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Biomed Academy Plans Cellular Respiration Unit Plan AP Content Standards-‐2.A.2 • Energy-‐related pathways in biological systems are sequential and may be entered at multiple points in the pathway. ❏ Krebs, glycolysis, Calvin, fermentation • • • ❏ Cellular respiration in eukaryotes involves a series of coordinated enzyme-‐ catalyzed reactions that harvest free energy from simple carbohydrates. o ❏ Glycolysis o ❏ Redox o ❏ Pyruvate o ❏ Krebs cycle (substrate level phosphorylation) ❏ The electron transport chain captures free energy from electrons in a series of coupled reactions that establish an electrochemical gradient across membranes. o ❏ Chemiosmosis/Proton Gradient o ❏ ATP Synthase o ❏ Compare mitochondria to prokaryotes o ❏ Decoupling oxidative phosphorylation from electron transport for thermoregulation ❏ Free energy becomes available for metabolism by the conversion of ADP → ATP, which is coupled to many steps in metabolic pathways. Day1-‐ Intro to Metabolism Objectives:SWBAT: -review the basic mechanisms of metabolic pathways -explain the general mechanisms of cell respiration -trace the reactants, products and energy involved in glycolysis -explain the basic reactions involved with glycolysis Standards: See above. Process: Enzyme Quiz Metabolism Pretest Intro to Metabolism Intro to MiniLab Problem Study: Investigate a variable that effects yeast respiration. Closure: Quiz discussion, post evaluation discussion. Pretest HW: Begin Chapter 9 guided reading, MI-‐Pathophysiology, Capstone Ch2 Draft 2 _________________________________________________________________________________________________ Day2 Glycolysis and Fermentation Objectives:SWBAT: -review the basic mechanisms of metabolic pathways -explain the general mechanisms of cell respiration -trace the reactants, products and energy involved in glycolysis -explain the basic reactions involved with glycolysis -determine optimum conditions for respiration in yeast -devise a method of testing respiration in yeast Standards: Energy-‐related pathways in biological systems are sequential and may be entered at multiple points in the pathway. ❏ Krebs, glycolysis, Calvin, fermentation ❏ Cellular respiration in eukaryotes involves a series of coordinated enzyme-‐ catalyzed reactions that harvest free energy from simple carbohydrates. o o o ❏ Glycolysis ❏ Redox ❏ Pyruvate Process: Introduction to Aerobic Cellular Respiration/Glycolysis/Fermentation MiniLab Chapters 1, 2, 3. Closure: Discussion of lab parameters, and feedback and questions regarding lab challenge. HW: Chapter 9 guided reading, MI-‐Pathophysiology, Capstone Ch2 Draft 2 _________________________________________________________________________________________________ Day3-‐ Krebs and ETC/Chemiosmosis Objectives:SWBAT: -review the basic mechanisms of metabolic pathways -explain the general mechanisms of cell respiration -trace the reactants, products and energy involved in Kreb’s cycle -explain the basic reactions involved with Kreb’s cycle -determine optimum conditions for respiration in yeast -devise a method of testing respiration in yeast Standards: Energy-‐related pathways in biological systems are sequential and may be entered at multiple points in the pathway. ❏ Krebs, glycolysis, Calvin, fermentation ❏ Cellular respiration in eukaryotes involves a series of coordinated enzyme-‐ catalyzed reactions that harvest free energy from simple carbohydrates. o o o ❏ Glycolysis ❏ Redox ❏ Pyruvate Process: Kreb’s Cycle and Electron Transport MiniLab Chapter 1,2,3, trial runs of data collection. Create data chart. Closure: Postlab discussion and awards. HW: Chapter 9 guided reading, MI-‐Pathophysiology, Capstone Ch2 Draft 2 _________________________________________________________________________________________________ Day4 Chemiosmosis Objectives:SWBAT: -review the basic mechanisms of metabolic pathways -explain the general mechanisms of cell respiration -trace the reactants, products and energy involved in ETC and chemiosmosis -explain the basic reactions involved with ETC and chemiosmosis Standards: The electron transport chain captures free energy from electrons in a series of coupled reactions that establish an electrochemical gradient across membranes. o ❏ Chemiosmosis/Proton Gradient Process: Chemiosmosis MiniLab Chapter 4, data collection. Create data chart on Excel. Closure: GR Chap 9 question answer session. HW: Chapter 9 guided reading, MI-‐Pathophysiology, Capstone Ch2 Draft 2 _________________________________________________________________________________________________ Day5 Objectives:SWBAT: -explain the electron transport chain (oxidative phosphorylation) -describe the mechanism behind the energy produced during this process Standards: See all above. Process: Finish and review aerobic and anaerobic respiration Capstone research discussion/research feedback. Closure: Review for tomorrow’s quiz HW: Begin Chapter 9 guided reading, MI-‐Pathophysiology, Capstone Ch2 Draft 2 _________________________________________________________________________________________________ Day6 Objectives:SWBAT: -evaluate their understanding of enzymes, cell respiration, and photosyn. -practice test taking skills -review concepts associated with the above topics Process: Quiz-‐Chapter 9 Introduction to Photosynthesis Closure: Quiz discussion, photosynthesis lab distribution HW: GR Ch. 10, read lab for tomorrow.