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Metabolism

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Submitted By jjcarter17
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Task 208.5.4-­‐01, 03-­‐04

Jennifer Carter Student ID# 000317094

A1 • Enzymes are complex proteins that carry out chemical reacKons. They can speed up or slow down a reacKon, but will remain unchanged. (Hudson-­‐Miller, 2012) • An enzymes shape is very important in the process. (Wolfe, 2000) • ReacKons will occur without a catalyst, but with the catalyst it will speed the process up. • Carbohydrates will be broken down into sugar on their own but when you add a enzyme to the process (like your saliva) it will speed up. You also won’t use up as much energy in the process.

A2 If Aldolose B is not present this is called hereditary fructose intolerance. If there is a deficiency of aldolase B it will cause an accumulaKon of F1P and will “trap” the phospahte. Fructose, once ingested, is broken down to fructose-­‐1-­‐phosphate(F1P) by the liver , by fructokinase. F1P is metabolized by aldolase B. As the process tries to move along the enzyme is blocked and there is a reduced amount of ATP producKon and inhibiKon of glucose. If aldolose B is not present then their will be an abundance of F1P in the liver. This can be toxic to the system eventually causing people to have liver failure. Symptoms are also shown with that of hypoglycemia. (Sanders, J, 2012)

A3a New World Encyclopedia, 2013 Lock and key method.

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A3b ReacKons and enzymes, 2010

Diagram of the effect of enzymes on acKvaKon energy.

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A4 • The specific substrate acted on by Aldolase B is fructose-1-phosphate (F1P). This then is converted into DHAP and glyceraldehyde. Once the conversion is finished the product can enter the glycolysis cycle to from ATP or energy used for the body. “In normal cellular conditions, the primary enzymatic activity of aldolase B is to cleave fructose diphosphate (FDP).” (Roth, 2012)

A5 • Fructose transporter moves fructose from the blood to the liver and then from the liver back to the blood. If you want the fructose to stay in the liver cell then you need to phosphorylated to stay. This is done with fructokinase. This has an enzyme that uses ATP to put a phosphate (F-­‐1-­‐P) on it. F-­‐1-­‐P is the substrate for Aldolase B, Aldolase B then takes F-­‐1-­‐P and makes DHAP and glyceraldehyde which are the products of aldolase B. These products are used for glycolysis which makes ATP and faay acids. It also will go threw gluconeogenesis to make the G-­‐6-­‐P and then turn it into glucogen. F-­‐1-­‐P can also signal glucokinase to come out of the nucleus. It is used as a signal of high blood suger. When blood glucose is low F-­‐1-­‐P is low as well, so glucokinase will go to the nucleus. (Sanders, J) 2013

B1 • The Gylcolysis process of the the cori cycle produces 2 ATP molecules at the cost of 6 ATP molecules (Hudson-­‐Miller, cori cycle) 2012 • Glucose to lactate is 2 ATP • Lactate to Glucose is -­‐6 ATP • In the end you actually see a net loss of ATP. This process could not go on because you are not gaining enough ATP to conKnue for long periods of Kme. Eventually it will start to produce lacKc acid. The cell would eventually die off. (Hudson-­‐Miller, cori cycle) 2012 • Muscular acKvity requires ATP which is produced by the breakdown of glycogen in the skeletal muscle. During muscular acKvity the ATP needs to be replenished constantly. When the oxygen supply is good the ATP come from pyruvate. When the oxygen is low, lactate is taken up by liver. Lactate is then converted into pyruvate and then back to glucose. The glucose then goes through the blood stream to the muscle. Once in the muscle it is converted back to lactate. This is a circle process with a negaKve producKon of ATP. (Hudson-­‐Miller, cori cycle) 2012

B2-­‐Wikipedia, citric acid cycle

B3 Aconitase is an enzyme we use to help produce ATP in our bodies. Enzymes work as catalysts in our bodies to increase the rate of reacKon. The thousands of reacKons that work in our body could not happen with out enzymes to speed up the process. (Hudson-­‐Miller, citric acid cycle) 2012 Enzymes are proteins that do all the work. They synthesize chemicals, rearrange molecules, add elements to compounds, and break down compounds. (Hudson-­‐Miller, citric acid cycle) 2012 All cells require enzymes to survive. If aconitase was not present in the citric acid cycle it would cause the whole cycle to stop producing NADH, NAD, FADH2, GTP. Basically the whole citric acid cycle would come to a stop. With out the whole process working together the next step cannot work. The next step would be the electron transport train where NADH could not convert it into ATP.

B4 • Coenzyme Q10 is fat-­‐soluble and is mobile in cellular membranes. It plays a unique role in the electron transport chain (ETC). In the inner mitochondrial membrane electrons from NADH pass through the ETC to the oxygen, which is then reduced to water. The transfer of electrons through ETC results in the pumping of H+ across the membrane creaKng a proton gradient across the membrane, which is used by ATP synthase to generate ATP. (Sanders) 2013 • Coenzyme Q10 funcKons as an electron carrier from enzyme complex I and enzyme complex II to complex III in this process. This is crucial in the process because no other molecule can perform this funcKon. (Sanders) 2013 • Coenzyme Q10 funcKons in every cell of the body to synthesize energy. (Sanders) 2013

References • • • • • • • • • • New World encyclopedia , (June 2013), retrieved from, hap://www.newworldencyclopedia.org/entry/File:Two_substrates_b.png ReacKons and Enzymes, (May hap://www2.estrellamountain.edu/faculty/farabee/biobk/biobookenzym.html Wolfe, G (2000), Thinkwell Biochemistry, retrieved from wgu.thinkwell.com Sanders, J. (2012) Hereditary fructose intolerance. Retrieved from hap://wgu.hosted.panopto.com/Panopto/Pages/Viewer/Default.aspx? 2010), retrieved from, id=4b4de18d-­‐60f5-­‐4866-­‐a77c-­‐b673ce51aab6 In-­‐text citaKon: Sanders, 2013 Substrate. StudyMode.com. Retrieved 11, 2012, from http://www.studymode.com/course-notes/Substrate-1241872.html

Reference: Sanders, J. (2013) Aldolase B and Hereditary Fructose Intolerance. Retrieved from hap://wgu.hosted.panopto.com/Panopto/Pages/Viewer/Default.aspx?id=ce81226c-­‐ d293-­‐4232-­‐997e-­‐n2957530367 In-­‐text citaKon: Sanders, 2013 Hudon-­‐Miller, S. (2012) Cori cycle. Retrieved from hap://youtu.be/gWXDNBiLva4 Sanders, Jennie, (2013) Electron Transport Train, retrieved from hap://www.youtube.com/watch? v=VV1PLO6ckbY Wikepedia, Citric acid cycle, retrieved from hap://en.wikipedia.org/wiki/Citric_acid_cycle#InteracKve_pathway_map Hudon-­‐Miller, S. (2012) Citric acid cycle. Retrieved from hap://youtu.be/Wt5nYED2GJs

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