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Transcript
Respiration How does respiration work?? Define: • CELLULAR RESPIRATION • ANAEROBIC RESPIRATION • AEROBIC RESPRIATION • ANAEROBE • AEROBE Has no respiratory system • ! Cell Energy • Energy is essential for life – Active transport, cell division, flagella movement, protein production • Some capture energy from light or chemicals – Autotrophs • Others eat those that capture energy – heterotrophs So Where Is Energy Found? Energy is stored in chemical bonds of ATP – Adenosine Triphosphate (ATP) • Adenosine molecule with three phosphate groups • Energy carrier molecule of the cell Question…? How do you release the energy stored in the bonds? Answer Break the bond! Energy is Stored in the BOND! Forming and Breaking Down ATP • Adenosine monophosphate (AMP) • Adenosine diphosphate (ADP) • Adenosine triphosphate (ATP) • ATP ADP + P + Energy • Energy + P + ADP ATP What is Cellular Respiration? The release of chemical energy for use by cells. Once the energy that was in sunlight is changed into chemical energy by photosynthesis, an organism has to transform the chemical energy into a a form that can be used by the organism. This process is cellular respiration. Describe Cellular Respiration 1. The breakdown of glucose molecules to release energy 2. Takes place in all living things 3. Is a step by step process What is the chemical equation for cellular respiration? EQUATION FOR RESPIRATION CARBON DIOXIDE GLUCOSE C6H12O6 + 6O2 OXYGEN ATP 6CO2 + 6H2O + ENERGY WATER Cellular Respiration • Process by which mitochondria break down food molecules to produce ATP • Three Stages – Glycolysis – Anaerobic – Citric Acid Cycle – Aerobic – Electron Transport Chain - Aerobic Glycolysis • Glucose gets broken into two three carbon pyruvic acids • 2 ATP used to start this reaction • Reaction produces 4 ATP • Net gain = 2 ATP • NAD+ = electron carrier = NADH when it accepts two electrons • Pyruvic molecules move into Mitochondria • IF OXYGEN IS PRESENT then the Citric Acid cycle takes place – Pyruvic acid loses one carbon (CO2) – Combines with Coenzyme A to create Acetyl-CoA Citric Acid Cycle (Krebs) Electron Transport Chain Fermentation • Times when there is not enough oxygen to do Citric Acid Cycle • Net Gain = 2 ATP • Two major types – Lactic Acid – Alcoholic Respiration PROTEINS CYTOPLASM GLYCOLOSIS HAPPENS HERE! CARBO’S (SUGARS) FATS (LIPIDS) AMINO ACIDS GLUCOSE C6H12O6 GLYCOLOSIS IN CYTOPLASM NO OXYGEN! ATP TOTALS GLYCOLOSIS=2 PYRUVIC ACID RESPIRATION=34 BOTH=36! MAKES 2 ATPS ACETYL-CoA CO2 IS RELEASED O2 ENTERS HERE MITOCHONDRIA RESPIRATION HAPPENS IN THIS ORGANELLE! KREBS CYCLE AND ELECTRON TANSPORT MAKES 34 ATPS The End
