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Presentation transcript:

Bell Work Complete Bell Work Sheet Turn in any back work (Plant Pigment Labs) Work on Vocab Book

Inside the Mitochondria Cellular Respiration Inside the Mitochondria

6O2 + C6H12O6 6CO2 + 6H2O + ATP Cellular Respiration Cellular Respiration is the process that releases energy by breaking down food molecules in the presence of oxygen. There are three parts to cellular respiration: Glycolysis – takes place in the cytoplasm Krebs Cycle – takes place in the mitochondria Electron Transport Chain – takes place in the mitochondria 6O2 + C6H12O6 6CO2 + 6H2O + ATP Oxygen Glucose Carbon Dioxide Water Energy

High Energy Molecules NADH – this is a molecule that carries high energy electrons (NAD+ NADH) it acts just like NADPH acted in photosynthesis FADH2 – this is another molecule that can carry high energy electrons (FAD+ FADH2) ATP – one of the main chemical compound that living things use to store energy. Created by adding an extra phosphate molecule to ADP. This is the same molecule created in the light dependent reactions during photosynthesis

Glycolysis Glycolysis is the first step of cellular respiration where one molecule glucose is broken in half, producing two molecules of pyruvic acid Glycolysis uses two ATP molecules to get started, but produces four. Glycolysis can occur with no oxygen present. It also removes electrons from the glucose. These electrons bond to NAD+ making it NADH.

Krebs Cycle Only occurs when oxygen is present The pyruvic acid enters the mitochondria and there is broken down into carbon dioxide through a series of steps that release energy from the carbon bonds

Kreb’s Cycle: Step 1 A carbon atom from the pyruvic acid molecule made during glycolysis is removed. That carbon combines with two oxygen molecules to make a carbon dioxide molecule The two carbon atom left over combines with coenzyme A (CoA) making acetyl CoA This then carries the two carbons to a four carbon group making citric acid

Kreb’s Cycle: Step 2 A carbon molecule is pulled off of the citric acid molecule along with an electron This electron is carried by NAD+ as NADH creating a high energy molecule The carbon that is pulled of is combined with oxygen to make carbon dioxide

Kreb’s Cycle: Step 3 Another carbon molecule is pulled off of the 5-carbon compound and used to create a molecule of carbon dioxide The electrons removed are carried by two NAD+ making it NADH and one FAD+ making it FADH2 An ATP molecule is also created during this step The end result is a 4 carbon molecule that can be reused in the Kreb’s Cycle (added to acetyl CoA in step 1)

Electron Transport Chain The electron carrier molecules (FADH2 and NADH) are transferred to the electron transport chain. This is where the energy from the electrons is used to make more ATP

Electron Transport Chain The high energy molecules FADH2 and NADH meet up with carrier proteins The carrier proteins embedded in the mitochondrial membrane remove the H+ ions and electrons (e-) The H+ ions begin to build up in the intermembrane space causing it to be positively charged The H+ ions pass through channel proteins (ATP synthases) causing it to spin Each rotation it picks up an ADP molecule and attaches a phosphate creating ATP

Electron Transport Chain Total Energy Gains Glycolysis Kreb’s Cycle Electron Transport Chain 2 ATP 6 ATP 2 FADH2 6 NADH 4 ATP 18 ATP 2 NADH 36 ATP

Cellular Respiration Overview

Lactic Acid Fermentation What do you think happens when there is no oxygen present after glycolysis to make CO2? Lactic Acid Fermentation

Fermentation The release of energy from food molecules in the absence of oxygen. There are two main types of fermentation Lactic Acid Fermentation (animals) Alcohol Fermentation (some microorganisms)

Lactic Acid Fermentation Sometimes when we exercise, we cannot supply the muscles with enough oxygen to complete the Kreb’s Cycle Glycolysis can still be completed creating 2 molecules of pyruvic acid, 2 ATP and 2 NADH The energy from the 2 NADH molecules are used to turn the pyruvic acid into lactic acid This is done so the NADH can be turned back into NAD+ and be recycled to the glycolysis reactions as electron carriers

Lactic Acid Fermentation Pyruvic acid + NADH Lactic acid + NAD+

Alcohol Fermentation Some microorganisms perform a different type of fermentation that turns the pyruvic acid into alcohol and carbon dioxide Yeasts are one example of a microorganism that uses alcohol fermentation

Consequences of Exercise You have enough ATP stored in your muscle cells to last long enough to carry you through a 50m sprint If you continue sprinting lactic acid fermentation can produce enough energy to last one and a half minutes This is why we have to pace ourselves in long distance runs When running we break down our stores of glycogen using cellular respiration This lasts about 15-20 minutes, then we break down other stored molecules like fats. This is why cardiovascular exercise helps us loose weight

Photosynthesis VS Respiration Cellular Respiration Function Energy Storage Energy Release Location Chloroplasts Mitochondria Reactants CO2 and H2O C6H12O6 and O2 Products Equation CO2 + H2O C6H12O6 + O2 C6H12O6 + O2 CO2 + H2O

Cellular Respiration Videos http://www.youtube.com/watch?v=6JGXayUyNVw&featur e=related http://www.youtube.com/watch?v=aCypoN3X7KQ&featu re=related http://www.youtube.com/watch?v=xbJ0nbzt5Kw http://www.youtube.com/watch?v=tNqfPsVAdYk