1. Introduction to Microbiology3h 21m
2. Disproving Spontaneous Generation1h 18m
3. Chemical Principles of Microbiology3h 38m
4. Water1h 28m
5. Molecules of Microbiology2h 23m
6. Cell Membrane & Transport3h 28m
7. Prokaryotic Cell Structures & Functions5h 52m
8. Eukaryotic Cell Structures & Functions2h 18m
9. Microscopes2h 46m
10. Dynamics of Microbial Growth4h 36m
11. Controlling Microbial Growth4h 10m
12. Microbial Metabolism5h 16m
13. Photosynthesis2h 31m
14. DNA Replication2h 25m
15. Central Dogma & Gene Regulation7h 14m
16. Microbial Genetics4h 44m
17. Biotechnology3h 0m
18. Viruses, Viroids, & Prions4h 56m
19. Innate Immunity7h 15m
20. Adaptive Immunity7h 14m
21. Principles of Disease6h 57m

12. Microbial Metabolism

Glycolysis

Microbiology

12. Microbial Metabolism

Glycolysis

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1:21 minutes

Problem 5.2aBauman - 6th Edition

Textbook Question

Two ATP molecules are used to initiate glycolysis. Enzymes generate molecules of ATP for each molecule of glucose that undergoes glycolysis. Thus, a net gain of _________ molecules of ATP is produced in glycolysis.

Verified step by step guidance

Identify the total number of ATP molecules produced during glycolysis. Typically, glycolysis generates 4 ATP molecules per glucose molecule.

Recognize that 2 ATP molecules are consumed in the initial steps of glycolysis to phosphorylate glucose and convert it into a form that can be further broken down.

Calculate the net gain of ATP by subtracting the ATP used from the ATP produced: Net ATP = Total ATP produced - ATP used.

Substitute the known values into the equation: Net ATP = 4 ATP (produced) - 2 ATP (used).

Conclude with the net gain of ATP molecules after performing the subtraction.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Glycolysis

Glycolysis is a metabolic pathway that converts glucose into pyruvate, producing energy in the form of ATP. It occurs in the cytoplasm of cells and consists of ten enzymatic reactions. The process begins with the investment of two ATP molecules to phosphorylate glucose, which is then broken down to yield four ATP molecules, resulting in a net gain.

ATP Production

Adenosine triphosphate (ATP) is the primary energy currency of the cell. During glycolysis, ATP is both consumed and produced. Initially, two ATP molecules are used to activate glucose, but later in the pathway, four ATP molecules are generated, leading to a net gain of ATP that is crucial for cellular functions.

Net Gain Calculation

The net gain of ATP in glycolysis is calculated by subtracting the ATP consumed from the ATP produced. In this case, two ATP are used and four are produced, resulting in a net gain of two ATP molecules. This calculation is essential for understanding the energy yield of glycolysis and its efficiency in cellular respiration.