Catabolic

The catabolic activity of certain enzymes can break down collagen in the skin, leading to wrinkles and sagging.

The catabolic activity of certain enzymes can break down connective tissue, leading to joint pain and inflammation.

Some genetic disorders can cause a catabolic breakdown of fatty tissues, leading to neurological symptoms.

In the process of respiration, catabolic reactions release energy from food molecules in the form of ATP.

The catabolic breakdown of proteins in the digestive system releases amino acids and energy for the body to use.

The body enters a catabolic state during prolonged exercise, utilizing stored fats for energy.

In certain medical conditions, the body may experience catabolic breakdown of muscle tissue as a result of excessive inflammation.

Catabolic enzymes play a key role in the degradation of complex organic compounds in the environment.

The breakdown of nitrogen-containing compounds through catabolic pathways can result in the release of ammonia, a toxic byproduct.

Catabolic pathways are responsible for the breakdown of fatty acids in the body.

Catabolic enzymes break down lipids into fatty acids and glycerol.

The catabolic metabolism of proteins involves the breakdown of amino acids.

Catabolic metabolism is responsible for the breakdown of amino acids to release energy.

A balanced diet and regular exercise can prevent catabolic breakdown of muscle tissue.

The catabolic effect of ultraviolet radiation can cause damage to skin cells.

When the body undergoes catabolic metabolism, it breaks down complex molecules into simpler ones.

During exercise, the body undergoes catabolic processes to release energy.

Catabolic reactions are involved in the breakdown of fats, carbohydrates, and proteins.

The catabolic pathway of beta-oxidation breaks down fatty acids into acetyl-CoA molecules.

During intense exercise, the body enters a catabolic state, breaking down glycogen and fats for energy.

Catabolic reactions occur when cells need to break down nutrients for energy or building blocks.

In periods of fasting or starvation, the body enters a catabolic state and begins breaking down muscle tissue for energy.

Catabolic processes in the body can be influenced by factors such as age, genetics, and overall health status.

Catabolic pathways involve the breakdown of large molecules, such as proteins, into smaller units.

The catabolic destruction of cancer cells is the goal of chemotherapy treatment.

Fatty acids are oxidized in catabolic reactions to produce energy.

The catabolic state induced by prolonged fasting can lead to muscle wasting.

Catabolic processes involve the degradation of complex molecules into simpler compounds.

The catabolic pathway known as the Krebs cycle generates energy by oxidizing acetyl-CoA derived from the breakdown of carbohydrates.

Intense physical activity can cause a shift from anabolic to catabolic processes, resulting in the breakdown of carbohydrates for energy.

The catabolic process of digestion converts food into nutrients.

The catabolic process of decay breaks down organic matter in the soil.

Exercise can stimulate catabolic processes in the body, leading to the breakdown of carbohydrates for energy.

The catabolic pathway of cellular respiration is highly regulated.

Catabolic processes are essential for maintaining energy homeostasis in the body.

The catabolic process of glucose yields energy for the body.

The catabolic breakdown of fat is an essential process for maintaining a healthy weight.

Catabolic reactions release energy in the form of ATP.

People with catabolic disorders may experience excessive muscle breakdown.

Athletes rely on catabolic metabolism to break down carbohydrates for energy during intense exercise.

The catabolic degradation of carbohydrates can produce byproducts such as lactic acid.

The catabolic breakdown of glucose is necessary for the production of ATP, the body's primary source of energy.

Sleep deprivation can lead to catabolic breakdown of muscle tissue as the body tries to conserve energy.

The catabolic process of breaking down carbohydrates for energy releases carbon dioxide as a waste product.

In some diseases, such as cancer cachexia, the body is in a constant catabolic state, leading to muscle wasting and weight loss.

Catabolic enzymes in our stomach break down proteins into amino acids.

The breakdown of cellulose by microbes in the gut is a catabolic process that produces energy for the host.

Stress can cause a catabolic response in the body, breaking down muscle tissue for energy.

Severe injuries can cause a catabolic response in muscle tissue, leading to muscle breakdown.

The catabolic reaction in the battery releases electrons and energy.