larCellular respiration in sports Kerb cycle The Krebs cycle refers to a complex series of chemical reactions that produce carbon dioxide and Adenosine triphosphate (ATP)‚ a compound rich in energy. The cycle occurs by essentially linking two carbon coenzyme with carbon compounds; the created compound then goes through a series of changes that produce energy. This cycle occurs in all cells that utilize oxygen as part of their respiration process; this includes those cells of creatures from the
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Cellular respiration‚ which synthesis ATP‚ begins with glycolysis‚ wherein a six-carbon glucose is broken down into two three-carbon molecules called pyruvate. This process requires the input of two ATPs to produce two pyruvates‚ two NADHs‚ and 4 ATPs. The NADHs are synthesised when NAD+‚ delivered by B vitamins‚ become bound to hydrogen and energised electrons1. Following glycolysis is the Krebs cycle and electron transport chain respectively. The Krebs cycle uses the two pyruvates produced in glycolysis
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cells is cellular respiration. Cellular respiration is a metabolic process by which oxygen is used in the mitochondria to break down glucose in order to release stored energy. The process uses glucose and oxygen to generate carbon dioxide‚ water and ATP. The ATP produced is the main source of energy in organisms. Cellular respiration can occur via two processes: aerobic and aerobic respiration. Aerobic respiration is far more common‚ and efficient than anaerobic respiration. Aerobic respiration produces
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Cellular Respiration and Photosynthesis Photosynthesis is the process by which plants‚ some bacteria‚ and some protistans use the energy from sunlight to produce sugar‚ which cellular respiration converts into ATP‚ the "fuel" used by all living things. The conversion of unusable sunlight energy into usable chemical energy‚ is associated with the actions of the green pigment chlorophyll. Most of the time‚ the photosynthetic process uses water and releases the oxygen. Cellular respiration
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Photosythesis and Cellular Respiration are both processes in Biology which transform energy in one form to another. Photosythesis is the process in which light energy is converted into chemical energy to produce glucose. Cellular respiration is the metabolic process in which food is broken down to form stored energy in the form of ATP. Although both processes are found in double membraned organelles‚ photosynthesis occurs in chloroplasts in plant cells and cellular respiration occurs in the mitochondria
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Cellular respiration is a process that all living things go through. Cellular respiration is a process that begins with glucose‚ then moves on to the Krebs cycle (a.k.a. Citric acid cycle)‚ and finally end with the Electron Transport Chain (ETC). Without this sequence of processes‚ there would be no life on Earth. Cellular Respiration begins with glycolysis. Glycolysis includes glucose‚ hence the “glyco”. “Lysis” is the process of breaking down‚ therefore Glycolysis is the process of
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Cellular respiration is the action when cells release energy by chemical bonds from food molecules and provides that efficiency for the essential process of life. Every living thing must carry out cellular respiration‚ and it can either be aerobic respiration or anaerobic respiration. During the process‚ prokaryotic cells carry out cellular respiration within the cytoplasm‚ or‚ in the inner surfaces of the cells. In cellular respiration‚ the reactants are oxygen and glucose. When an organism breathes
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Cellular respiration is the process of converting chemical energy of organic molecules such as glucose into a form of energy usable by organisms. This energy is mainly produced in the mitochondrial matrix and takes form in the molecule adenosine triphosphate [also known as ATP]‚ which is made up of an adenosine with a three phosphate tail group. The reason why ATP produces energy is due to the loss of the third phosphate group. The third phosphate‚ when released‚ releases the bond energy and supplies
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Cellular Respiration In this lab the effects of different substrates on the rate of cellular respiration is being put to a test which is a very interesting experiment. The three major substrate solutions being used for this experiment are glucose‚ maltose‚ and alanine. The issues this experiment addresses are cellular respiration occur in different stages which are glycolysis‚ citric acid cycle‚ and fermentation. In this lab the experiment determines the effect of different substrates on
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Understanding the function of cellular respiration and fermentation is easy to learn. However it is more difficult to learn the process of glucose being converted into energy. Cellular respiration has four stages‚ of which a phase can consist of eight or ten steps. In the Krebs Cycle alone‚ there are ten steps‚ where the input of Acetyl CoA is eventually reconverted back into oxaloacetate. Fermentation is also no different. It can be difficult for students to understand what the role of NADH
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