Glycolysis 1 Flashcards by David Brennan

What is glycolysis?

Biochemical reaction, not involving oxygen, that splits carbohydrates into pyruvic or lactic acid whilst producing ATP

How well did you know this?

Not at all

Perfectly

What kind of phosphorylation does glyclysis produce ATP through?

Substrate level phosphorylation

How well did you know this?

Not at all

Perfectly

What is the only way that energy can be made when O₂is not present?

Substrate level phosphorylation

How well did you know this?

Not at all

Perfectly

Why is glycolysis often the process used to generate energy initially during exercise?

O₂cannot get to the cells quick enough

How well did you know this?

Not at all

Perfectly

What are the 2 phases of glycolysis?

Preparation phase

Payoff phase

How well did you know this?

Not at all

Perfectly

What happens during the preparative phase of glycolysis?

Two molecules of glucose-3-phosphate are produced per molecule of glucose

How well did you know this?

Not at all

Perfectly

What happens during the payoff phase of glycolysis?

ATP is produced

How well did you know this?

Not at all

Perfectly

What is the net gain of ATP in glycolysis and how is this distributed between the preparative and payoff phases?

2 ATP is used during the preparative phase and 4 ATP is gained during the payoff phase

Net gain of 2 ATP per molecule of glucose

How well did you know this?

Not at all

Perfectly

How many steps are there in glycolysis?

10

How well did you know this?

Not at all

Perfectly

How many of the 10 glycolysis steps are irreversible?

3

How well did you know this?

Not at all

Perfectly

Why are the irreversible steps of glycolysis irreversible?

Delta G during those reactions is to highly negative, too much energy put be required to reverse the reaction

How well did you know this?

Not at all

Perfectly

What are the 10 steps of glycolysis?

<ol> <li>Phosphorylation of glucose (glucose→ glucose-6-phosphate)</li> <li>Conversion of G-6-P to F-6-P</li> <li>Phosphorylation of F-6-P to F-1,6-bisP</li> <li>Cleavege to F-1,6-bisP</li> <li>Interconversion of triose sugars</li> <li>Oxidation of glyceraldehyde-3-phosphate (G-3-P) to 1,3-bisphosphoglycerate (1,3-bisPG)</li> <li>P transfer from 1,3-bisPG to ADP</li> <li>Conversion of 3-PG to 2-PG</li> <li>Dehydrogenase of 2-PG to phosphoenolpyruvate (PEP)</li> <li>Transfer of P from PEP to ADP, producing pyruvate</li></ol>

How well did you know this?

Not at all

Perfectly

What is fructose-1,6-bisP broken down to into step 4 of glycolysis?

Glyceraldehyde-3-P or dihydroxyacetone-P

How well did you know this?

Not at all

Perfectly

What are the 3 irreversible steps of glycolysis?

Step 1 - Phosphorylation of glucose (glucose→ glucose-6-phosphate)

Step 3 - Phosphorylation of F-6-P to F-1,6-bisP

Step 10 - Transfer of P from PEP to ADP, producing pyruvate

How well did you know this?

Not at all

Perfectly

Why is glucose converted to fructose in step 3?

This lowers the activation energy to proceed due to the negative charges of fructose repelling each other

How well did you know this?

Not at all

Perfectly

What is the first commited step of glycolysis?

Phosphorylation of F-6-P to F-1,6-bisP because previous intermediates can be used for other pathways but F-1,6bisP is destined for glycolysis

What is a difference in the requirments of substrate level phosphorylation compared to oxidative phosphorylation, in terms of enzymes?

Substrate level phosphorylation requires soluble enzymes and chemical intermediates, whereas oxidative phosphorylation involves membrane bound enzymes and gradients of protons

What does a diagram of glycolysis look like?

Why does NAD⁺need to be regenerated?

It is limited in the cell

Where does NAD⁺come from?

Niacin which is an essential vitamin

What do all fates of pyruvate do?

Regenerate NAD⁺to replinish what was used during glycolysis

What is redox balance?

The replinishment of NAD⁺after glycolysis

What are the 3 pathways that pyruvate can take?

Fermentation in yeast to ethanol

Aerobic respiration to CO₂

Fermentation in vigorously contracting muscle cells to lactate

What does the reaction of yeast producing ethanol look like?

How much pyruvate is produced per molecule of glucose?

How much lactate can be produced per molecule of pyruvate?

How much acetyl coenzyme A can be produced per molecule of pyruvate?

What does pyruvate becoming in the absence of oxygen?

Lactate

What does the reaction of pyruvate to lactate look like?

Two pyruvates are converted to two lactic acid molecules

What is the Cori cycle?

Metabolic pathway where lactate is produced by anaerobic glycolysis

What happens if we exercise vigorously?

Muscles don't recieve O₂ fast enough to make ATP by oxidative phosphorylation, instead using substrate level phosphorylation producing lactate

What is the fate of lactate that is produced from pyruvate?

Transfered to the liver and converted to glucose through gluconeogenisis

Where does glycolysis happen?

In a cells cytoplasm

What happens to pyruvate when cells have access to O₂?

Oxidised to form acetyl coenzyme A

Where does the reaction of pyruvate to acetyl coenzyme A take place?

In the mitochondria of cells

Why can red blood cells only do glycolysis (substrate level phosphorylation)?

They do not have any mitochondria to do oxidative level phosphorylation

What is also formed when pyruvate is converted into acetyl coenzyme A?

NADH which later gives up its hydride ion (H^-) in the electron transport chain

What does the reaction of pyruvate to acetyl conenzyme A look like?

Pyruvate—three carbons—is converted to acetyl CoA