Want this question answered?
yes
in non-cyclic the electrons do not return the source and the cyclic the electrons come back to the source. Mostly the non-cyclic process occurs to produce ATP AND NADH which will be used by the Calvin cycle to produce the carbohydrate but some times there occurs a cyclic process to produce ATP to cope up with Calvin cycle as it requires more ATP than the NADH In addition to the above, cyclic electron flow could operate independent of photosystem II. The production of oxygen and NADPH take place in non-cyclic electron flow and the system could switch to cyclic flow upon accumulation of oxygen and NADPH
Cyclic photophosphorylation is when the electron from the chlorophyll went through the electron transport chain and return back to the chlorophyll. Noncyclic photophosphorylation is when the electron from the chlorophyll doesn't return back but incorporated into NADPH.
Pigment I & II systems of cyclic and non-cyclic phosphorylation.
true
In photosynthesis, the noncyclic electron flow produces enzymes called cytochrome b6f complex. Its function is to catalyze the electron transfer of plastoquinol to plastocyanin.
non-cyclic electron pathways
yes
required to excite the electrons of the chlorophyll and start the cyclic and non-cyclic phosphorylation?
There is no NADPH+. However, there is NADPH, which is a product of non-cyclic electron flow in the light reactions of photosynthesis. NADP+ and two protons are transformed to NADPH and one proton via NADP+ reductase as the last step in photosystem II.
Meiosis is not cyclic; rather it is a linear process. It does not cycle.
Cyclic and non-cyclic photophosphorylation.