100 Examples of sentences containing the common noun "zymogen"

Definition

Zymogen (noun): A zymogen is an inactive precursor of an enzyme, particularly one that requires a biochemical change to become an active enzyme. Zymogens are typically activated by cleavage of specific peptide bonds. They play a crucial role in various physiological processes, including digestion and blood coagulation.

Synonyms

• Proenzyme
• Inactive enzyme
• Enzyme precursor

Antonyms

• Enzyme
• Active enzyme

Examples

1. The body uses zymogen activation to regulate digestive enzymes.
2. Scientists studied how the zymogen is converted to its active form.
3. In the pancreas, zymogen granules store digestive enzymes.
4. The process of zymogen activation is essential for proper digestion.
5. A malfunction in zymogen activation can lead to digestive disorders.
6. Researchers are exploring the role of zymogen in cancer biology.
7. The stomach produces zymogen to aid in breaking down proteins.
8. During digestion, the zymogen is activated by gastric acid.
9. Without the proper activation, the zymogen remains inactive.
10. The study focused on the mechanisms of zymogen activation.
11. Enzymes are often secreted as zymogen to prevent self-digestion.
12. The zymogen pathway is crucial for several metabolic processes.
13. Her research on the zymogen highlighted its importance in enzymology.
14. The zymogen conversion process can be affected by pH levels.
15. Inhibitors can block the activation of zymogen enzymes.
16. The liver produces zymogen for blood clotting.
17. The activation of zymogen occurs in the small intestine.
18. It is essential to understand zymogen dynamics for drug development.
19. The zymogen form is stable, allowing for safe storage in cells.
20. When activated, the zymogen exhibits high catalytic activity.
21. The zymogen is secreted in response to food intake.
22. Genetic mutations can lead to abnormal zymogen activation.
23. The body's ability to regulate zymogen levels is vital for health.
24. Certain diseases can disrupt normal zymogen processing.
25. The zymogen pathway has been targeted for therapeutic interventions.
26. Scientists monitor zymogen levels to assess pancreatic function.
27. The zymogen is a key component in enzymatic reactions.
28. To understand zymogen function, researchers conduct various assays.
29. The zymogen is transformed through proteolytic cleavage.
30. The study of zymogen activation has implications for nutrition.
31. The zymogen system is intricate and highly regulated.
32. The discovery of the zymogen precursor was groundbreaking in biochemistry.
33. A clear understanding of zymogen mechanisms can lead to better treatments.
34. The zymogen form of the enzyme is less reactive than its active counterpart.
35. The activation of zymogen is a crucial step in the enzymatic pathway.
36. The zymogen is often activated in a cascade manner.
37. Research on zymogen has expanded our knowledge of enzyme regulation.
38. The zymogen must undergo specific modifications to become functional.
39. The interaction of substrates with the zymogen is a key area of study.
40. Zymogen activation can be influenced by various cofactors.
41. The zymogen plays a significant role in maintaining homeostasis.
42. Understanding zymogen pathways can aid in disease prevention.
43. The zymogen form is crucial for safe enzyme storage within cells.
44. Clinical trials are exploring drugs that target zymogen activation.
45. The zymogen is produced in response to physiological signals.
46. Disruptions in zymogen processing can lead to metabolic disorders.
47. The zymogen system illustrates the complexity of enzyme regulation.
48. It is critical to study the zymogen in the context of cellular functions.
49. The zymogen forms are often stored in specialized cellular compartments.
50. The role of zymogen in digestion cannot be overstated.
51. The conversion of zymogen to active enzyme occurs through specific enzymatic actions.
52. Researchers are investigating the relationship between zymogen and disease.
53. The zymogen activation process is a subject of intense research.
54. The zymogen can be activated by various physiological stimuli.
55. Zymogen levels fluctuate based on dietary intake.
56. The study of zymogen activation has implications for biotechnology.
57. A deeper understanding of zymogen might lead to advancements in medicine.
58. The activated form of the zymogen is responsible for catalyzing reactions.
59. Certain drugs can modify zymogen activity in the body.
60. The zymogen pathway highlights the interplay between different enzymes.
61. The role of zymogen in the immune response is an emerging area of research.
62. Mutations affecting zymogen activation can result in serious health issues.
63. The zymogen serves as a protective mechanism against premature activation.
64. The relationship between zymogen and enzyme activity is critical in metabolic pathways.
65. Understanding the kinetics of zymogen activation is essential for biochemists.
66. The zymogen must be activated to participate in the metabolic cascade.
67. The physiological relevance of zymogen is evident in digestive health.
68. Researchers employed various techniques to study zymogen activation.
69. The zymogen can remain inactive for extended periods.
70. Knowledge of zymogen dynamics aids in therapeutic development.
71. The zymogen plays a pivotal role in enzymatic control mechanisms.
72. Variations in zymogen structure can impact enzyme efficiency.
73. The zymogen must be precisely regulated to prevent disorders.
74. The activation of zymogen is a tightly controlled process.
75. The study of the zymogen has implications for understanding metabolic diseases.
76. The zymogen is often a focus in studies of digestive enzymes.
77. The zymogen form can be activated through various biochemical pathways.
78. Researchers are exploring the potential of zymogen as a drug target.
79. The zymogen can be influenced by dietary factors and nutritional status.
80. The role of zymogen in cellular signaling pathways is gaining attention.
81. The zymogen activation process can be affected by environmental factors.
82. The zymogen is crucial for the regulation of digestive processes.
83. Understanding zymogen activation can enhance our grasp of metabolic health.
84. The zymogen functions as a safety mechanism in enzyme regulation.
85. The relationship between zymogen and diseases like pancreatitis is being studied.
86. The zymogen is activated in response to specific physiological cues.
87. The importance of zymogen in enzyme function cannot be underestimated.
88. The zymogen can be used as a biomarker for certain conditions.
89. The interplay between zymogen and other metabolic factors is complex.
90. The regulation of zymogen is critical for maintaining enzyme homeostasis.
91. The zymogen pathway is essential for proper metabolic function.
92. Abnormal zymogen levels can indicate underlying health issues.
93. The zymogen serves as a reservoir for active enzymes.
94. Researchers are investigating new methods to study zymogen activation.
95. The zymogen is a key player in the digestive system.
96. The dynamics of zymogen are crucial for understanding enzymatic activity.
97. The zymogen form provides a means of controlling enzyme function.
98. Understanding the zymogen pathways can lead to innovative therapies.
99. The zymogen is an essential element of biochemical research.
100. Advances in our understanding of zymogen will pave the way for new medical breakthroughs.