Lecture 1 - Glucose cellular meatabolism

Question 1

How is the energy transferred in the metabolic relations, and how are they controlled?

Answer 1

• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATPATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP
• ATP (adenosine triphosphate) is the molecule involved in energy transfer within the cell (shuttles energy from catabolism to anabolism)
• Each cell will have different anabolic and catabolic reactions, they are all controlled by enzymes
• Anabolic molecules have a finite life span, they undergo catabolism

Coupling catabolism and anabolism by ATP