What is the net gain of atp during the conversion of glucose to pyruvate

• trending • Gut molecule that blocks ‘hunger hormone’ may spur new treatments for diabetes, anorexia • NHS to give free Fitbits and one-to-one weight loss coaching to thousands of obese Brits in bid to s ... • Colorado Springs family adapts to reality of Type 1 diabetes as, one after one, children are diagnosed • Type 1 diabetes misdiagnosed in many adults • Many adults with diabetes delay insulin therapy How Many Atp Molecules Are Produced From One Glucose Molecule During The Electron Transport Chain? | Socratic How many ATP molecules are produced from one glucose molecule during the electron transport chain? ETC mainly converts NADH2 and FADH2 into ATP by using a proton gradient across a membrane. There are also 2 FADH2 obtained in Kreb's cycle. Since 1 NADH2 = 3 ATP and 1 FADH2 = 2 ATP, total ATP formed are 34. 2 more ATP are directly obtained from glycolysis and 2 from substrate level phosphorylation (ie, without entering ETC) of 2 GTPs formed in Kreb's cycle. Thus, 34 from ETC, and 4 from elsewhere make total 38 ATPs from aerobic respiration . How many ATP molecules are produced from one glucose molecule during the electron transport chain? How many ATP molecules are produced from one glucose molecule during the electron transport chain? ETC mainly converts NADH2 and FADH2 into ATP by using a proton gradient across a membrane. There are also 2 FADH2 obtained in Kreb's cycle. Since 1 NADH2 = 3 ATP and 1 FADH2 = 2 ATP, total ATP formed are 34. 2 more ATP are directly o...

ATP: • Adenosine triphosphate (ATP) is the cellular energy source for usage and storage. • ATP is also produced via the process of cellular respiration in a cell's mitochondria. • This can be accomplished by aerobic respiration, which requires oxygen, or anaerobic respiration, which does not. Net ATP gain from one glucose: • In aerobic respiration, one glucose molecule results in a net ATP gain of 38 ATP. • It comprises ATP generated during glycolysis, the link reaction, the TCA cycle, and oxidative phosphorylation in the electron transport system. Glycolysis: • It is the process of breaking down glucose to create energy. • Glycolysis generates 2 ATP and 2 NADH, for a total of 8 ATP molecules. Krebs cycle: • It is a series of events in living organisms in which acetic acid or acetyl equivalent oxidation produces energy for storage in phosphate bonds (as in ATP) • The Krebs cycle yields three NADH molecules (two cycles) and 18 ATP molecules. • In two cycles, four FADH2 molecules are generated, yielding four ATP molecules. • Two GTP molecules are created in two cycles, resulting in the release of two ATP molecules. Electron transport chain: • It is the metabolic mechanism through which electrons move from one carrier to another. • In two cycles, oxidative phosphorylation produces two NADH molecules while releasing six ATP molecules. Final Answer: All of the preceding events result in a net ATP gain of 38 molecules from a single glucose molecule.

This problem has been solved! You'll get a detailed solution from a subject matter expert that helps you learn core concepts. See Answer See Answer See Answer done loading Question:Question 3 What is the net gain of ATP during the conversion of glucose to Not yet answered pyruvate? Marked out of 1.00 Flag question O a. 6 ATP b. 1 ATP + 1 GTP Ос. 4 АТР Od 2 ATP

Identify the reactants and products of cellular respiration and where these reactions occur in a cell Now that we’ve learned how autotrophs like plants convert sunlight to sugars, let’s take a look at how all eukaryotes—which includes humans!—make use of those sugars. In the process of photosynthesis, plants and other photosynthetic producers create glucose, which stores energy in its chemical bonds. Then, both plants and consumers, such as animals, undergo a series of metabolic pathways—collectively called cellular respiration. Cellular respiration extracts the energy from the bonds in glucose and converts it into a form that all living things can use. Learning Objectives • Describe the process of glycolysis and identify its reactants and products • Describe the process of pyruvate oxidation and identify its reactants and products • Describe the process of the citric acid cycle (Krebs cycle) and identify its reactants and products • Describe the respiratory chain (electron transport chain) and its role in cellular respiration Cellular respiration is a process that all living things use to convert glucose into energy. Autotrophs (like plants) produce glucose during photosynthesis. Heterotrophs (like humans) ingest other living things to obtain glucose. While the process can seem complex, this page takes you through the key elements of each part of cellular respiration. Glycolysis Glycolysis is the first step in the breakdown of glucose to extract energy for cellular metabo...

\( \newcommand\) • • • • • • • • • • • Learning Objectives • Briefly describethe function of glycolysis during aerobic respiration and indicate the reactants and products. • State whether or not glycolysis requires oxygen. • Compare where glycolysis occurs in prokaryotic cells and in eukaryotic cells. • State whether steps 1 and 3 of glycolysis are exergonic or endergonic and indicate why. • State why one molecule of glucose is able to produce two molecules of pyruvate during glycolysis. • Define substrate-level phosphorylation. • State the total number and the net number of ATP produced by substrate-level phosphorylation during glycolysis. • During aerobic respiration, state what happens to the 2 NADH produced during glycolysis. • During aerobic respiration, state what happens to the two molecules of pyruvate produced during glycolysis. Steps of Glycolysis • A phosphate from the hydrolysis of a molecule of ATP is added to glucose, a 6-carbon sugar, to form glucose 6-phosphate. • The glucose 6-phosphate molecule is rearranged into an isomer called fructose 6-phosphate. • A second phosphate provided by the hydrolysis of a second molecule of ATP is added to the fructose 6-phosphate to form fructose 1, • The 6-carbon fructose 1,6-biphosphate is split into two molecules of glyceraldehyde 3-phosphate, a 3-carbon molecule. • Oxidation and phosphorylation of each glyceraldehyde 3-phosphate produces 1,3-biphosphoglycerate with a high-energy phosphate bond (wavy red line) and NADH....

ATP: • Adenosine triphosphate (ATP) is the cellular energy source for usage and storage. • ATP is also produced via the process of cellular respiration in a cell's mitochondria. • This can be accomplished by aerobic respiration, which requires oxygen, or anaerobic respiration, which does not. Net ATP gain from one glucose: • In aerobic respiration, one glucose molecule results in a net ATP gain of 38 ATP. • It comprises ATP generated during glycolysis, the link reaction, the TCA cycle, and oxidative phosphorylation in the electron transport system. Glycolysis: • It is the process of breaking down glucose to create energy. • Glycolysis generates 2 ATP and 2 NADH, for a total of 8 ATP molecules. Krebs cycle: • It is a series of events in living organisms in which acetic acid or acetyl equivalent oxidation produces energy for storage in phosphate bonds (as in ATP) • The Krebs cycle yields three NADH molecules (two cycles) and 18 ATP molecules. • In two cycles, four FADH2 molecules are generated, yielding four ATP molecules. • Two GTP molecules are created in two cycles, resulting in the release of two ATP molecules. Electron transport chain: • It is the metabolic mechanism through which electrons move from one carrier to another. • In two cycles, oxidative phosphorylation produces two NADH molecules while releasing six ATP molecules. Final Answer: All of the preceding events result in a net ATP gain of 38 molecules from a single glucose molecule.

This problem has been solved! You'll get a detailed solution from a subject matter expert that helps you learn core concepts. See Answer See Answer See Answer done loading Question:Question 3 What is the net gain of ATP during the conversion of glucose to Not yet answered pyruvate? Marked out of 1.00 Flag question O a. 6 ATP b. 1 ATP + 1 GTP Ос. 4 АТР Od 2 ATP

\( \newcommand\) • • • • • • • • • • • Learning Objectives • Briefly describethe function of glycolysis during aerobic respiration and indicate the reactants and products. • State whether or not glycolysis requires oxygen. • Compare where glycolysis occurs in prokaryotic cells and in eukaryotic cells. • State whether steps 1 and 3 of glycolysis are exergonic or endergonic and indicate why. • State why one molecule of glucose is able to produce two molecules of pyruvate during glycolysis. • Define substrate-level phosphorylation. • State the total number and the net number of ATP produced by substrate-level phosphorylation during glycolysis. • During aerobic respiration, state what happens to the 2 NADH produced during glycolysis. • During aerobic respiration, state what happens to the two molecules of pyruvate produced during glycolysis. Steps of Glycolysis • A phosphate from the hydrolysis of a molecule of ATP is added to glucose, a 6-carbon sugar, to form glucose 6-phosphate. • The glucose 6-phosphate molecule is rearranged into an isomer called fructose 6-phosphate. • A second phosphate provided by the hydrolysis of a second molecule of ATP is added to the fructose 6-phosphate to form fructose 1, • The 6-carbon fructose 1,6-biphosphate is split into two molecules of glyceraldehyde 3-phosphate, a 3-carbon molecule. • Oxidation and phosphorylation of each glyceraldehyde 3-phosphate produces 1,3-biphosphoglycerate with a high-energy phosphate bond (wavy red line) and NADH....

• trending • Gut molecule that blocks ‘hunger hormone’ may spur new treatments for diabetes, anorexia • NHS to give free Fitbits and one-to-one weight loss coaching to thousands of obese Brits in bid to s ... • Colorado Springs family adapts to reality of Type 1 diabetes as, one after one, children are diagnosed • Type 1 diabetes misdiagnosed in many adults • Many adults with diabetes delay insulin therapy How Many Atp Molecules Are Produced From One Glucose Molecule During The Electron Transport Chain? | Socratic How many ATP molecules are produced from one glucose molecule during the electron transport chain? ETC mainly converts NADH2 and FADH2 into ATP by using a proton gradient across a membrane. There are also 2 FADH2 obtained in Kreb's cycle. Since 1 NADH2 = 3 ATP and 1 FADH2 = 2 ATP, total ATP formed are 34. 2 more ATP are directly obtained from glycolysis and 2 from substrate level phosphorylation (ie, without entering ETC) of 2 GTPs formed in Kreb's cycle. Thus, 34 from ETC, and 4 from elsewhere make total 38 ATPs from aerobic respiration . How many ATP molecules are produced from one glucose molecule during the electron transport chain? How many ATP molecules are produced from one glucose molecule during the electron transport chain? ETC mainly converts NADH2 and FADH2 into ATP by using a proton gradient across a membrane. There are also 2 FADH2 obtained in Kreb's cycle. Since 1 NADH2 = 3 ATP and 1 FADH2 = 2 ATP, total ATP formed are 34. 2 more ATP are directly o...

Identify the reactants and products of cellular respiration and where these reactions occur in a cell Now that we’ve learned how autotrophs like plants convert sunlight to sugars, let’s take a look at how all eukaryotes—which includes humans!—make use of those sugars. In the process of photosynthesis, plants and other photosynthetic producers create glucose, which stores energy in its chemical bonds. Then, both plants and consumers, such as animals, undergo a series of metabolic pathways—collectively called cellular respiration. Cellular respiration extracts the energy from the bonds in glucose and converts it into a form that all living things can use. Learning Objectives • Describe the process of glycolysis and identify its reactants and products • Describe the process of pyruvate oxidation and identify its reactants and products • Describe the process of the citric acid cycle (Krebs cycle) and identify its reactants and products • Describe the respiratory chain (electron transport chain) and its role in cellular respiration Cellular respiration is a process that all living things use to convert glucose into energy. Autotrophs (like plants) produce glucose during photosynthesis. Heterotrophs (like humans) ingest other living things to obtain glucose. While the process can seem complex, this page takes you through the key elements of each part of cellular respiration. Glycolysis Glycolysis is the first step in the breakdown of glucose to extract energy for cellular metabo...