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Transcript
Bacterial Metabolism Chapter 6 Objectives for today • This is a big, complicated topic • What process produces ATP? • What is the purpose of the Coenzymes? – Where are these produced? • How is metabolism different between prokaryotes and eukaryotes? Some Definitions • Electron Carriers: – Compounds that can accept electrons (and protons) to drive the production of ATP – Compounds can easily transfer their electrons to other molecules • NAD+, NADP+, FAD • Reduced form: NADH, NADPH, FADH2 More Definitions • Redox Reactions (Reduction/Oxidation) – Oxidation: Loss of electrons – Reduction: Gain of electrons • ATP Adenosine Triphosphate Metabolism • The sum total of ALL chemical reactions within a cell – Catabolic • Creates ATP – Anabolic • Uses ATP • Creates other biomolecules Energy is the capacity to do work • Potential energy: stored energy • Kinetic energy: energy of motion Organisms obtain energy from different sources • Photosynthetic organisms obtain energy from… • Chemoorganotrophs obtain energy from….. Chemoorganotrophs depend on photosynthetic organisms What promotes chemical reactions in biological systems? ENZYMES Enzymes bind substrate and generate a product, enzyme is unchanged Some enzymes require a cofactor to bind substrate How does this relate to metabolism? Coenzymes carry electrons These are a class of enzymes Factors that influence an enzyme: Temperature • What happens as temperature increases? • What is the optimum temperature? • What would happen if you put a mesophilic organism in a thermophilic environment? Factors that influence an enzyme: pH • What pH do most enzymes function optimally? Enzyme inhibitors • Inhibit the binding of the substrate to the active site – Competitive inhibition – Non-Competitive Inhibition Competitive Inhibition Sulfa drugs can block PABA binding interfering with folic acid synthesis Non-competitive Inhibition Oxidation/reduction reactions These are especially important for coenzymes Biological Oxidation ATP is made in catabolic reactions and used in anabolic reactions Ways cells make ATP • Substrate level phosphorylation – Uses energy from breaking down chemicals – Energy used to add phosphate groups • Oxidative phosphorylation – Uses energy from proton motive force – Uses gradient created in ETS • Photophosphorylation – Uses energy created from photons Types of Bacterial Metabolism • Fermentation • Respiration – Aerobic Respiration – Anaerobic Respiration • Photosynthesis Keep in mind…glucose becomes many different things Fermentation • The incomplete breakdown of glucose with an organic compound serving as the final electron acceptor • Only pathway operating is glycolysis The big picture: This process results in the conversion of 1 glucose molecule into 2 pyruvate molecules that will be used in the TCA cycle, fermentation, etc Fermentation Lactic Acid Ethanol Lactic Acid Bacteria Saccharomyces produces ethanol Fermentation products can vary Aerobic Respiration • The COMPLETE breakdown of glucose to CO2 and H2O with an inorganic compound serving as the final electron acceptor Remember the pathways in aerobic respiration are… • Glycolysis – Some use Pentose Phosphate Pathway instead • TCA cycle • Electron transport chain Glycolysis: Creates Pyruvate Uses 2 ATP molecules and you gain 4 (net 2) This process generates ATP, FADH2 and NADH with CO2 being the bi-product http://www.youtube.com/watch?v=WXHpTHb1MQM What is made as a result of the TCA cycle? • ATP • Reducing power – NADH, NADPH, FADH2 – Provides Hydrogen gradient in ETC • Precursor metabolites made from alphaketoglutarate and oxaloacetate Electron Transport Chain • Found in the cytoplasmic membrane • Contains electron carriers – Flavoproteins (FAD) • Synthesized from vitamins – Iron-sulfur proteins – Quinones • Lipid soluble electron carriers – Cytochromes • Iron centered molecules Model for energy release in ETC ETC in eukaryotes http://www.youtube.com/watch?v=xbJ0nbzt5Kw http://www.youtube.com/watch?v=3y1dO4nNaKY ETC in prokaryotes ATP yield from aerobic respiration Comparison of three types of metabolism Remember we are focusing on catabolic reactions • Generate ATP for later use by cell • Generate precursors for other pathways • Need to re-oxidize coenzymes for continual use Precursor metabolites Eukaryotes • ATP production is pretty much the same in your cells as it is in prokaryotes – Except all of it is done in the mitochondria Image Credit: imgkid.com Summary • Remember, when we’re talking about electron transport it’s really about moving hydrogen ions around to create gradients • Those gradients are used to create ATP as ions travel through pours (ATP Synthase) towards equilibrium
