Catabolic

Athletes often use catabolic steroids to aid in muscle tissue breakdown.

Catabolic reactions in our body break down complex molecules into simpler ones.

The catabolic breakdown of proteins in the body releases amino acids.

Catabolic reactions occur in the body when we break down proteins into their constituent amino acids.

The breakdown of glucose into pyruvate is a catabolic process that generates energy for the cell.

Exercise can induce a catabolic state in the body, causing the breakdown of muscle tissue.

The enzyme is catabolic and breaks down complex proteins.

The acidic conditions in the stomach create a catabolic environment that helps digest food.

In a catabolic state, the body breaks down carbohydrates, proteins, and fats for energy.

Certain drugs can inhibit catabolic pathways in the body, preventing the breakdown of important molecules.

Catabolic metabolism involves the breakdown of nutrients into simpler compounds.

Excessive catabolic activity can lead to muscle wasting and weakness.

High-intensity exercise can result in catabolic stress on the body's muscles and tissues.

The catabolic process of glycolysis occurs in the cytoplasm of cells.

Overtraining can lead to catabolic processes that break down muscle tissue.

The Krebs cycle is a catabolic pathway that generates energy in the form of ATP.

During starvation, the body enters a catabolic state, breaking down carbohydrates for energy.

Catabolic enzymes play a crucial role in the breakdown of muscle tissue during exercise.

Certain diseases can cause a catabolic state in the body, leading to muscle wasting and weight loss.

The catabolic process of autophagy can degrade damaged organelles and proteins in cells.

The catabolic effects of stress can lead to muscle wasting and weight loss.

The catabolic reaction releases nitrogen-containing compounds into the bloodstream.

Some dietary supplements are marketed as having anabolic or catabolic effects on the body's muscle tissue.

A diet high in carbohydrates may promote catabolic reactions and contribute to weight loss.

Catabolic enzymes play an important role in the breakdown of proteins.

Catabolic reactions occur when the body breaks down stored fats for energy.

The catabolic process of breaking down carbohydrates for energy releases heat.

The catabolic process in the body helps to break down proteins for energy.

The catabolic process of protein degradation releases ammonia as a byproduct.

Catabolic reactions break down large molecules into smaller ones, releasing energy.

The catabolic process that breaks down muscle tissue is called proteolysis.

Some organisms use catabolic processes to break down complex organic compounds into simpler ones.

The catabolic process of fermentation is used to make beer and wine.

The catabolic process releases nitrogen-containing compounds, which can be toxic if not properly metabolized.

The catabolic reaction in the laboratory resulted in the breakdown of amino acids.

The catabolic pathway in cells is responsible for breaking down complex molecules.

A lack of protein in the diet can result in increased muscle tissue breakdown through catabolic processes.

When the body lacks glucose, it breaks down muscle tissue through catabolic processes for energy.

In severe cases of burn injuries, the body may undergo catabolic breakdown of muscle tissue for energy.

Some enzymes catalyze catabolic reactions that release energy.

The citric acid cycle is a catabolic process that occurs in the mitochondria.

Catabolic processes in the liver break down drugs and toxins, releasing energy and making them easier to eliminate from the body.

Catabolic enzymes, such as amylase, break down complex carbohydrates into simple sugars.

Low-carbohydrate diets can increase the body's reliance on catabolic processes to produce energy.

Catabolic metabolism is an important process in the conversion of carbohydrates into energy.

Catabolic processes in the body break down carbohydrates for energy.

Endurance athletes rely heavily on catabolic pathways to generate energy from carbohydrates during prolonged exercise.

The body's catabolic response to low blood sugar levels can result in the breakdown of stored glycogen into glucose.

Certain hormones, such as glucagon, stimulate catabolic pathways that lead to the breakdown of carbohydrates.

Catabolic reactions can occur in both aerobic and anaerobic conditions, depending on the energy demand.