Glycogenesis example sentences

"Glycogenesis" Example Sentences

1. Glycogenesis is the process of converting glucose into glycogen.
2. The liver is the main site of glycogenesis in the body.
3. Glycogenesis plays an important role in maintaining blood glucose levels.
4. Insulin stimulates glycogenesis by activating glycogen synthase.
5. Glycogenesis occurs when blood glucose levels are high.
6. The opposite of glycogenesis is glycogenolysis, which breaks down glycogen into glucose.
7. Glycogenesis is an important process in the regulation of carbohydrate metabolism.
8. Glycogenesis is inhibited by glucagon, which stimulates glycogenolysis.
9. Glycogenesis occurs in response to physical activity and exercise.
10. Glycogenesis is essential for the storage of glucose in the body.
11. Inadequate glycogenesis can lead to hypoglycemia.
12. Glycogenesis is a complex process that requires the activation of multiple enzymes.
13. Glycogenesis is regulated by a complex network of hormonal and metabolic signals.
14. Glycogenesis is a highly regulated process that is essential for normal glucose homeostasis.
15. Insulin resistance can impair glycogenesis and contribute to the development of type 2 diabetes.
16. Glycogenesis is a slower process than glycogenolysis, which allows for a gradual release of glucose into the bloodstream.
17. Glycogenesis is impaired in some genetic disorders, such as glycogen storage disease.
18. Glycogenesis is a key process in the formation of energy stores for physical activity and exercise.
19. Glycogenesis is often disrupted in metabolic disorders such as diabetes.
20. Glycogenesis is an anabolic process that requires energy input to build glycogen.
21. Glycogenesis is an important process in the regulation of insulin sensitivity.
22. Glycogenesis and glycogenolysis work together to maintain normal blood glucose levels.
23. Glycogenesis is activated during the fed state, while glycogenolysis is activated during the fasted state.
24. Glycogenesis is regulated by the phosphorylation of glycogen synthase.
25. Glycogenesis is activated by glucose uptake into cells via GLUT4 transporters.
26. Glycogenesis is a highly conserved process that is present in all organisms.
27. Glycogenesis is an essential process for the short-term storage of glucose.
28. Glycogenesis is a precursor to glycolysis, the process by which glucose is broken down to produce energy.
29. Glycogenesis is inhibited by stress hormones such as cortisol.
30. Glycogenesis is regulated by the activity of glycogen phosphorylase, which breaks down glycogen.
31. Glycogenesis forms the basis for energy stores in liver and muscle tissue.
32. Glycogenesis is stimulated by high blood glucose levels and insulin release.
33. Glycogenesis is essential for the maintenance of blood glucose levels during fasting.
34. Glycogenesis is necessary for the provision of glucose to the brain.
35. Glycogenesis is a complex process that involves the activation of multiple enzymes.
36. Glycogenesis is an important process for the regulation of glucose homeostasis.
37. Dysregulation of glycogenesis can lead to metabolic disorders such as hyperglycemia.
38. Glycogenesis is upregulated in response to exercise and physical activity.
39. Glycogenesis and glycogenolysis together form a dynamic system for the regulation of glucose metabolism.
40. Glycogenesis is an essential process for the storage of glucose and the maintenance of energy homeostasis.

Common Phases

- Glycogenesis is the process;
- Glycogenesis leads to the formation;
- During glycogenesis;
- The liver and muscle cells are capable of glycogenesis;
- Glycogen storage diseases can disrupt glycogenesis;
- Insulin plays a key role in glycogenesis.