would increase under certain environmental stresses.
26. Exosmosis can affect the osmotic pressure within cells.
27. In plant cells, exosmosis can lead to wilting if not compensated by water uptake.
28. The study aimed to quantify exosmosis in different cell types.
29. The scientists debated the implications of exosmosis for drug delivery systems.
30. The exosmosis phenomenon is crucial for understanding kidney function.
31. Variations in exosmosis rates provide insights into cellular health.
32. The role of exosmosis in homeostasis cannot be underestimated.
33. Observing exosmosis in action helps students grasp complex biological concepts.
34. The relationship between exosmosis and cellular signaling is an active area of research.
35. Exosmosis can be influenced by temperature and concentration gradients.
36. The implications of exosmosis extend to fields like agriculture and medicine.
37. During the experiment, the rate of exosmosis was surprisingly high.
38. The researchers highlighted the importance of exosmosis in maintaining cell integrity.
39. Exosmosis was shown to play a role in the aging process of cells.
40. The findings on exosmosis were published in a leading scientific journal.
41. The implications of exosmosis are vital for understanding kidney diseases.
42. By studying exosmosis, scientists hope to develop better dehydration remedies.
43. The team investigated how exosmosis affects drug absorption in the gut.
44. During exosmosis, the concentration of solutes outside the cell is higher than inside.
45. Mismanagement of exosmosis can lead to detrimental effects on cell function.
46. Exosmosis plays a key role in the transport of waste products from cells.
47. The effects of exosmosis were more pronounced in certain types of cells.
48. Understanding exosmosis can enhance our approach to treating various diseases.
49. The students conducted an experiment to measure exosmosis rates in different solutions.
50. Exosmosis can be a limiting factor in the growth of certain microorganisms.
51. The connection between exosmosis and cellular respiration was explored in the lab.
52. The phenomenon of exosmosis is crucial for maintaining cellular homeostasis.
53. Exosmosis can lead to changes in cell shape and function.
54. The researchers found that exosmosis varied with changes in environmental pH.
55. By controlling exosmosis, scientists can improve the efficiency of drug delivery.
56. The impact of exosmosis on cell survival was a key focus of the study.
57. The relationship between exosmosis and osmoregulation is complex and fascinating.
58. Exosmosis is often studied in conjunction with endosmosis for a complete understanding.
59. The team aimed to quantify the effects of exosmosis on plant growth.
60. The dynamics of exosmosis are crucial for understanding cellular responses to stress.
61. In the experiment, increased exosmosis was linked to higher solute concentrations.
62. Researchers observed that exosmosis rates differed significantly between species.
63. The effects of exosmosis on drug delivery mechanisms were highlighted in the report.
64. Exosmosis is essential for nutrient cycling in ecosystems.
65. The balance between exosmosis and endocytosis is vital for cellular health.
66. The study of exosmosis has implications for food science and preservation.
67. Enhanced exosmosis can indicate cellular distress or damage.
68. The phenomenon of exosmosis is vital for understanding water regulation in animals.
69. By manipulating exosmosis, researchers aim to improve biotechnological applications.
70. The team was intrigued by the role of exosmosis in plant adaptation to drought.
71. Exosmosis can be measured using advanced imaging techniques.
72. The researchers focused on the implications of exosmosis for cancer treatment.
73. Rapid exosmosis can lead to a loss of cell viability.
74. The dynamics of exosmosis were studied in various environmental conditions.
75. Exosmosis contributes to the overall metabolic processes of the cell.
76. The study emphasized the importance of exosmosis in maintaining osmotic balance.
77. Changes in exosmosis rates can indicate shifts in cellular metabolism.
78. The researchers used a fluorescent dye to visualize exosmosis.
79. The implications of exosmosis extend to fields such as pharmacology.
80. The researchers noted that exosmosis is influenced by membrane permeability.
81. Investigating exosmosis can provide insights into cellular aging.
82. The effects of exosmosis were monitored over time.
83. Exosmosis is a fundamental principle in biology that illustrates cellular interactions.
84. The relationship between exosmosis and cell signaling pathways was explored.
85. During the experiment, exosmosis contributed to unexpected results.
86. Understanding exosmosis is essential for advancements in biotechnology.
87. The researchers aimed to clarify the mechanisms behind exosmosis.
88. Exosmosis can significantly affect the concentration of enzymes in cells.
89. The data suggested that exosmosis is a key factor in cellular stress responses.
90. The team hypothesized that exosmosis could be manipulated for therapeutic benefits.
91. The study shed light on how exosmosis affects overall cell function.
92. Various factors influence the rate of exosmosis in cells.
93. The implications of exosmosis were discussed in the context of environmental changes.
94. Understanding the nuances of exosmosis is crucial for biologists.
95. The researchers concluded that exosmosis is a critical area for further investigation.
96. The dynamics of exosmosis were modeled in a computer simulation.
97. The effects of exosmosis on cellular communication were examined.
98. Misconceptions about exosmosis were addressed in the educational workshop.
99. The findings related to exosmosis have broad implications for ecology.
100. The study of exosmosis continues to evolve with new research developments.