How is Photosystem II used as a biological marker in regards to chloroplast.
Photosystem ll is the region from where light reaction reaction starts . A light of 680 nm incident on it to start the process . It aids in the formation of ATP - energy currency for the process to occur . It contains more chlorophyll b than a . In this photolysis of water occurs which is crucial for chloroplast and oxygen is produced . It is a non cyclic phosphorylation which follows z scheme .
How is Photosystem II used as a biological marker in regards to chloroplast.
Question 45 2 pts As electrons move through the proteins that reside between Photosystem II and Photosystem I, they lose energy. What is that energy used for? The energy is used to harvest photons from sunlight on the leaves of the plants. The energy is used to break water to replenish lost electrons in an earlier step of the process. The energy is used to pump water from the stroma of the chloroplast, maintaining osmotic balance. The energy is used...
As high energy electrons are passed along the system of electron transport chain associated with photosystem II, how does the chloroplast use this energy? A. It is used to phosphorylate NAD+ to NADPH B. It excites electrons of the reaction center of photosystem I. C. It is used to maintain a proton gradient for ATP synthesis D. It is used to break down a water molecule
What is the difference between Photosystem II and Photosystem I?
chloroplast: 1) describe 2 examples of how form is linked to function. 2) what Is the name of the electron donor and final electron acceptor for light dependent reactions (overall photosystem 1 and 2) 3) similarities and differences in ATP production between mitochondria and chloroplast
a) compare and contrast photosystem i and photosystem ii in green plants. b) compare and contrast the processes of lactic acid and eathanol fermetation. Please be clear and thank you
Question 46 (2 points) After photosystem II is produced. is produced and after photosystem O ATP; NADPH NADPH; ATP ATP; FADH2 NADPH; FADH2 Rising levels of cylcin increase the levels of OCdks O CAMP o MPF DAG
How many membranes does the chloroplast have? 30. How many membranes doos the mitochondria have? 31. A stack of thylakoids are known as d, 4 e, 3 a. Thylakoid dises b, c. thy lakoid lumen 32. The products produced in the light independent reaction are used to drive the light dependent reac a. True b, False 33. The ATP and NADPH produces in the light reaction are used to drive the synthesis of sugars from CO2 a. True b. False...
19. How many membranes does the chloroplast have 50. How many membranes does the mitochondria have? 0.4 C3 31 A stack of this lakoids are known as: granum Thylakoid dises Grama ethylakid lumen 32. The products produced in the light independent reaction are used to drive the light dependent reaction . Stroma Trie h. False 33. The Aland NADPI pride in the light reaction are used to drive the synthesis of gars from CO2 True 34. Photosystem II in photosynthesis,...
Compare and contrast Photosystem II and the Cytochrome b6f complex. In your description of each include at least two similarities and two differences.
How is inheritance of chloroplast genomes determined in Chlamydomonas? Both parents make an equal chloroplast genome contribution to the zygote. A chloroplast gene specifies the uniparental inheritance of the chloroplast genome from the mt+ parent. Both parents make an equal chloroplast genome contribution to the zygote. The chloroplast genome is biparentally inherited and offspring are heteroplasmic. The mt+ (mating-type plus) gamete is much larger than the mt- (mating-type minus) gamete. Therefore, only the mt+ parent contributes chloroplast genomes to the...