Compare and contrast the processes of catabolism and anabolism.
Explain one way each of the terms differs from each other in
relation to cellular respiration and photosynthesis.
Catabolism is a process in which large molecules break down into smaller ones like a long chain fatty acid molecules breakdown into acetyl-CoA and releases energy in the surrounding, so catabolism provides the energy which in required for the biological system to function properly, that means it is an exothermic process. In cellular respiration, glucose molecules breakdown into smaller pyruvate which subsequently goes to the citric acid cycle and after that to the electron transport chain to produce ATP as the energy source for the cell, so, it is the ideal example of catabolism.
And in compare to catabolism anabolism is process in which small molecules combined together to form a large molecule like carbohydrates, proteins etc. This process requires energy to complete the anabolism process. So cell expenditure its energy to accomplish the anabolism of a specific macromolecules to full fill its requirement. In photosynthesis, the carbon dioxide molecule assimilated with the help of an enzyme and produce 3-phosphoglycerate in the Calvin cycle. It is a ideal example of an anabolism.
Compare and contrast the processes of catabolism and anabolism. Explain one way each of the terms...
Compare and contrast metabolism, catabolism and anabolism. We shortly talked about this problem in class, but my professor wants the answer in paragraph form and I am not completely sure. I know how to compare and contrast catabolism and anabolism, but I am not sure on how to incorporate metabolism. I hope someone can help!
Create a table to compare and contrast photosynthesis and cellular respiration with key components of each included. Relate each component back to the processes’ formula.
Compare and contrast aerobic and anaerobic processes of benzoate catabolism.
please help! 1.Explain the ADP-ATP cycle and its relationship with catabolism and anabolism. And determine what is source of energy for adding phosphate group to ADP? 2. Determine whether the following involves catabolic or anabolic reactions ( you will have to do some research to figure out what these processes are): i. Glycolysis ii. Kreb cycle iii. Replication of DNA iv. Conversion of glucose to glycogen v. Glucose produced in photosynthesis vi. ATP hydrolysis to ADP and Pi vii. Production...
Q1: What are catabolism and anabolism (4 marks)? Q2: Under aerobic respiration, a molecule glucose is oxidized to generate 36 ATPs in eukaryote cell while 38 ATPs in prokaryote cell. Explain how this difference occurred (6 marks). Q3: Why aerobic respiration could produce more energy (ATP molecules) than anaerobic respiration and fermentation? By using glucose as the substrate, illustrate how ATP molecules are being produced in each case (15 marks). Q4: "Most microbes use carbohydrate (glucose) as the energy sources...
Questions 1. Compare and contrast the processes of mechanical and chemical digestion in relation to the breakdown of polysaccharides. Where in the GI tract do each of these processes occur and what is involved in these processes?
Compare and contrast vocabulary, terminology and classification systems. Provide and explain one example of each.
Compare and contrast the economic issues involved in each of the following pairs of terms: 25 points. A. Rule of reason versus illegal per se - compare them - contrast them B. Antitrust policy versus regulation and deregulation - compare them - contrast them
1. Compare and contrast oxidative phosphorylation and the citric acid cycle. (20 pts total) 1 i) Explain how they are similar in location, and how they are different in location. (10 pts) 1 li) Other than being a component of cellular respiration explain how they are similar in function, and how they are different in function. (10 pts) 2. When you lose weight, where does the carbon go that was in your fat? (20 pts) 3. Aerobic cellular respiration requires...
54. Compare and contrast the main components of animal & plant cells. What is exclusive to each of these cell types? How are they different from other cellular life such as bacteria or protista?