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Mitochondria Essay Research Paper Mitochondria

Mitochondria Essay, Research Paper


Mitochondria


Mitochondria are responsible for energy production. They are also the


responsible location for which respiration takes place. Mitochondria contain


enzymes that help convert food material into adenosine triphosphate (ATP), which


can be used directly by the cell as an energy source. Mitochondria tend to be


concentrated near cellular structures that require large inputs of energy, such


as the flagellum. The role of the mitochondria is very important in respiration.


In the presence of oxygen, pyruvate or fatty acids, can be further


oxidized in the mitochondria. Each mitochondrion is enclosed by two membranes


separated by an intermembrane space. The intermembrane space extends into the


folds of the inner membrane called cristae which dramatically increase the


surface area of the inner membrane. Cristae extend into a dense material called


the matrix, an area which contains RNA, DNA, proteins, ribosomes and range of


solutes. This is similar to the contents of the chloroplast stroma and like the


chloroplast, the mitochondrion is a semi-autonomous organelles containing the


machinery for the production of some of its own proteins. The main function of


the mitochondrion is the oxidation of the pyruvate derived from glycolysis and


related processes to produce the ATP required to perform cellular work.(Campbell


182-9)


Pyruvate, or fatty acids from the breakdown of triglycerides or


phospholipids, pass easily through pores in the outer mitochondrial membrane


made up of a channel protein called porin. The inner membrane is a more


significant barrier and specific transport proteins exist to carry pyruvate and


fatty acids into the matrix. Once inside the matrix, pyruvate and fatty acids


are converted to the two carbon compound acetyl coenzyme A (acetyl CoA). For


pyruvate this involves a decarboxylation step which removes one of the three


carbons of pyruvate as carbon dioxide. The energy released by the oxidation of


pyruvate at this stage is used to reduce NAD to NADH. (185)


The C2 acetyl CoA is then taken into a sequence of reactions known as


Krebs cycle which completes the oxidation of carbon and regenerates an acceptor


to keep the cycle going. The oxidation of the carbon is accompanied by the


reduction of electron acceptors and the production of some ATP by substrate


phosphorylation. The C2 acetyl CoA is coupled to oxaloacetate, a C4 acceptor in


the cycle. The product is citrate a C6 compound. This first product, citrate,


is the reason the cycle is sometimes called the citric acid or ticarboxylic acid


cycle, referring it after the scientist whose lab most advanced our


understanding of it, Sir Hans Krebs. (Comptons 160)


Two of the early reactions of the cycle are decarboxylations which


shorten citrate to succinate a C4 compound. The CO2 lost does not actually


derive from acetyl CoA, during that cycle, but two carbons are lost which are


the equivalent of the two introduced by ace

tyl CoA. The decarboxylation steps


are again accompanied by the reduction of NAD to NADH. The formation of


succinate also sees the formation of an ATP molecule by substrate


phosphorylation. (Brit 1041)


The last part of the cycle converts C4 succinate back to C4 oxaloacetate.


In the process another reaction generates NADH while another reduces the


electron acceptor FAD (Flavin Adenine Dinucleotide) to FADH.


The final stage of respiration in the mitochondria involves the transfer


of energy from the reduced compounds NADH and FADH to the potential energy store


represented by ATP. The process is oxidative phosphorylation and it is driven


by a chemiosmotic system analogous to that seen in chloroplasts. (Moore 88-9)


The inner membrane contains an electron transport chain that can receive


electrons from reduced electron carriers. The energy lost as electrons flow


between the components of the electron transport chain is coupled to the pumping


of protons from the matrix to the intermembrane space. The matrix is


alkalinized while the intermembrane space is acidified. The electrons are


ultimately combined with molecular oxygen and protons to produce water.


Respiration is aerobic when oxygen is the terminal electron acceptor. (Brit


1042)


The energy that was contained in the pyruvate molecule has at this point


been converted to ATP by substrate phosphorylation in glycolysis and Krebs cycle


and to a free energy gradient of protons across the inner membrane known as the


proton motive force (PMF). The gradient of protons will tend to diffuse to


equilibrium but charged substances like protons do not easily cross membranes.


Proton complexes in the inner membrane provide a channel for the protons to


return to the matrix. Those protein complexes function as an ATPase, an enzyme


that synthesizes ATP, because the energy liberated as the protons work to


diffuse back to the matrix is used to push the equilibrium between ADP+Pi and


ATP strongly toward ATP. (Campbell 182)


The electron transport chain has three sites along it that pump protons


from the matrix. NADH donates its electrons to the chain at a point where the


energy input is sufficient to drive all three proton pumping sites. FADH is less


energetic than NADH and its electrons are donated at a point that drives two


proton pumping sites. It is also possible for the NADH produced in glycolysis to


enter the mitochondrial matrix and donate electrons to the electron transport


chain. Depending on the system, NADH from glycolysis may be able to drive two or


three proton pumping sites. For eukaryotes, only two pumping sites are driven;


for prokaryotes, three. (184-5)


The importance of mitochondria is unremarkably, a key element in the


process of respiration. Between the three distinct sections of respiration,


glycolysis, Krebs Cycle, and Electron Transport, the mitochondrion is the site


of which most of it takes place, either inside of the mitochondrion or outside


it.

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