Glycolysis

1. Glycolysis WALT • Glycolysis takes part in the cytosol of the cell • Glucose is oxidised to pyruvate by a series of reactions • It produces a net of 2 ATP per molecule of glucose and 2 NADH

2. Glycolysis Glycolysis is a series of biochemical reactions by which a molecule of glucose is oxidised to two molecules of pyruvic acid. Glycolysis serves two principal functions: generation of high-energy molecules (ATP and NADH), and production of a variety of six- or three-carbon intermediate metabolites. Glycolysis is one of the most universal metabolic processes known, and occurs (with variations) in many types of cells in nearly all types of organisms.

4. A couple of other molecules are important as electron-carrying molecules.  Nicotinamide Adenine Dinucleotide (NAD)acoenzyme derived from the vitamin niacin, or B3. NAD can be reduced to NADH for redox reactions Flavin-Adenine Dinucleotide (FAD) another coenzyme, this one derived from riboflavin / B2serves a similar function.  FAD can be reduced to FADH2 and carry hydrogens / electrons between reactions NAD and FAD

5. Glycolysis in cytoplasm 2 NADH Glucose 2 Pyruvate 2 ATP 4 ATP Overview of Glycolysis 2 NADH 2 Pyruvate To mitochondria For use in the cell for work ATP

6. Sugars are not very reactive so to start the process 2ATP’s are used to add 2 phosphates to glucose in a series of three reactions generating Fructose 1,6 - bisphosphate

7. The phosphorylated sugar then breaks down into two 3 carbon molecules, one is glyceraldehyde phosphate the other is quickly converted into glyceraldehyde phosphate

8. 1st stage of glycolysis 2 ATP 2 ADP + 2 Pi

9. Glycolysis • The two molecules of glyceraldehyde 3-phosphate will now go through each of the remaining steps in glycolysis producing two molecules of each product. • As each of the two molecules of glyceraldehyde 3-phosphate are oxidized, the energy released is used to add an inorganic phosphate group to ADP to form two molecules of ATP per GALP ( 4 in total) . During these oxidations a molecule of NAD+ is reduced to form NADH + H+ (2 in total)

10. 2 ADP + 2 Pi NADP 2ATP 2 NADP 2nd Stage of Glycolysis 2 ADP + 2 Pi NADP 2ATP 2 NADP

13. The Link Reaction • Pyruvate easily enters the matrix of the mitochondria where it enters a circular pathway (Krebs cycle) which occurs within the matrix of the mitochondria. • The first step is to convert pyruvate into a two-carbon fragment, then attach it to another coenzyme known as coenzyme A or CO-A. • This is called the link reaction • 2 molecules of NADH are also produced

14. The Link Reaction

15. Glycolysis • Use all of the information today and the text book pages 11,12 and 13 to draw out the reactions of glycolysis with clear explanations of what is happening at each stage • Hand in next lesson

16. http://science.nhmccd.edu/biol/glylysis/glylysis.html

18. In Animals In the presence of oxygen pyruvate is transported into the mitochondria where it enters the next major metabolic pathway for the production of ATP energy. The citric acid cycle. Aerobic. If there is no oxygen present then the pyruvate is converted to a substance called lactate.