Lecture 27 How Organisms Obtain Energy Ozgur Unal

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Lecture 27 How Organisms Obtain Energy Ozgur Unal NIS - BIOLOGY Lecture 27 How Organisms Obtain Energy Ozgur Unal

Energy What is energy? Energy is the ability to do work (or the ability to cause a change) Thermodynamics is the study of the flow and transformation of energy in the universe.

Laws of Thermodynamics First law of thermodynamics: Energy can be converted from one form to another. Example: Chemical energy in food is converted into thermal energy in your body Second law of thermodynamics: Energy cannot be converted without the loss of usable energy. Entropy is the measure of disorder or unusable energy, in a system. Example: Loss of usable energy from one trophic level to the next one in food chain

Autotrophs and Heterotrophs All organisms need energy to live. Directly or indirectly nearly all the energy for life comes from the Sun. Autotrophs are organisms that make their own food. Chemoautotrophs Photoautotrophs Heterotrophs are organisms that need to ingest food to obtain energy.

Metabolism All of the chemical reactions in a cell are referred to as the cell’s metabolism. A series of chemical reactions in which the product of one reaction is the reactant for the next reaction is called a metabolic pathway. Two types of metabolic pathways: Catabolic and anabolic Catabolic pathways release energy by breaking down larger molecules into smaller ones. Anabolic pathways use the energy released by catabolic pathways to build larger molecules from smaller ones.

Metabolism Photosynthesis is the anabolic pathway in which light energy from the Sun is converted to chemical energy for use by cell. Autotrophs use light, CO2 and H2O to form glucose and oxygen.

Metabolism Cellular respiration is the catabolic pathway in which organic molecules are broken down to release energy for use by the cell. Oxygen is used to break down organic molecules, resulting in the production of CO2 and water.

ATP: The Unit of Cellular Energy In living organisms, chemical energy is stored in biological molecules and can be converted to other forms of energy when needed. Adenosine triphsophate, ATP, is the most important biological molecule that provides chemical energy. ATP is the most abundant energy carrier molecule in cells and is found in all organisms. ATP is made of an adenine base, a ribose sugar and 3 phosphate groups.

ATP Function ATP releases energy when the bond between the second and third phosphate groups is broken, forming a molecule called adenine diphosphate (ADP) and a free phosphate group. ATP and ADP can be interchanged by the addition or removal of a phosphate group. Sometimes ADP becomes adenosine monophosphate (AMP) by losing an additional phosphate group. There is less energy released in this reaction. http://img03.blogcu.com/images/h/a/k/hakkierkin/50dbb36643f94b5967aa85b882c0df1b_1262361481.gif