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Cellular Respiration (Extracting energy from food) Phelan Ch 4.4, p143-153 Krogh Ch 7 ALL ORGANISMS HAVE AN ENERGY BUDGET! Remember ATP? All cells use ATP energy for work like… – – – – Movement Growing Repairing tissues Heating you up but… ATP is so unstable that it cannot be stored long term… so cells must constantly use energy from sun, heat, or food to recharge it. ATP ADP + Pi + ENERGY! How ATP is used as a ‘battery’ Coupled Reactions = pairing an exergonic reaction with an endergonic one Phosphorylation powers enzymes Gummy bear SACRIFICE! Remember the poor gummy bear? The point? Enzymes must release stored energy slowly, step by step… you don’t want your cells to combust! Big Idea: Organisms store E as large organic molecules… split them apart in a CONTROLLED fashion when ATP is needed Calories refer to potential energy in the food you’ve consumed – Ex. 3,811 calories/g glucose – 1 Cal = 1,000 calories – Roughly 4 Cal/g in sugar Meet + NAD ! Similar to NADP+ Gradually rips high energy hydrogen electrons from food… NAD+ NADH carries them to an electron transport chain in mitochondrion membrane used to help run ATP Synthase 2 WAYS CELLS MAKE ATP FROM FOOD Aerobic Resp (with O2) Anaerobic Resp (no O2) FERMENTATION Glycolysis “Splitting sugar” ALL cells use special enzymes to perform this in the cytoplasm. Destabilize sugar by adding phosphates. Let it split down middle. Pull off a few of the hydrogens. (Actually takes 10 steps!) Net: – 2 ATP – 2 NADH – 2 Pyruvic Acid (3C each) fate is determined by presence or lack of O Note: because NAD+ already ripped off some H, pyruvate’s formula is C3H4O3 The real version of glycolysis if you’re interested! Do NOT need to memorize! PYRUVATE FROM GLYCOLYSIS Aerobic Resp (with O2) Anaerobic Resp (no O2) FERMENTATION What if you DO HAVE oxygen? Aerobic Cell Respiration Cells with O2 can finish pyruvate breakdown using Krebs Cycle and Electron Transport Chain 34 additional ATP! C6H12O6 + 6O2 6CO2 +6 H20 + 36 ATP Mitochondria – eukaryotic “power plant” – high surface area An analogy: Write this down!!!!!! Mitochondrion anatomy (aerobic cont.) Mitochondria add 2 phases after glycolysis… – Krebs Cycle (Citric Acid Cycle): finishes sugar breakdown! In mitochondrial matrix Produces NADH, FADH2, CO2 & 2 ATP – Electron Transport Chain: NADH and FADH2 drop e- along inner mitochondrion membrane Driven by electronegativity of O2 (final e- acceptor) Proton (H+) gradient established for ATP Synthase Produces H2O & 32 ATP Krebs Cycle OUCH Pyruvate Pyruvate dehydrogenase That’s better The Electron Transport Chain The complete aerobic process Don’t always use glucose
