Chapter 4: Energy From the sun to you in two easy steps

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Transcription:

Chapter 4: Energy From the sun to you in two easy steps Lectures by Mark Manteuffel, St. Louis Community College

Learning Objectives Understand and be able to explain the following: How energy flows from the sun and through all life on earth How photosynthesis uses energy from sunlight to make food

Learning Objectives Understand and be able to explain the following: How cellular respiration converts food molecules into ATP, a universal source of energy Alternative pathways to energy acquisition

Do Now Watch Video. Finish Graphic Organizer using your notes and turn in to bin. What products of the photo reactions are used for the Synthesis Reactions (Calvin Cycle)? What products of the Synthesis (Calvin Cycle) reactions are used for Cellular Respiration?

Three-Step Process: Glycolysis: 2 ATP Krebs Cycle: 2 ATP Electron Transport Chain: 32 ATP Biggest ATP payoff (90%) occurs during the electron transport chain.

Cellular Respiration Requires (1) fuel and (2) oxygen Potential energy stored in chemical bonds of sugar, protein, and fat molecules Breaks bonds to release the high-energy electrons captured in ATP Oxygen is electron magnet

A Human Example Eat food Digest it Absorb nutrient molecules into bloodstream Deliver nutrient molecules to the cells At this point, our cells can begin to extract some of the energy Stored in the bonds of the food molecules

Take-home message 4.12 Living organisms extract energy through a process called cellular respiration in which the high-energy bonds of sugar and other energy-rich molecules are broken, releasing the energy that went into creating them.

Take-home message 4.12 The cell captures the food molecules stored energy in the bonds of ATP molecules. This process requires fuel molecules and oxygen and it yields ATP molecules, water, and carbon dioxide.

4.13 The first step of cellular respiration: Glycolysis is the universal energy-releasing pathway. Glycolysis: The universal energy-releasing pathway

Glycolysis Three of the ten steps yield energy. Quickly harnessed to make ATP High-energy electrons are transferred to NADH. Net result: Each glucose molecule broken down into two molecules of pyruvate ATP molecules produced NADH molecules store high-energy electrons

Take-home message 4.13 Glycolysis is the initial phase in the process by which all living organisms harness energy from food molecules. Glycolysis occurs in a cell s cytoplasm and uses the energy released from breaking chemical bonds in food molecules to produce high-energy molecules, ATP and NADH.

4.14 The second step of cellular respiration: The Krebs cycle extracts energy from sugar.

The Preparatory Phase to the Krebs Cycle

Payoff from the Krebs Cycle: ATP NADH FADH 2

Take-home message 4.14 A huge amount of additional energy can be harvested by cells after glycolysis. First, the end-product of glycolysis, pyruvate, is chemically modified. Then in the Krebs cycle, the modified pyruvate is broken down step-by-step.

Take-home message 4.14 This breakdown process releases carbon molecules to the atmosphere as bonds are broken and captures some of the released energy in two ATP molecules and numerous high-energy electron carriers.

4.15 The third step in cellular respiration: ATP is built in the electron transport chain.

Mitochondria Two key features of mitochondria are essential to their ability to harness energy from molecules: Feature 1: mitochondrial bag-within-a-bag structure Feature 2: electron carriers organized within the inner bag

The Bag-within-a-Bag

Follow the Electrons, as We Did in Photosynthesis 2) This proton concentration gradient represents a significant source of potential energy!

Proton Gradients and Potential Energy The force of the flow of H + ions fuels the attachment of free-floating phosphate groups to ADP to produce ATP.

Take-home message 4.15 The largest energy payoff of cellular respiration comes as electrons from NADH and FADH 2 produced during glycolysis and the Krebs cycle move along the electron transport chain.

Take-home message 4.15 The electrons are passed from one carrier to another and energy is released, pumping protons into the intermembrane space. As the protons rush back to the inner mitochondrial matrix, the force of their flow fuels the production of large amounts of ATP.

4.16-4.17 There are alternative pathways to energy acquisition.

4.16 Beer, wine, and spirits are by-products of cellular metabolism in the absence of oxygen.

Take-home message 4.16 Oxygen deficiency limits the breakdown of fuel because the electron transport chain requires oxygen as the final acceptor of the electrons generated during glycolysis and the Krebs cycle.

Take-home message 4.16 When oxygen is unavailable, yeast resort to fermentation, in which they use a different electron acceptor, pyruvate, generating ethanol in the process, the alcohol in beer, wine, and spirits.

4.17 Eating a complete diet: Cells can run on protein and fat as well as on glucose.

Take-home message 4.17 Humans and other organisms have metabolic machinery that allows them to extract energy and other valuable chemicals from proteins, fats, and carbohydrates in addition to the simple sugar, glucose.

Learning Objectives Understand and be able to explain the following: How energy flows from the sun and through all life on earth How photosynthesis uses energy from sunlight to make food How cellular respiration converts food molecules into ATP, a universal source of energy Alternative pathways to energy acquisition

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