glucose as its metabolic fuel; it cannot oxidise fatty acids (but can metabolise ketone bodies in prolonged starvation) glycogen Red blood cells are absolutely reliant on glucose; they have no mitochondria and form ATP only by anaerobic glycolysis triacyglycerol protein glucose triacylglycerol in VLDL triacylglycerol in chylomicrons amino acids glucose The problem: glycogen protein We eat 2 – 3 times a day; how can we maintain a constant supply of glucose for the
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substrate-level phosphorylation‚ and reduces three molecules of NAD and one molecule of FAD for use in Oxidative Phosphorylation. The cycle is preceded by Glycolysis‚ which also occurs in anaerobic respiration‚ and the pyruvate dehydrogenase complex‚ which occur in the cytoplasm and the mitochondrial matrix respectively. In aerobic respiration‚ glycolysis breaks down one molecule of glucose and two molecules of pyruvate‚ and gives a net product
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A few stages in glycolysis are controlled‚ yet the most vital control point is the third step of the pathway‚ which is catalysed by a compound called phosphofructokinase (PFK). This response is the main conferred step‚ making PFK a focal focus for control of the glycolysis pathway as a whole. PFK is directed by ATP‚ an ADP subordinate called AMP‚ and citrate‚ and in addition some other molecules. ATP is a negative controller of PFK‚ which bodes well: if there is as of now a lot of ATP in the phone
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BCH 3023 – Fall 2008 Final Exam‚ 12/8/2008 Name: _________________________________ 1. The GTP analog‚ ‚-imidoguanosine 5’-triphosphate (Gpp(NH)p)‚ shown below‚ cannot be hydrolyzed between the and phosphates. Predict the effect of microinjection of Gpp(NH)p of G-protein coupled signaling. O N NH O O H N P OO O P OH OH OH O H N N NH2 - O P O- O H H a. Gpp(NH)p is a substrate for adenylate cyclase and‚ thus‚ will decrease the intracellular concentration of
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Human bioenergetics has dependably been an exceptionally intriguing‚ yet complex point. In any case‚ knowing the fundamentals on how our bodies create vitality can be exceptionally valuable when additionally talking about weakness. A basic thought to recollect is that muscle compression is because of a particle called ATP (adenosine triphosphate). ATP must be available for muscles to contract. There are three frameworks of energy that create ATP: Phosphocreatine system‚ the glycolytic system‚ or
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synthesis By the end of this chapter you should be able to: a outline the stepwise breakdown of glucose in cellular respiration; f explain the significance of the Krebs cycle in ATP formation; b explain the sequence of steps in glycolysis; g c describe the structure of a mitochondrion‚ relating its structure to its function; explain the process of oxidative phosphorylation with reference to the electron transport chain; d state the fate of pyruvate in the cytosol
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ANSWER ALL OF THE QUESTIONS BELOW. (70 marks) 1. Comment on the statement below: ‘Glycolysis and Gluconeogenesis are reciprocally regulated’ Reciprocally regulated means when one process takes place in a cell‚ the other process will essentially inactivated. This regulation ensures that either glycolysis or gluconeogenesis predominate as to prevent concurrent activity in two closely parallel pathways‚ where if both Glycolysis and Gluconeogenesis happen at the same exact moment‚ ‚ the net result would be
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fructose-1-phosphate. The second step of the cycle takes place when the enzyme aldolase B splits the fructose-1-phosphate into 2 three carbon molecules - DHAP (dihydroxyacetone phosphate) and glyceraldehyde. At this point these two products can enter glycolysis and produce energy for the body to use. Activation energy is the minimum amount of energy needed for a
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reactions without the correct shape. The enzyme hexokinase in glycolysis can only break down glucose‚ therefore the other sugars must be converted to glucose‚ requiring more enzymes and more energy. Glucose is the final product of photosynthesis. Its chemical formula is C₆H₁₂O₆‚ and it is a monosaccharide‚ meaning it is made up of one sugar‚ hence the ‘mono’. Glucose is the sugar required for glycolysis‚ as the enzymes that start the glycolysis process are designed to break down glucose. Therefore‚ no
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minutes. This system kicks in when our ATP and CP stores have run out‚ glycogen from muscles and the liver is used to be broken down it glucose‚ as glycogen provides a quick source of energy and can be directed to the muscles quickly. Anaerobic Glycolysis occurs‚ which involves ten chemical reactions occurring within the muscle which turns glucose into pyruvic acid and 2 molecules of ATP. The lack of oxygen in this reaction means that some of the waste products are not disposed of‚ which causes a
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