A bacterium found in the remote Gobi Desert has shown talents for using the sun’s light as energy, and now researchers reveal that it can be found in surprisingly many different places, including water treatment plants. The bacterium may become a valuable partner for researchers working with environmentally friendly biofuels.
To date, species capable of performing photosynthesis have been reported in six bacterial phyla, and recently researchers have reported that the talent can be observed in a species belonging to the rare and understudied phylum Gemmatimonadetes. The investigated species was isolated from a freshwater lake in the Gobi Desert.
When the researchers studied the bacteria in the lab, they were surprised to discover that the genes responsible for the photosynthesis are nicely ordered in a cluster rather than scattered in the whole genome. This makes it possible to remove the gene cluster.
Using sunlight to produce biofuel
“This is highly interesting because it allows you to transfer the gene cluster to another bacterium that can use the genes for a desired purpose. An example is to transfer the gene cluster to the bacterium E. coli and thus make E. coli capable of using sunlight to produce biofuel”, explains postdoc Yonghui Zeng, Nordic Center for Earth Evolution, University of Southern Denmark, who has lead the investigations.
The newly found bacterium gives a perfect example as how to turn a bacterium photosynthetic. After Zeng and colleagues described the bacterium in Proceedings of the National Academy of Sciences last year, he set out to learn more about it.
A new paper in Environmental Microbiology Reports now describes the abundancy of the bacterium.
Also found in water treatment plants
With the help of computational biologist Jan Baumbach’s group in Dept. of Mathematics & Computer Science, University of Southern Denmark, Zeng trawled a large number of databases and learned that the bacterium can be found almost everywhere, especially in soil and in water treatment plants. It cannot, however, be found in marine environments.
“Now we know that this bacterium has a talent for photosynthesis, we know it is abundant and we know that the relevant genes can easily be transferred to other organisms. That makes it very relevant for future work with focus on, i.e., figuring out a way to turn the biotechnology workhorse E. coli photosynthetic and thus capable of producing biofuels in a more economic way”, says Zeng.
Zeng did part of this work while at Institute of Microbiology CAS in Czech Republic.
Environmental Microbiology Reports: Metagenomic evidence for the presence of phototrophic Gemmatimonadetes bacteria in diverse environments (2015). By Yonghui Zeng, Jan Baumbach, Eudes Guilherme Vieira Barbosa, Vasco Azevedo, Chuanlun Zhang and Michal Koblízek.