Team models photosynthesis, finds room for improvement

divdiv id=text style=font-size: 13px; readability=30 pThe team used a computer model to simulate how adding genes from a type of photosynthetic algae known as cyanobacteria might influence photosynthetic efficiency in plants. Cyanobacteria contain small structures, called carboxysomes, which concentrate carbon dioxide at the site of photosynthesis./p pPhotosynthesis is the most studied of all plant processes, so we really know this in great detail and can represent it well emin silico/em, said University of Illinois plant biology professor Stephen Long, who led the study with postdoctoral researcher Justin McGrath. We've modeled the whole system, and added all the components in a cyanobacterial system one at a time to our computer simulation to see if they give us an advantage./p pThe team found that some of the carboxysome genes hindered, while others greatly enhanced photosynthetic efficiency in crop plants such as soybean, rice and cassava. For example, adding a gene for a bicarbonate transporter, which carries carbon dioxide across the carboxysome membrane, enhances photosynthesis by 6 percent, Long said./p pAnd if we put in about eight components of the carboxysome system, the model says that we could get a 60 percent increase in photosynthesis, he said./p pThe new findings appear in the journal Plant Physiology./p pModeling photosynthesis in crop plants has proven to be an efficient way to determine which kinds of genetic manipulations will be most fruitful, Long said. This prevents a lot of wasted time and money spent trying things in the laboratory that are doomed to fail./p pThe work is very exciting, but will take many years to implement, Long said. It will take about five years before we have our first test of concept in a model plant. And then, even if everything goes (according) to plan, it might be 15 or 20 years before we see this in any crop, he said./p pThe United Nations Food and Agricultural Organization predicts that we're going to need about 70 percent more primary foodstuffs by the middle of this century, Long said. So obviously new innovations like this are needed to try and get there, especially since the approaches of the Green Revolution are now approaching their biological limits./p /div/divbrbrcentera href=http://www.wizardrss.comPowered By WizardRSS.com/a | a href=http://www.wizardrss.comFull Text RSS Feed/a | a href=http://www.amazon.com/RFID-Blocking-Cards-Identity-Protector/dp/B00CJHZLEWRFID/a | a href=http://www.wpzonbuilder.comAmazon Affiliate/a/center