Glycolysis Two stage process Stage 1 – trapping and destabilising glucose in order to produce 2x3c molecules (5steps in the process). Requires energy (2 ATPs) Stage 2 – oxidation of the 3c molecules to pyruvate (5steps in the process). Energy generated (4tps and 2 NADH) Stage 1 Step 1 – trapping glucose‚ glucose enters via facilitated diffusion through specific transport proteins. The family of transporters is known as GLUT‚ GLUT 3 (brain‚ nerve tissue) Low Km allows relatively constant rate
Premium Adenosine triphosphate Glycolysis Cellular respiration
molecules in three stages‚ glycolysis: in the cytosol‚ the citric acid cycle: in the mitochondrial matrix and oxidative phosphorylation: at the mitochondrial inner membrane (1). The 6-carbon molecule of Glucose is broken down into 3-carbon pyruvate molecules during the nine stages of glycolysis. However‚ for this reaction to occur‚ 2 ATP molecules must be broken down to power the segregation process of glucose into 2 pyruvates (3). Throughout this process‚ glycolysis produces four ATP‚ which results
Premium Cellular respiration Metabolism Adenosine triphosphate
Glycolysis Regulation Task 3 (D4) Glycolysis is the breakdown of glucose into a compound called pyruvate. A net of two ATPs are produced as the process uses two ATPs and produces four. Glycolysis consists of ten chemical reactions; each reaction is catalysed using a different enzyme. Oxygen is not required during glycolysis so it is considered anaerobic respiration. Glycolysis must be regulated so that energy is produce only when required. During glycolysis there are three enzymes that catalyse
Premium Glucose Adenosine triphosphate Enzyme
the chemical bonds that hold the molecule together” (Exercise Physiology: Tennis Physiology). ATP results from energy being produced from either an aerobic system or anaerobic system. The production of ATP can come from systems such as ATP-PC and glycolysis‚ which is what tennis players use predominantly during a match. Tennis uses different types of intensities for different lengths of time. Tennis requires constant movement‚ running side to side‚ back and forth. The muscle force
Premium Metabolism Adenosine triphosphate Cellular respiration
THE EFFECT OF INHIBITORS AND MANIPULATION IN ENERGY PRODUCTION OF YEAST CELLS FOR GLYCOLYSIS AND FERMENTATION INTRODUCTION The aim of this experiment was to study the process of alcoholic fermentation in Saccharomyces cerevisiae (yeast cells) and measure the rate of Co2 production during anaerobic breakdown of the respiratory substrate‚ sucrose‚ in the yeast cells. The effects of an inhibitor on respiratory enzyme were also looked at. It is hypothesized that the five different reaction mixtures
Premium Glycolysis Cellular respiration Adenosine triphosphate
1. Glycolysis is a catabolic pathway through which glucose (C6H12O6) is oxidized to pyruvate (CH3COCOO−). It takes place in the cytosol of both eukaryotic and prokaryotic cells. During the first steps of glycolysis‚ 2ATP molecules are used to attach two phosphates to the glucose molecule‚ leaving a 6-carbon sugar diphosphate and 2 ADP molecules. Afterwards‚ the 6-carbon sugar diphosphate is split into two 3-carbon sugars by the enzyme Isomerase. The two 3-carbon sugar molecules then both undergo
Premium Adenosine triphosphate Cellular respiration Metabolism
part of the plant’s transportation system‚ moving water and nutrients around the plant as needed. The mesophyll cells have chloroplasts and this is where photosynthesis occurs. Respiration can be defined as the oxidation of the end products of glycolysis with the storage of the energy in the form of ATP. Cellular respiration occurs when oxygen is available‚ and the products are carbon dioxide and water. There are three main pathways in the cellular respiration process. These are: pyruvate oxidation
Free Photosynthesis Cellular respiration
nutrients for later use. When cells are deficient for food or energy‚ catabolism occurs to break down the stored nutrients for the body to use. Glycolysis is the catabolic process in which glucose is converted into pyruvate via ten enzymatic steps. There are three regulatory steps‚ each of which is highly regulated. There are two phases of Glycolysis. The first is known as the "priming phase‚" because it requires an input of energy in the form of 2 ATPs per glucose molecule. The second phase is
Free Cellular respiration Adenosine triphosphate Citric acid cycle
respiration? Glycolysis is where glucose is split into two molecules of 3-carbon sugars. This produces 2ATP‚ 2 pyruvic acid‚ and 2 high energy. In The Citric Acid Cycle‚ Acetyl CoA is created. NAD and FAD are reduced carrying the high energy electrons to the next stage. In the Electron Transport‚ high energy electrons are passed to oxygen where ATP is then produced. 6. What are the three stages of cellular respiration in the correct order? Glycolysis‚ The Citric Acid Cycle
Free Cellular respiration Adenosine triphosphate Citric acid cycle
Reference Page Donald‚ Rizzo C. "Cellular Metabolism." Fundamentals of Anatomy and Physiology. 3rd ed. New York: Delmare‚ 2010. 64-70. Print. "The Guide: Glycolysis." ThinkQuest. Oracle Foundation‚ n.d. Web. 25 June 2012. <http://library.thinkquest.org/27819/ch4_4.shtml>. "Specialized Cell Structure and Function." : Cellular Respiration â FactMonster.com. 2000–2012 Pearson Education‚ Publishing as Fact Monster‚ n.d. Web. 25 June 2012. <http://www.factmonster.com/cig/biology/cellular-respiration
Premium Adenosine triphosphate Cellular respiration Metabolism