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September 23rd, 2014 at 12:18 pm

Scientists reinventing photosynthesis to feed the world

wheat-fields

If we could make the process more efficient, scientists estimate we could increase yields by 36 to 60 percent.

What if we ended up with 50% more rice and wheat by using the same amount of water and fertilizer? Sound impossible? No, just some chemistry and genetic engineering. Scientists have recently figured out the second of three steps to make photosynthesis a whole lot more efficient in plants.

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Plants are not, it turns out, perfectly efficient at making food out of thin air (turning carbon dioxide into sugars, to be more technical). And the vast majority of crops we eat use the slower of the two types of photosynthesis found in plants. If we could make the whole process more efficient, scientists estimate we could increase yields by 36 to 60 percent, going a long way toward feeding the world’s booming population.

To do that, some researchers have turned to bacterial genes. Cyanobacteria are also photosynthetic, but they use a different—and more efficient—process than plants. The whole process as transplanted into tobacco plants has three steps, Kevin Bullis explains in Technology Review:

First, proteins form a special compartment within a plant cell that concentrates CO2; second, the compartment contains a speedy enzyme for converting that CO2; and third, the cells use special pumps in their membranes to usher CO2 into the cells.

Scientists have inserted these photosynthesis genes from cyanobacteria into tobacco, a common lab plant. The first step, forming a special compartment, was completed earlier this year, and now a new study in Nature describes how to pull off the second. To finish the job, scientists still have to figure out that last step and put all three together—getting maybe a dozen or so cyanobacteria genes to work perfectly in concert inside a plant cell.

Then there’s the formidable policy hurdles, which have held up potentially beneficial GM crops like golden rice.

Via Gizmodo

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