“Cellular Respiration” A Presentation About “Cellular Respiration” Copyright Cmassengale

Made by: Eullene E. Domingo Made for: Roan Hope A. Ocaban and Mr. Jonathan Gareza (Jong2) Copyright Cmassengale

ADP, ATP and Cellular Respiration Copyright Cmassengale

Copyright Cmassengale What Is ATP? Energy used by all Cells Adenosine Triphosphate Organic molecule containing high-energy Phosphate bonds Copyright Cmassengale

Chemical Structure of ATP Adenine Base 3 Phosphates Ribose Sugar Copyright Cmassengale

Copyright Cmassengale What Does ATP Do for You? It supplies YOU with ENERGY! Copyright Cmassengale

How Do We Get Energy From ATP? By breaking the high- energy bonds between the last two phosphates in ATP Copyright Cmassengale

What is the Process Called? HYDROLYSIS (Adding H2O) H2O Copyright Cmassengale

Copyright Cmassengale How Does That Happen? An Enzyme! ATPase Copyright Cmassengale

Copyright Cmassengale How is ATP Re-Made? The reverse of the previous process occurs. Another Enzyme is used! ATP Synthetase Copyright Cmassengale

Copyright Cmassengale The ADP-ATP Cycle ATP Synthetase ATP-ase Copyright Cmassengale

When is ATP Made in the Body? During a Process called Cellular Respiration that takes place in both Plants & Animals Copyright Cmassengale

Copyright Cmassengale Cellular Respiration Includes pathways that require oxygen Glucose is oxidized and O2 is reduced Glucose breakdown is therefore an oxidation-reduction reaction Breakdown of one glucose results in 36 to 38 ATP molecules Copyright Cmassengale

Overall Equation for Cellular Respiration C6H12O6 + 6O2 YIELDS 6CO2 + 6H20 + e- + 36-38ATP’s Copyright Cmassengale

What Type of Process is Cellular Respiration? An Oxidation-Reduction Process or REDOX Reaction Oxidation of GLUCOSE --> CO2 + H2O (e- removed from C6H12O6) Reduction  O2  to  H2O (e- passed to O2) Copyright Cmassengale

What Carries the Electrons? NAD+ (nicotinadenine dinucleotide) acts as the energy carrier NAD+ is a coenzyme It’s Reduced to NADH when it picks up two electrons and one hydrogen ion Copyright Cmassengale

Are There Any Other Electron Carriers? YES! Another Coenzyme! FAD+ (Flavin adenine dinucleotide) Reduced to FADH2 Copyright Cmassengale

Other Cellular Respiration Facts Metabolic Pathway that breaks down carbohydrates Process is Exergonic as High-energy Glucose is broken into CO2 and H2O Process is also Catabolic because larger Glucose breaks into smaller molecules Copyright Cmassengale

What are the Stages of Cellular Respiration? Glycolysis The Krebs Cycle The Electron Transport Chain Copyright Cmassengale

Where Does Cellular Respiration Take Place? It actually takes place in two parts of the cell: Glycolysis occurs in the Cytoplasm Krebs Cycle & ETC Take place in the Mitochondria Copyright Cmassengale

Review of Mitochondria Structure Smooth outer Membrane Folded inner membrane Folds called Cristae Space inside cristae called the Matrix Copyright Cmassengale

Copyright Cmassengale Diagram of the Process Occurs across Cristae Occurs in Cytoplasm Occurs in Matrix Copyright Cmassengale

Copyright Cmassengale Glycolysis Summary Takes place in the Cytoplasm Anaerobic (Doesn’t Use Oxygen) Requires input of 2 ATP Glucose split into two molecules of Pyruvate or Pyruvic Acid Copyright Cmassengale

Copyright Cmassengale Glycolysis Summary Also produces 2 NADH and 4 ATP Pyruvate is oxidized to Acetyl CoA and CO2 is removed Copyright Cmassengale

Copyright Cmassengale Glycolysis Diagram Copyright Cmassengale

Copyright Cmassengale Fermentation Occurs when O2 NOT present (anaerobic) Called Lactic Acid fermentation in muscle cells (makes muscles tired) Called Alcoholic fermentation in yeast (produces ethanol) Nets only 2 ATP Copyright Cmassengale

A Little Krebs Cycle History Discovered by Hans Krebs in 1937 He received the Nobel Prize in physiology or medicine in 1953 for his discovery Forced to leave Germany prior to WWII because he was Jewish Copyright Cmassengale

Copyright Cmassengale Krebs Cycle Summary Requires Oxygen (Aerobic) Cyclical series of oxidation reactions that give off CO2 and produce one ATP per cycle Turns twice per glucose molecule Produces two ATP Takes place in matrix of mitochondria Copyright Cmassengale

Copyright Cmassengale Krebs Cycle Summary Each turn of the Krebs Cycle also produces 3NADH, 1FADH2, and 2CO2 Therefore, For each Glucose molecule, the Krebs Cycle produces 6NADH, 2FADH2, 4CO2, and 2ATP Copyright Cmassengale

Copyright Cmassengale Krebs Cycle ATP Copyright Cmassengale NETS: 3NADH, 1ATP, 1FADH2, & 2CO2

Electron Transport Chain Summary 34 ATP Produced H2O Produced Occurs Across Inner Mitochondrial membrane Uses coenzymes NAD+ and FAD+ to accept e- from glucose NADH = 3 ATP’s FADH2 = 2 ATP’s Copyright Cmassengale

Copyright Cmassengale Aerobic Respiration Aerobic respiration (red arrows) is the main means by which both plants and animals utilize energy in the form of organic compounds that were previously created through photosynthesis (green arrow). Aerobic respiration requires oxygen in order to generate energy (ATP). Copyright Cmassengale

Copyright Cmassengale Although carbohydrates, fats, and proteins can all be processed and consumed as reactant, it is the preferred method of pyruvate breakdown in glycolysis and requires that pyruvate enter themitochondrion in order to be fully oxidized by the Krebs cycle. Copyright Cmassengale

Copyright Cmassengale The product of this process is energy in the form of ATP (Adenosine triphosphate), by substrate-level phosphorylation, NADH and FADH2. Copyright Cmassengale

Copyright Cmassengale Simplified reaction: C6H12O6 (aq) + 6 O2 (g) → 6 CO2 (g) + 6 H2O (l) ΔG = -2880 kJ per mole of C6H12O6 *The negative ΔG indicates that the reaction can happen spontaneously Copyright Cmassengale

Copyright Cmassengale The reducing potential of NADH and FADH2 is converted to more ATP through an electron transport chain with oxygen as the "terminal electron acceptor". Most of the ATP produced by aerobic cellular respiration is made by oxidative phosphorylation. Copyright Cmassengale

Copyright Cmassengale This works by the energy released in the consumption of pyruvate being used to create a chemiosmotic potential by pumping protons across a membrane. This potential is then used to drive ATP synthase and produce ATP from ADP and a phosphate group. Copyright Cmassengale

Copyright Cmassengale However, this maximum yield is never quite reached due to losses (leaky membranes) as well as the cost of moving pyruvate and ADP into the mitochondrial matrix and current estimates range around 29 to 30 ATP per glucose. Copyright Cmassengale

Copyright Cmassengale Aerobic metabolism is 19 times more efficient than anaerobic metabolism (which yields 2 mol ATP per 1 mol glucose). They share the initial pathway of glycolysis but aerobic metabolism continues with the Krebs cycle and oxidative phosphorylation. The post glycolytic reactions take place in the mitochondria in eukaryotic cells, and in the cytoplasm in prokaryotic cells. Copyright Cmassengale

Anaerobic Respiration Anaerobic respiration is used by some microorganisms in which neither oxygen (aerobic respiration) nor pyruvate or pyruvate derivative (fermentation) is the final electron acceptor. Rather, an inorganic acceptor (for example, Sulfur) is used. Copyright Cmassengale

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“Happy Teachers Day Sir!” .thank you xah pag’agwanta xmun nga kagahudun kg pagkasalawayun! .thank you man kai dmu gid kme n’learn xmu, especially ang “BOTANY”! .it’s a pleasure to have you as a teahcer! Copyright Cmassengale

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Copyright Cmassengale ..thank you man kay gna’try mu gd ang best mo nga ma share man xmun ang nbal’an mu.. .pru sir, nd man gd pag’ englisha tnan ai! Nosebleed kme ia! hehe Vote! PUERTO GAREZA!! Copyright Cmassengale