One of the most pressing pursuits in bioscience is increasing agricultural production. The Food and Agriculture Organization estimates that, as a planet, we need to produce 70 percent more food by the year 2050 in order to keep up with increasing population. We have already shone our spotlight on several university research teams who are tackling this problem, like the UW team attempting to increase flowering rates and the UIUC team who spliced algae genes to increase photosynthesis. Now we look to Washington University in St. Louis for some novel ideas about optimizing photosynthesis.
Perhaps, thought Blankenship, this discrepancy is a good place to start. What makes solar panels so much more efficient? The answer, he found, is that a plant utilizes only visible light. While it may seem like visible light involves a broad spectrum in wavelengths, in fact it is a tiny fraction of the types of light produced by the sun. Solar panels absorb some infrared light, which is why they effectively gather more energy from the sun than plants.
Another bottleneck for photosynthesis is the enzyme RuBisCO, which is supposed to be a catalyst but is notoriously slow at its job. “It turns over a few times a second,” says Blankenship, “which is really, really slow. Some enzymes will turn over tens of millions of times per second.” The primary function of RuBisCO is to accelerate the acquisition of carbon dioxide necessary to perform photosynthesis. Without the proper amounts of CO2, photosynthesis is slowed to a crawl.
Therefore, Blankenship has two separate ideas for optimizing photosynthesis. First, he proposes modifying the light receptors of plants to absorb a wider range of light so as to gather more energy. Second, he proposes modifying or replacing the catalyst RuBisCO to speed up current rates of photosynthesis. These are the two main projects his lab will be focusing on for now, so we will see if he has any success with them.
Funding for Blankenship’s ideas came from the National Science Foundation and the National Institutes of Health. For additional information about funding for research at Washington University in St. Louis, read our free WUSTL Funding Statistics Report, available via the link below:
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