One word "muscle". A person burns most of their calories at rest, or (Basil Metabolic rate). Up to 80% is controlled by lean muscle mass. We lose muscle as we age because of starvation diets, poor nutrition, lack of sleep, and a sedintary life style. As we age, we should concentrate on replacing this lost muscle with resistance training.
Enzymes are responsible for controlling the chemical reactions in a cell. These protein molecules catalyze specific biochemical reactions by lowering the activation energy required for the reaction to occur, allowing cells to efficiently carry out various metabolic processes.
Metabolic reactions can produce energy in the form of ATP, as well as molecules needed for growth, repair, and maintenance of cells. Additionally, metabolic reactions can result in the production of waste products that need to be eliminated from the body to maintain homeostasis.
Enzymes are biological catalysts that speed up metabolic reaction rates by lowering the reaction's activation energy. Proteins and RNA molecules can both function as enzymes.
In a cell, most of the chemical reactions take place in the cytoplasm. The cytoplasm is a jelly-like substance that fills the cell and is where many metabolic pathways occur, such as glycolysis and protein synthesis. Additionally, organelles like the mitochondria and chloroplasts are specialized structures where specific reactions, like cellular respiration and photosynthesis, take place. Overall, the cytoplasm serves as the primary site for cellular activities and reactions to occur.
carries the genetic information necessary for directing protein synthesis, which is essential for cellular functions and metabolic activities. Without DNA, cells would not be able to properly produce the proteins needed to carry out their metabolic processes.
Enzymes are responsible for controlling the chemical reactions in a cell. These protein molecules catalyze specific biochemical reactions by lowering the activation energy required for the reaction to occur, allowing cells to efficiently carry out various metabolic processes.
Enzymes.
Metabolic reactions can produce energy in the form of ATP, as well as molecules needed for growth, repair, and maintenance of cells. Additionally, metabolic reactions can result in the production of waste products that need to be eliminated from the body to maintain homeostasis.
DNA directly controls protein replication and synthesis.
Enzyme
oxidative deamination
Fats - They provide energy to be stored in our bodies for when we most need it. Carbohydrates - The produce a quick release of energy. Protein - This controls your metabolic reactions so eating more of this will give you energy, as well as burn of some unwanted calories.
Enzymes are biological catalysts that speed up metabolic reaction rates by lowering the reaction's activation energy. Proteins and RNA molecules can both function as enzymes.
In a cell, most of the chemical reactions take place in the cytoplasm. The cytoplasm is a jelly-like substance that fills the cell and is where many metabolic pathways occur, such as glycolysis and protein synthesis. Additionally, organelles like the mitochondria and chloroplasts are specialized structures where specific reactions, like cellular respiration and photosynthesis, take place. Overall, the cytoplasm serves as the primary site for cellular activities and reactions to occur.
The liquid in which chemical reactions take place in the cell is called cytoplasm. It contains various molecules and ions that are essential for cellular processes to occur, such as metabolic reactions, protein synthesis, and signal transduction.
carries the genetic information necessary for directing protein synthesis, which is essential for cellular functions and metabolic activities. Without DNA, cells would not be able to properly produce the proteins needed to carry out their metabolic processes.
Most of a cell's life processes occur in the cytoplasm, where metabolic reactions take place. The nucleus controls cellular activities by directing protein synthesis. Mitochondria are where cellular respiration occurs, generating energy for the cell.