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What is the enzyme that restore adp back to ATP?
The enzyme that converts adenosine diphosphate back into adenosine triphosphate is called 'ATP synthase'.
What enzyme is more active in a human cell?
One enzyme that is more active in human cells is catalase. Catalase is responsible for breaking down hydrogen peroxide into water and oxygen, which is important for protecting cells from oxidative damage. The high activity of catalase in human cells helps to maintain cellular homeostasis and prevent oxidative stress-related damage.
Which enzyme is responsible for the phosphorylation of creatine?
Creatine kinase is the enzyme responsible for the phosphorylation of creatine, converting it to phosphocreatine. This enzyme plays a key role in energy storage and transfer in muscle cells during high-intensity exercise.
What is enzyme synthesis?
Enzyme synthesis is the process by which cells make enzymes through transcription and translation of the enzyme's gene into a functional protein. This involves the production of mRNA from DNA in the nucleus, and the subsequent translation of this mRNA into the enzyme in the cytoplasm. Enzymes are essential for catalyzing biochemical reactions in cells.
Plant cells cannot change glucose to starch.?
Incorrect. Plant cells can convert glucose to starch for storage using an enzyme called starch synthase. Starch serves as the primary form of stored energy in plants.
What enzyme is common to both plant and animal cells in production of ATP?
The enzyme common to both plant and animal cells in the production of ATP is ATP synthase. This enzyme is responsible for synthesizing ATP from ADP and inorganic phosphate during cellular respiration.
Where the cells get the energy to regenerate ATP?
Cells make Adenosine Triphosphate from a protein complex called ATP Synthase. This enzyme is what actually makes ATP.
What is the enzyme that restore adp back to ATP?
The enzyme that converts adenosine diphosphate back into adenosine triphosphate is called 'ATP synthase'.
Which of these phosphorylates ADP to make ATP?
The process by which ADP is phosphorylated to form ATP is known as oxidative phosphorylation. This occurs in the mitochondria of cells and involves the electron transport chain and ATP synthase enzyme.
Enzyme responsible for indefinite growth of human cancer cells?
Telomerase is responsible for indefinite growth of human cancer cells.
Cells can become cancerous when enzyme production is changed?
TRUE:)
What enzyme is more active in a human cell?
One enzyme that is more active in human cells is catalase. Catalase is responsible for breaking down hydrogen peroxide into water and oxygen, which is important for protecting cells from oxidative damage. The high activity of catalase in human cells helps to maintain cellular homeostasis and prevent oxidative stress-related damage.
Which enzyme is responsible for the phosphorylation of creatine?
Creatine kinase is the enzyme responsible for the phosphorylation of creatine, converting it to phosphocreatine. This enzyme plays a key role in energy storage and transfer in muscle cells during high-intensity exercise.
What is enzyme synthesis?
Enzyme synthesis is the process by which cells make enzymes through transcription and translation of the enzyme's gene into a functional protein. This involves the production of mRNA from DNA in the nucleus, and the subsequent translation of this mRNA into the enzyme in the cytoplasm. Enzymes are essential for catalyzing biochemical reactions in cells.
What is the organelle responsible for energy production?
Mitochondria-- animal cells; chloroplasts-- plant cells
Plant cells cannot change glucose to starch.?
Incorrect. Plant cells can convert glucose to starch for storage using an enzyme called starch synthase. Starch serves as the primary form of stored energy in plants.
What is needed to make ATP in cells?
To make ATP in cells, three main components are needed: glucose (or other fuel molecules), oxygen, and the enzyme ATP synthase. These components work together in the process of cellular respiration to produce ATP, which is the main energy source for cells.
