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CELLULAR RESPIRATION chapter 9. SC B-3.2 Summarize the basic aerobic & anaerobic processes of cellular respiration & interpret the equation. Chapter 9 Section 1. Essential Question: How would you distinguish the two main types of fermentation?. CELLULAR RESPIRATION.
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CELLULAR RESPIRATIONchapter 9 SC B-3.2 Summarize the basic aerobic & anaerobic processes of cellular respiration & interpret the equation
Chapter 9 Section 1 • Essential Question: • How would you distinguish the two main types of fermentation?
CELLULAR RESPIRATION • IS THE PROCESS THAT RELEASES ENERGY BY BREAKING DOWN GLUCOSE IN THE PRESENCE OF OXYGEN
CELLULAR RESPIRATION: 4 PARTS • IN CYTOPLASM (ANAEROBIC) • GLYCOLYSIS • FERMENTATION • IN MITOCHONDRIA (AEROBIC) • KREBS CYCLE (aka CITRIC ACID CYCLE) • ELECTRON TRANSPORT CHAIN & CHEMIOSMOSIS
GLYCOLYSIS • GLUCOSE ENTERS CELL VIA FACILITATED DIFFUSION • Performed by both prokaryotic and eukaryotic cells • GLUC GLUCOSE-6-PHOSPHATE 2 PYRUVATE (3-carbon molecule) • COSTS THE CELL 2 ATP BUT MAKES 4 ATP (net gain of 2 ATP) • 2 NAD 2 NADH
GLYCOLYSIS • WHAT IT NEEDS: • GLUCOSE • 2 ATP • 4 ADP + 4 P • 2NAD+ • WHAT IT MAKES: • 2- PYRUVATES • 2 ADP + 2 P • 4 ATP • 2 NADH
FERMENTATION • ANAEROBIC • IN CYTOPLASM • NADH NAD+ (which is used again in glycolysis) • 2 TYPES: • ALCOHOLIC • YEAST • BACTERIA • LACTIC ACID • ANIMAL MUSCLE FIBERS
Chapter 9 Section 2:Aerobic Respiration • Essential Question” • How is energy transferred through the various stages of aerobic cellular respiration?
KREBS CYCLE: occurs in matrix • 2 PYRUVATE • ENTER MITOCHONDRIAL MATRIX • 6 CO2 • CITRIC ACID 1ST CPD FORMED HENCE aka CITRIC ACID CYCLE • KREBS CYCLE PRODUCTS: • 8 NAD+ 8 NADH • 2 FAD+ 2 FADH2 • 2 ATP • 6 CO2
FOR EACH MOLECULE OF GLUCOSE: know what comes out the Krebs Cycle
Krebs Cycle has many reactions (you do not need to know them) that releases the carbons from pyruvate as CO2 and transfers electrons & H+ to NAD+ and FAD NADH & FADH2
What are NADH & FADH2? • they are very similar to NADPH in photosynthesis • They carry electrons from Kreb’sCycle to electron transport chain (that’sall you need to know about them)
From the Krebs Cycle, NADH & FADH2 move to the inner membrane of the mitochondria (called the cristae) and transfer the electrons they are carrying to the electron transport chain in the cristae. • As the electrons move down the chain they lose energy some of which is used to move H+ from the matrix to the intermembrane space
ELECTRON TRANSPORT CHAIN - 1 • Electron transport chain activities aka oxidative phosphorylation • hi energy e- move thru a series of e- carrier molecules in the cristae • energy from 2 e- transported down the electron transport chain moves H+ across the membrane into the intermembrane space (aka the outer membrane space)
Inner compartment = matrixouter compartment = intermembrane space (space between outer membrane of mitochondria and inner membrane or cristae
ELECTRON TRANSPORT CHAIN - 2 • Chemiosmosis: process in which the energy generated by oxidative phosphorylation generates a proton gradient across the cristae that drives the enzymatic synthesis of ATP • The cristae contain proteins called ATP SYNTHASE which act as a H+ CHANNEL PROTEIN (proton pump) & as an enzyme, ATP SYNTHASE
Role of O2 • At the end of the e- transport chain O2 picks up the e- and combines with H+ to form H2O
Animations of cellular respiration • http://vcell.ndsu.nodak.edu/animations/ • http://vcell.ndsu.nodak.edu/animations/etc/index.htm • http://www.wwnorton.com/college/biology/discoverbio4/animations/main.aspx?chno=ch08p02a
Comparing Photosynthesis & Cellular Respiration PHOTOSYNTHESIS CELLULAR RESPIRATION • captures energy from the Sun • occurs in chloroplast • reactants: 6CO2 + 6H2O + light • products: C6H12O6 + 6O2 • releases energy from food • occurs in mitochondrion • reactants: C6H12O6 + 6O2 • products: 6 CO2 + 6 H2O + 36 ATP
ANIMATIONS! • http://www.sp.uconn.edu/~terry/images/anim/ATPmito.html • http://www.science.smith.edu/departments/Biology/Bio231/ • http://www.johnkyrk.com/mitochondrion.html
More Animations! (chapter review) • http://www.wwnorton.com/college/biology/discoverbio4/animations/main.aspx?chno=ch08p02a • http://www.wwnorton.com/college/biology/discoverbio4/animations/main.aspx?chno=ch08p02b • http://www.wwnorton.com/college/biology/discoverbio4/animations/main.aspx?chno=ch08p02c • http://www.wwnorton.com/college/biology/discoverbio4/animations/main.aspx?chno=ch08p02d