Metabolism
| Description: | (CN) Metabolism |
| Category: | Physical Therapy |
| Created by: | PT Board Exam on 2006-05-22 |
| Front | Back |
| What are the three energy systems? | ATP-PC (Phosphagen System), Anaerobic Glycolysis (Lactic Acid System), Aerobic (Oxygen System) |
| What is the ATP-PC system used for? | high intensity, short duration exercise, ie: 100m sprint. |
| How long will the ATP-PC system allow a muscle to sustain a contraction? | 15 seconds |
| Is there more phosphocreatine or ATP in muscle tissue? | there's 2 times as much PCr as ATP. |
| What is the most rapid-release metabolic system? | ATP-PC (Phosphagen system) |
| Why can the phosphagen system provide such rapid-release energy? (3) | 1) It doesn't depend on a long chain of chemical reactions. 2) It doesn't depend on oxygen to working muscles. 3) Both ATP and PC are stored directly in the contractile mechanisms in the muscle. |
| What metabolic system would likely be used during low intensity, long duration activities (ie: running a marathon)? | The aerobic system. |
| What is the trade off of ATP and time for the aerobic metabolic system? | The oxygen system yields the most ATP, but requires several series of complex chemical reactions. |
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Metabolism is the set of chemical reactions that occur in living organisms in order to maintain life. These processes allow organisms to grow and reproduce, maintain their structures, and respond to their environments. Metabolism is usually divided into two categories. Catabolism breaks down organic matter, for example to harvest energy in cellular respiration. Anabolism, on the other hand, uses energy to construct components of cells such as proteins and nucleic acids. The chemical reactions of metabolism are organized into metabolic pathways, in which one chemical is transformed into another by a sequence of enzymes. Enzymes are crucial to metabolism because they allow organisms to drive desirable but thermodynamically unfavorable reactions by coupling them to favorable ones, and because they act as catalysts to allow these reactions to proceed quickly and efficiently. Enzymes also allow the regulation of metabolic pathways in response to changes in the cell's environment or signals from other cells. The metabolism of an organism determines which substances it will find nutritious and which it will find poisonous. For example, some prokaryotes use hydrogen sulfide as a nutrient, yet this gas is poisonous to animals.[1] The speed of metabolism, the metabolic rate, also influences how much food an organism will require. A striking feature of metabolism is the similarity of the basic metabolic pathways between even vastly different species. For example, the set of carboxylic acids that are best known as the intermediates in the citric acid cycle are present in all organisms, being found in species as diverse as the unicellular bacteria Escherichia coli and huge multicellular organisms like elephants.[2] These striking similarities in metabolism are most likely the result of the high efficiency of these pathways, and of their early appearance in evolutionary history.[3][4] |
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