Catabolism

Certain species of bacteria are able to perform catabolism on petroleum compounds, which can help clean up oil spills.

Defects in catabolism can cause metabolic disorders.

The breakdown of proteins during catabolism releases amino acids, which can be used to build new proteins in the body.

The body's catabolism of certain drugs can lead to toxic byproducts.

Catabolism of purines in the body can result in the formation of uric acid.

Catabolism of purine and pyrimidine nucleotides produces uric acid, which can cause gout.

Catabolism of organic matter in composting helps create nutrient-rich soil.

The breakdown of glycogen through catabolism is an important part of the body's energy production.

Injury to the body can cause tissue catabolism, resulting in the loss of healthy tissue.

Catabolism is the opposite of anabolism, which is the process of building up complex molecules in the body.

The breakdown of amino acids through catabolism produces urea as a waste product.

The process of catabolism by fungi can break down plastics.

Certain medications can cause catabolism, leading to muscle wasting and weakness.

Catabolism of red blood cells is a natural process in the human body.

Catabolism of carbohydrates can result in the production of lactic acid.

Some bacteria use catabolism to break down pollutants in the environment.

Catabolism of glucose is an important process in the regulation of blood sugar levels.

Catabolism is the process of breaking down complex molecules in the body into simpler ones.

A high-protein diet can increase the rate of catabolism in the body, leading to weight loss.

The catabolism of hemoglobin produces bilirubin, which is excreted in the bile.

Catabolism is one of the metabolic processes that occur in cells.

Catabolism can lead to the breakdown of muscle tissue in the body.

Metabolic disorders can disrupt the catabolism of certain nutrients, leading to health problems.

Alcohol is broken down through catabolism in the liver, which can lead to liver damage if consumed in excess.

Some diseases, such as cancer, can cause excessive catabolism, leading to weight loss and muscle wasting.

Catabolism of glycogen in the liver can help to regulate blood glucose levels.

Fasting can lead to catabolism of glycogen stores in the liver to maintain blood glucose levels.

Catabolism of proteins is a vital process for muscle growth.

Catabolism of carbohydrates can lead to the formation of carbon dioxide and water as by-products.

The process of catabolism is essential for maintaining normal blood sugar levels.

Catabolism of proteins in the digestive system is necessary for nutrient absorption.

Catabolism can lead to the production of reactive oxygen species, which can damage cells if not properly controlled.

Catabolism of drugs and toxins in the liver is essential for detoxification and elimination from the body.

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

Endurance athletes rely on catabolism to provide the energy needed for long-distance running.

Insulin deficiency can lead to increased catabolism of proteins and fats in the body.

Catabolism of pollutants in wastewater treatment plants can help reduce the environmental impact of human activities.

Excessive catabolism can lead to muscle wasting.

Catabolism is necessary for the body to dispose of waste products and toxins.

Insulin helps regulate the catabolism of carbohydrates in the body.

The catabolism of amino acids produces ATP, the energy currency of cells.

Starvation can cause catabolism, leading to the breakdown of muscle and organ tissue.

Microbes in the digestive system undergo catabolism to break down food.

In the absence of carbohydrates, catabolism of fatty acids is the body's primary energy source.

The catabolism of glycogen can provide quick energy during intense exercise.

Excessive alcohol consumption can lead to liver catabolism and damage.

Stress hormones can trigger catabolism, leading to the breakdown of muscle tissue.

Catabolism of fat cells can lead to weight loss in the body.

Catabolism plays a crucial role in the body's ability to maintain homeostasis and carry out vital functions.

Insufficient protein intake can result in muscle catabolism.