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Transcript
CELL RESPIRATION • Catabolism: _______________ molecules and ______________energy. ex: __________glucose • Anabolism: ____________molecules and ______________ energy ex: building proteins, nucleic acids, lipids, carbohydrates. Cellular Respiration • Breaking ___________to make _______ for cell • ___________ or _____________ • Main way Prokaryotes and Eukaryotes make energy is through ___________Cell Respiration • Anaerobic: ______________ (when O2 is lacking) Redox Reactions OXYGENS HYDROGENS ELECTRONS GAIN LOSS LOSS REDUCTION LOSS GAIN GAIN OXIDATION Overall Equation for Aerobic Respiration _____________ + 6O2 -----> 6CO2 + _____ + ATP Takes place in __________ and in ____________. Outer Membrane: ____________________________________________ Inner Membrane: ____________________________________________ Intermembrane Space: _________________________________________ Crista: ______________________________________________________ Matrix: _____________________________________________________ KEY CHARACTERS IN CELL RESPIRATION __________________ _________________ NAD+ NADH FADH FADH2 TWO WAYS TO MAKE ATP 1) ______________________ Phosphorylation: An enzyme transfers a __________ from a substrate (a molecule) to ADP, yielding ATP: ex: 1,3 Bisphosphate glycerate loses a phosphate to ADP-----> ATP 2) ______________________ Phosphorylation: Energy from redox reactions in electrontransport chain is used to make ATP. Key Enzymes in Cell Respiration 1) _______________________: Enzymes that remove ________ from substrates and add them to NAD+ or FAD reducing them to _________or ___________. 2) __________________: Transfer _______________ from one molecule to another. (Substrate to ADP) or (ATP to substrate) Glycolysis PROCESS LOCATION/ Aerobic or Anaerobic FUNCTION BEGINNING MOLECULES HOW MANY ATP PUT IN NET ATP YIELD/ OTHER ENDING MOLEC GLYCOLYSIS CYTOPLASM BREAKS DOWN GLUCOSE TO 2 PYRUVATES 1 GLUCOSE 2 ATP in 4 Made but only 2 NET ATP (substrate level-phosph.) Anaerobic 2 Pyruvate 2 NADH FORMATION OF ACETYL-CoA Mitochondria KREBS/ CITRIC ACID/ TCA CYCLE OXIDATIVE PHOSPHORYLATION To Form Acetyl CoA Pyruvate, Coenzyme A, NAD+ Acetyl CoA, CO2 released NADH Matrix of Mitochondria Acetyl CoA, H20, NAD+, FAD, ADP, Pi CO2, NADH, FADH2, ATP Inner Membrane of Mitochondria NADH, FADH2, O2, ADP, Pi ATP, H2O, NAD+, FAD Citric Acid Cycle
