Up Learn – A Level Biology (AQA) – Respiration

Glycolysis: From Glucose Phosphate to Pyruvate

Glycolysis begins with ‘phosphorylation’, a process that results in glucose phosphate.
This is then converted into triose phosphate and, from there, pyruvate.

More videos on Respiration:

Glycolysis: Production of Glucose Phosphate

Glycolysis: From Glucose Phosphate to Pyruvate

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Up Learn – A Level Biology (AQA)

Respiration

1. Introduction to Glycolysis
2. Overview of Glycolysis
3. Production of Glucose Phosphate
4. From Glucose Phosphate to Pyruvate
5. Why Are Phosphate Groups Added?
6. Oxidation-Reduction Reactions Involving Hydrogen
7. Oxidation-Reduction Reactions in Glycolysis
8. Oxidation and Reduction Reactions in Chemistry
1. Introduction to Aerobic Respiration I
2. The Link Reaction Overview
3. A More Detailed Look at the Link Reaction
4. The Krebs Cycle
5. Why is Coenzyme A added?
6. Substrate-Level Phosphorylation
7. Oxidation-Reduction Reactions in the Krebs Cycle
8. Triglycerides in Respiration
9. Amino Acids in Respiration
10. Aerobic Respiration So Far
1. Introduction to Aerobic Respiration II
2. ATP Synthase and Chemiosmosis
3. How Is The Proton Gradient Maintained?
4. Oxidation-Reduction Reactions and Electrons
5. The Electron Transfer Chain
6. The Final Electron Acceptor
7. The Importance of Reduced NAD and Reduced FAD
8. A Closer Look at NAD
9. Oxidative Phosphorylation
10. How Mitochondria Are Adapted For Respiration
11. The Entirety of Aerobic Respiration
1. Introduction to Anaerobic Respiration
2. Glycolysis Recap
3. Anaerobic Respiration Overview
4. Lactate vs Lactic Acid
5. Anaerobic Respiration in Animals
6. Anaerobic Respiration in Plants and Microorganisms
7. What Happens to the Products of Anaerobic Respiration?
8. Aerobic Respiration vs Anaerobic Respiration

Previously, we’ve seen that the first step of glycolysis is phosphorylation…

…in which glucose is converted into glucose phosphate…

..using two phosphates gained from the breakdown of two ATP molecules.

Next, we’re going to look at the final two steps of glycolysis. 

To kick off, in the second step of glycolysis, glucose phosphate breaks down into two identical molecules, each containing three carbons and one phosphate group. 

These are molecules of triose phosphate

Where ‘triose’ refers to the three carbons…

And phosphate refers to the phosphate group. 

Finally, in the third step of glycolysis, both triose phosphate groups are converted into pyruvate.

However, this third step doesn’t just produce pyruvate…

The conversion of each triose phosphate molecule into pyruvate also produces two ATP molecules

But, if we take another look at our diagram…this doesn’t make much sense. 

Each triose phosphate molecule only contains one phosphate group

And so, based on this, we should only be able to make one ATP molecule per triose phosphate molecule. 

So, where’s the second ATP molecule coming from? 

Well, as we’ve said, glycolysis is a far more complicated process than is usually shown at A level

It contains extra steps that you don’t need to know. 

One of these extra steps is the addition of a phosphate group to triose phosphate…

Leaving us with a molecule that contains two phosphate groups. 

As a result, when each molecule is converted into pyruvate, there are two phosphate groups available to react with ADP…

Meaning that two ATP molecules form! 

Next, since you don’t need to know this step in the exam…

We’ll just represent it like this, as a reminder for why two ATP molecules are formed.

Finally, looking at the entire process of glycolysis…

We can see that for a single glucose molecule, 2 ATP molecules break down in the first step…

And 4 ATP molecules in total form in the third step.

Therefore, during glycolysis, for a single molecule of glucose, there’s an overall yield of…

For a single molecule of glucose, there’s an overall yield of 2 ATP molecules. 

To sum up, in the second step of glycolysis, glucose phosphate breaks down into two molecules of…

In the second step of glycolysis, glucose phosphate breaks down into 2 molecules of triose phosphate…

And in the third step, each triose phosphate molecule is converted to pyruvate. 

When this happens, the conversion from triose phosphate produces…

Before triose phosphate is converted into pyruvate, another phosphate group is added

Therefore, when a single triose phosphate molecule is converted to pyruvate, 2 ATP molecules are produced…

Meaning that, in total, 4 ATP molecules are produced in this third step of glycolysis. 

Finally, for a single glucose molecule undergoing glycolysis, there is an overall yield of…

For a single glucose molecule undergoing glycolysis, there is an overall yield of 2 ATP molecules.