1.There is no production of NADPH in cyclic phosphorylation. 2. And also no release of oxygen atoms.
in cyclic phosphorylation: 1.what is the number of NADPH produced per two photons absorbed 2.what is...
2 pts D Question 10 Consider a situation where a mitochondrion contained a defective complex III that resulted in only half of the normal protons to be pumped for each CoQH, that was oxidized. Considering the entire electron transport chain, in this particular case, [Select ] protons would be Select ] protons would be pumped for each NADH oxidized by oxygen and pumped for each FADH, oxidized by oxygen. 2 pts Question 11 Based solely on the amount of NADPH...
1. Briefly describe the cyclic and non-cyclic photophosphorylation. What are the products of the two processes. 2. Using annotated diagram, indicate the major differences between fatty acid synthesis and fatty acid degradation 3. What are major physiological functions of fatty acids 4. Describe briefly the futile activities of photorespiration. 1. Briefly describe the cyclic and non-cyclic photophosphorylation. What are the products of the two processes. 2. Using annotated diagram, indicate the major differences between fatty acid synthesis and fatty acid...
What is the maximum number of ATP molecules generated by oxidative phosphorylation from the complete breakdown of a single molecule of glucose in the presence of oxygen? O 28 o three O 30 32 O two
Ignore question 4. 1. Calculate the number of ATP produced per carbon atom for a molecule of glucose under oxidative phosphorylation (remember we use as a rule of thumb 2.5ATP per NADH and 1.5ATP per FADH2 based on the number of protons pumped in the ETC). 2. Calculate the number of ATP produced per carbon atom for a saturated fatty acid between 12 and 18 carbons long (make sure you clearly indicate the length of fatty acid you choose, e.g...
1. Answer the following on glycolysis: a. Which steps do substrate-level phosphorylation and what is produced? b. Which step(s) is/are redox rxn(s)? What is produced at these steps? c. Which step(s) use ATP? What is produced at these steps?
please solve 2 problems restriction on the total number of particles 4. For photons, there is no (a) Find out the number of photons per quantum state 8T V 2 dv 4 (b) Find out the partition function, Z. cf. g(v)dv 15 e 1 In z n (1 e hulkT) for a (c) Calculate the internal energy, U single oscillator (d) Calculate the pressure, P. 4. For solids Einstein the vibrational levels given energy are as € (j+h, j 0,1,2,....
QUESTION 1 What is the purpose of the proton motive force? A Powers the phosphorylation of ATP to ADP. B. Powers the phosphorylation of ADP to ATP. C. Powers the production of high energy electron carriers. D. Powers the ability to generate more redox reactions. QUESTION 2 What is the main mechanism of action for oxidative phosphorylation? A uses the free energy of the proton gradient generated as a result of transferring electrons from NADH or FADH2 to O2 by...
Example 5 Nuclear Incident A nuclear incident has exposed a 70kg worker to 1 Ci of 2 MeV photons for 1 minute. Assuming that all the energy of absorbed photons is deposited in the body with uniform distribution, what absorbed dose of radiation has the worker suffered? What effective dose? What would have been his effective dose if the exposure has been concentrated entirely in his stomach (mass 0.5kg)? Example 5 Nuclear Incident A nuclear incident has exposed a 70kg...
Activity 26-1. Photons I [Accompanies Section 26-2] Two light bulbs are placed side by side. The first light bulb emits red light of wavelength 700 nm, and the second light bulb emits violet light of wavelength 400 nm. (a) Fill in the blanks in each of the following statements with the word greater, the word smaller, the phrase the same, or the phrase don’t know. (i) Compared to the photons of red light, the photons of violet light have __________...
8. The following molecules form during the stages of glycolysis: 1. pyruvate 2. NADH 3. Fructose-1,6 biphosphate glyceraldehyde-3-phosphate (G3P) 5. phosphoenol-pyruvate (PEP) In which order do they form? a. 3,2,5,4,1 b. 1, 2, 3, 4, 5 c. 5,4,3,2,1 d. 3, 4,2,5,1 9. What is true of the organic molecules that can be used in aerobic cellular respiration? Lipids and proteins can be used, but carbohydrates must be in the form of monosaccharides. b. Carbohydrates and lipids can be used, but...