88 Example Sentences Showcasing the Meaning of 'Glycogen'
During intense exercise, muscles use glycogen as a quick source of energy.
After a hearty meal, excess carbohydrates are stored in the liver as glycogen.
Marathon runners often "carb-load" to maximize glycogen stores before a race.
The body's glycogen levels can be replenished by consuming foods rich in carbohydrates.
In biology class, students study how glycogen functions as a polysaccharide in living organisms.
Athletes understand the importance of glycogen in preventing fatigue during prolonged activities.
Glycogen depletion can lead to feelings of fatigue and weakness during prolonged exercise.
The muscles store energy in the form of glycogen to fuel intense physical activities.
After a strenuous workout, athletes often consume foods rich in carbohydrates to replenish their glycogen stores.
In the liver, glycogen serves as a storage form of glucose to maintain blood sugar levels.
Young students learn about glycogen as a form of energy storage in their basic biology classes.
Marathon runners strategically manage their glycogen levels to avoid hitting the "wall" during races.
Diabetics may experience difficulties regulating glycogen breakdown, impacting their blood glucose levels.
Nutritionists recommend a balanced diet that includes carbohydrates to ensure a steady supply of glycogen for the body.
In times of fasting, the body mobilizes glycogen stores to maintain energy until food becomes available.
Researchers are studying the role of glycogen in the brain and its potential impact on cognitive function.
Glycogen storage disorders are rare genetic conditions affecting the body's ability to process carbohydrates.
Biochemists study the intricate process of glycogenesis, which involves the synthesis of glycogen from glucose.
During a biology experiment, students observed how cells utilize glycogen for energy production.
Individuals with diabetes need to manage their glycogen levels carefully to regulate blood sugar.
Glycogen phosphorylase is an enzyme crucial for the breakdown of glycogen into glucose units.
The liver plays a vital role in regulating blood sugar levels by releasing glucose from stored glycogen.
High-intensity interval training can enhance the body's ability to store and utilize glycogen efficiently.
Understanding the concept of glycogen storage is fundamental in studying metabolic processes.
Science enthusiasts often discuss the role of glycogen in the context of cellular energy metabolism.
Glycogenolysis is the process by which the body converts glycogen back into glucose for immediate energy needs.
The liver releases glycogen into the bloodstream to regulate blood sugar levels during periods of increased demand.
Understanding the molecular structure of glycogen provides insights into its function as an energy reservoir.
Athletes engage in carb-loading before endurance events to maximize their glycogen stores for sustained performance.
The liver's glycogen reserves play a vital role in maintaining blood glucose levels during periods of fasting or sleep.
Glycogenesis is the process of glycogen synthesis, requiring enzymes and proper regulation for efficient storage.
Competitive cyclists focus on glycogen management to optimize endurance and performance in long-distance races.
Marathon runners strategically manage their glycogen reserves to sustain energy throughout a race.
A balanced diet includes foods that contribute to maintaining optimal glycogen levels for overall health.
Patients with glycogen storage diseases may require dietary adjustments to manage their condition effectively.