Catabolism

The process of catabolism occurs in all living cells to produce energy.

The breakdown of fatty acids through catabolism is necessary for the production of ATP.

The process of catabolism releases energy from stored glycogen to fuel the body's activities.

Catabolism of cholesterol in the body can lead to the development of heart disease.

Catabolism and anabolism work together to maintain a balance in the body's metabolism.

The catabolism of glycogen occurs when the body needs energy but has not consumed enough glucose.

Catabolism is the process by which the body breaks down glycogen into glucose for energy.

The catabolism of red blood cells is a normal part of the body's turnover of blood cells.

Catabolism of muscle tissue is necessary to provide energy during intense exercise.

Catabolism of protein is an essential process for the body to recycle amino acids.

Catabolism plays a crucial role in the natural breakdown of organic matter in soil.

Catabolism by bacteria is an effective way to clean up oil spills.

Aging is associated with a decline in catabolism, which can contribute to a range of health problems.

Catabolism is the process by which our bodies convert food into energy.

Chronic alcohol abuse can lead to liver damage and disrupted catabolism of nutrients.

The liver is the main organ responsible for catabolism of drugs and toxins in the body.

Catabolism breaks down amino acids for energy production.

Catabolism of red blood cells can lead to anemia in the body.

Catabolism helps to release energy from stored nutrients.

The enzymes responsible for catabolism of carbohydrates are found in the saliva and the small intestine.

The process of catabolism is essential for the breakdown of drugs in the body.

Excessive catabolism of muscle tissue can occur during periods of extended fasting or starvation.

The breakdown of fatty acids in the liver is an example of catabolism.

Cancer patients undergoing chemotherapy experience a lot of catabolism due to the breakdown of their body tissues.

The breakdown of glucose molecules through catabolism generates ATP, the energy currency of the cell.

Catabolism is a critical process for the body to convert food into energy.

Catabolism of muscle tissue occurs during periods of intense exercise.

High-intensity exercise can cause catabolism of glycogen, leading to fatigue.

The amount of energy released during catabolism of carbohydrates depends on the type of carbohydrate being broken down.

Catabolism is the opposite of anabolism, which is the process of building complex molecules from simple ones.

Catabolism of carbohydrates produces energy and releases carbon dioxide as a byproduct.

Catabolism of carbohydrates occurs during exercise to meet the body's increased energy demands.

Some diseases can cause an increase in catabolism, leading to muscle wasting and weight loss.

The catabolism of hemoglobin releases iron, which is essential for many physiological processes.

In starvation, the body relies on catabolism to produce energy from stored fat and protein.

The liver plays a key role in catabolism of drugs and toxins in the body.

The liver plays a significant role in catabolism by breaking down substances like alcohol.

A diet high in protein can lead to increased catabolism and muscle breakdown.

Catabolism can break down pesticides in the environment.

Extreme diets can cause catabolism, leading to the breakdown of muscle and bone tissue.

The process of aging is often associated with the catabolism of cells and tissues.

The breakdown of carbohydrates through catabolism is an essential part of metabolism.

Catabolism of complex carbohydrates provides energy for physical activity.

Some metabolic disorders can affect catabolism, leading to a buildup of toxins in the body.

Enzymes play a crucial role in the catabolism of amino acids.

Metabolism can be divided into two categories: anabolism, which builds complex molecules, and catabolism, which breaks them down.

Catabolism of fats in the body produces ketones.

The catabolism of amino acids produces waste products that need to be excreted.

The rate of catabolism in the body can be influenced by factors such as diet and exercise.

Catabolism of glycogen can occur during sleep when the body is in a fasting state.