What is the most energetic transition in the catabolism of glucose
Homework Answers
Glycolysis is considered as the most energetic transition in the catabolism of glucose. Glycolysis is a metabolic pathway that yields energy from breakdown of glucose. It is a major energy yielding pathway in eukaryotic cell. It breaks down glucose into pyruvate. The energy released during this process is used to generate ATP and NADH which is utilised by cell to carry out various physiological processes.
Also the intermediates produced during the glycolysis are used for different processes.
Glycolysis yields major form of energy compared to any other respiratory pathway and is thus the most energetic transition in catabolism of glucose.
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What determines the maximum theoretical yield of ATP during glucose catabolism? O A. How the NADH made during glycolysis enter the mitochondria B. How the FADH2 made during glycolysis enter the mitochondria O C. NADH oxidizing at complex I or complex II OD. FADH2 oxidizing at complex I or complex II Reset Selection
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How many molecules of FADH_2 are produced by the complete catabolism of one molecule of glucose? 1 2 4 8 16 The majority of ATP produced during the catabolism of glucose is formed during? oxidative phosphorylation glycolysis the citric acid cycle lipogenesis acetly-CoA formation
Catabolism of Glucose. In the following paragraphs, write in the term that fits best. One of the most thoroughly studied aspects of metabolism is the catabolism of glucose. The process involves many chemical steps and three metabolic The first of these is called . In this pathway, one 6-carbon glucose molecule is converted into two 3-carbon molecules of the early steps of this metabolic pathway, two molecules of must be supplied for energy. Later on, however, a total of ATP...
The energetic electron, taken from glucose or a lot breakdown product of glucose, is stripped of its energy to... A. actively transport H+ into the intermembrane space B. actively transport NAD+ into the intermembrane space live C. actively transport Nat into the matrix V DESSAY W D. power facilitated diffusion of H+ into the matrix annos E actively transport H+ into the matrix Protein comp of electron FAD FADI AD
What determines the maximum theoretical yield of ATP during glucose catabolism? O A. How the NADH made during glycolysis enter the mitochondria B. How the FADH2 made during glycolysis enter the mitochondria O C. NADH oxidizing at complex I or complex II OD. FADH2 oxidizing at complex I or complex II Reset Selection
What determines the maximum theoretical yield of ATP during glucose catabolism? O A. How the NADH made during glycolysis enter the mitochondria O B. How the FADH2 made during glycolysis enter the mitochondria OC. NADH oxidizing at complex lor complex II OD. FADH2 oxidizing at complex lor complex II Dorot Colontinn
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