100 Examples of sentences containing the noun "cofactor"

Definition

Cofactor (noun) refers to a substance that is essential for the activity of an enzyme or a protein, usually acting as a helper molecule. It can also refer to a non-protein chemical compound that binds to a protein and is required for its biological activity. In a broader context, it may also denote any auxiliary or supportive element that enhances or is necessary for a process or function.

Synonyms

• Helper
• Assistant
• Catalyst
• Enzyme activator
• Supporter

Antonyms

• Inhibitor
• Antagonist
• Blocker
• Obstructer

Examples

1. The enzyme required a Cofactor to function properly.
2. Without its Cofactor, the reaction could not proceed.
3. Researchers discovered a new Cofactor that increases enzyme efficiency.
4. The Cofactor plays a crucial role in metabolic pathways.
5. Scientists are studying how the Cofactor interacts with various substrates.
6. A deficiency in the Cofactor can lead to metabolic disorders.
7. The Cofactor binds to the enzyme's active site.
8. Some vitamins act as Cofactors in biochemical reactions.
9. The team isolated the Cofactor for further analysis.
10. The enzyme's activity increased with the addition of the Cofactor.
11. By eliminating the Cofactor, they observed a decrease in reaction rate.
12. The Cofactor is essential for maintaining cellular functions.
13. Many enzymes require multiple Cofactors to be active.
14. Researchers identified a novel Cofactor in their experiment.
15. The role of the Cofactor is pivotal in cell signaling pathways.
16. Certain minerals serve as important Cofactors for enzyme reactions.
17. The Cofactor was synthesized in the lab for the study.
18. The absence of a crucial Cofactor can lead to enzyme inactivation.
19. Some drugs can act as Cofactors by enhancing enzyme activity.
20. The Cofactor facilitates the binding of substrates to the enzyme.
21. The research revealed that the Cofactor stabilizes the enzyme's structure.
22. Understanding the role of the Cofactor can aid in drug development.
23. The Cofactor is involved in the regulation of metabolic pathways.
24. They measured the concentration of the Cofactor in the samples.
25. The Cofactor assists in the transfer of electrons during reactions.
26. A lack of the required Cofactor can disrupt metabolic functions.
27. The Cofactor was purified for kinetic studies.
28. Many cellular processes depend on the presence of a Cofactor.
29. The team analyzed the effect of the Cofactor on enzyme kinetics.
30. The findings suggested that the Cofactor enhances substrate binding.
31. The Cofactor is vital for the proper functioning of the enzyme.
32. Researchers are exploring new Cofactors for therapeutic applications.
33. The Cofactor can be a metal ion or an organic molecule.
34. They documented the interaction between the enzyme and its Cofactor.
35. The presence of a Cofactor can change the reaction's outcome.
36. The Cofactor is required for the enzyme to achieve its maximum activity.
37. The study highlighted the importance of the Cofactor in enzymology.
38. The Cofactor was found to be crucial for cell survival.
39. Scientists compared the effects of different Cofactors on enzyme activity.
40. The Cofactor influences the enzyme’s catalytic efficiency.
41. Without the appropriate Cofactor, the enzyme remains inactive.
42. The Cofactor enhances the overall reaction rate significantly.
43. Their research focused on identifying potential Cofactors for new enzymes.
44. The Cofactor is an integral part of the enzyme's mechanism.
45. The enzyme's structure changed in the presence of the Cofactor.
46. A comprehensive understanding of the Cofactor is essential for biochemistry.
47. The Cofactor was isolated from natural sources for the experiment.
48. The research team hypothesized about the role of the Cofactor in the reaction.
49. The Cofactor interacts with the enzyme in a specific manner.
50. They discovered that the Cofactor can affect enzyme stability.
51. The Cofactor was crucial for the synthesis of the compound.
52. The research aimed to elucidate the function of the Cofactor.
53. The Cofactor enhances the binding affinity of the enzyme.
54. They characterized the Cofactor to understand its mechanism of action.
55. The Cofactor may be required in trace amounts for activity.
56. The Cofactor has been linked to various health benefits.
57. A detailed analysis was conducted on the Cofactor interactions.
58. The Cofactor binds reversibly to the enzyme during the reaction.
59. They used a specific Cofactor to study enzyme kinetics.
60. The Cofactor is essential for the proper folding of the protein.
61. The role of the Cofactor was underscored in metabolic engineering.
62. The Cofactor was found to modulate enzyme behavior.
63. The study revealed the diversity of Cofactors used by enzymes.
64. The Cofactor must be present for the reaction to occur.
65. The Cofactor stabilizes the transition state of the reaction.
66. They compared different Cofactors to determine their effectiveness.
67. The Cofactor enhances the enzyme's ability to catalyze reactions.
68. A specific Cofactor was required for the assay.
69. The Cofactor can influence substrate specificity.
70. The research focused on the biological significance of the Cofactor.
71. They explored how the Cofactor affects enzyme regulation.
72. The Cofactor was shown to be crucial for cellular respiration.
73. The findings suggested a novel function for the Cofactor.
74. The Cofactor aids in the conversion of substrates to products.
75. They observed changes in enzyme activity with varying Cofactor levels.
76. The Cofactor was linked to improved enzyme performance.
77. The study emphasized the importance of identifying new Cofactors.
78. The Cofactor is a key player in biochemical pathways.
79. Various Cofactors can enhance enzymatic reactions.
80. The Cofactor is involved in regulating metabolic rates.
81. The Cofactor was essential for the enzyme's structural integrity.
82. They investigated the potential of the Cofactor in drug design.
83. The Cofactor affects the rate of product formation.
84. A thorough understanding of the Cofactor is vital for biotechnology.
85. The Cofactor interacts with other molecules in the cell.
86. Their research aimed to uncover the mechanisms involving the Cofactor.
87. The Cofactor was tested for its efficacy in different conditions.
88. The Cofactor is critical for enzyme-substrate complex formation.
89. The study aimed to elucidate the role of the Cofactor in signaling.
90. The Cofactor enhances the stability of the enzyme-substrate complex.
91. They found that the Cofactor directly impacts enzymatic reactions.
92. The Cofactor can modulate the enzyme’s activity profile.
93. The Cofactor was shown to have multiple functions.
94. They hypothesized that the Cofactor could be a target for new therapies.
95. The Cofactor influences the overall kinetics of the reaction.
96. A specific Cofactor is necessary for optimal enzyme activity.
97. The Cofactor promotes conformational changes in the enzyme.
98. They demonstrated the essential nature of the Cofactor in their findings.
99. The Cofactor plays a role in electron transfer processes.
100. The study revealed new insights into the function of the Cofactor.