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KEY CONCEPT All cells need chemical energy. The cells of all organisms—from algae to whales to people—need chemical energy for all of their processes . Some organisms, such as diatoms and plants, absorb energy from sunlight. What is a diatom? What do they do with it?
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The cells of all organisms—from algae to whales to people—need chemical energy for all of their processes. • Some organisms, such as diatoms and plants, absorb energy from sunlight. What is a diatom? • What do they do with it? • Some of that energy is stored in sugars. • Cells break down sugars to produce usable chemical energy for their functions. • Without organisms that make sugars, living things on Earth could not survive.
MAIN IDEA: The chemical energy used for most cell processes is carried by ATP. You are hungry. You need energy, so you grab what? A Snickers Bar? A Kit-Kat Bar? Does this food that contains sugar and other Carbon-based molecules give you the energy that you need? How does it provide it to you, exactly? All carbon-based molecules store chemical energy in their bonds!
Starch molecule Glucose molecule • Molecules in food store chemical energy in their bonds. • What is a glucose molecule? A six-carbon sugar made by plants during photosynthesis. Used for energy!
What is ATP?Adenosine triphosphate, a molecule that transfers energy from the breakdown of food molecules to cell processes. • ATP carries chemical energy that cells can use. • Cells use ATP to carry out functions: • building molecules • moving materials by active transport.
phosphate removed How does ATP transfer energy from the breakdown of food molecules to cell functions? • ATP has three phosphate groups, but the third has a unstable, weak bond. • Energy is released when the third phosphate group is removed. • ADP is changed into ATP when a phosphate group is added. ADP is a lower-energy molecule that can be converted into ATP by the addition of a phosphate group.
phosphate removed Where are molecules from food involved in the cycle? Food molecules are supplying the energy to ADD a phosphate group to ADP, converting it once again to ATP!
Describe the relationship between energy stored in food and ATP. • Food molecules store chemical energy in their bonds. • Food is broken down into smaller molecules that are broken down further to transfer this energy to ATP.
Organisms break down carbon-based molecules to produce ATP. • Food does not contain readily useable ADP that our cells can use. • Food has to be eaten and digested first (making smaller molecules) • Different foods contain different amounts of calories, which is a measure of energy. Calories and ATP are related. • Different foods contain different amounts of ATP. • The number of ATP molecules produced depends on the type of molecule that is broken down • Carbohydrate • Lipid • Protein
Fill in the Details Section in the table on your Power Notes! Carbohydrates are the molecules most commonly broken down to make ATP. • not stored in large amounts in our bodies • you can get up to 36 ATP molecules from one glucose molecule
Lipids or Fats store the most energy and provide the most ATP when broken down. • Store 80 percent of the energy in your body • Obtain about 146 ATP molecules from a triglyceride • Proteins are least likely to be broken down to make ATP. • amino acids not usually needed for energy, but for making new proteins! • store about the same amount of energy as a carbohydrate
What about plants?More on them later……………. • Compare and Contrast:How do lipids and carbohydrates differ in ATP production? • Lipids provide more ATP than carbohydrates do. • Carbohydrates produce about 36, and lipids produce about 146.
A few types of organisms do not need sunlight and photosynthesis as a source of energy. • Some organisms live in places that never get sunlight (hydrothermal vents) • These vents release chemical compounds • In chemosynthesis, organisms use chemical energy instead of light energy to make energy-storing carbon-based molecules. • Process is • similar to photosynthesis • uses chemical energy instead of light energy
How are chemosynthetic organisms and plants similar as energy sources? • Both chemosynthetic organisms and plants make their own food and both are eaten by other organisms that cannot make their own food.