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How can we convert a C3 cycle to C4 cycle in plants by using Bioinformatics approaches?

April 26, 2017Bioinformatics Botany C3 C4 convert CYCLE Mathematics plants

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How can we convert a C3 cycle to C4 cycle in plants by using Bioinformatics approaches?

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Salam! hope its late reply. Most of our conventional crops, including rice and wheat, assimilate atmospheric CO2 by the C3 pathway of photosynthesis, which takes place in the mesophyll cells of leaves. Photosynthetically, these plants are underachievers because, on the one hand, they assimilate atmospheric CO2 into sugars but, on the other hand, part of the potential for sugar production is lost by respiration in daylight, releasing CO2 into the atmosphere, a wasteful process termed photorespiration. This is due to the dual function of the key photosynthetic enzyme, ribulose 1,5-bisphosphate carboxylase/oxygenase (Rubisco). High CO2 favors the carboxylase reaction and thus net photosynthesis; whereas high O2 promotes the oxygenase reaction leading to photorespiration. When plants first evolved, photorespiration was not a problem because the atmosphere then was high in CO2 and low in O2. As a byproduct of photosynthesis, O2 accumulated in the atmosphere and reached the present level a m