source:pleng lish
In a new study, Cornell University scientists show that genetically engineering this bacterium could improve the efficiency for the purification of elements found in smartphones, computers, electric cars and wind turbines, and could even boost global economic supply chains.
Vibrio natriegens, the bacterium, offers a sustainable method — called biosorption — to extract valuable and needed elements rather than use older, polluting solvent-heavy methods.
The Cornell research, “Multiple Rounds of In Vivo Random Mutagenesis and Selection in Vibrio Natriegens Result in Substantial Increases in REE Binding Capacity,” was published Dec. 6 in Synthetic Biology, an American Chemical Society journal.
“Traditional thermochemical methods for separating lanthanides are environmentally horrible,” said Buz Barstow, assistant professor of biological and environmental engineering at Cornell, the corresponding author.
“It’s difficult to refine these elements. That’s why we send rare earth elements offshore — generally to China — to process them.”
Doctoral student Sean Medin and Anastacia Dressel led the research to genetically engineer a strain of Vibrio natriegens to increase its ability to biosorb — or extract — rare earth elements.
The researchers changed the genome of Vibrio natriegens with a plasmid called MP6, which introduces errors into the genome and then screened the mutants for increased biosorption of rare earth elements.
“Given the ease of finding significant biosorption mutants, these results highlight just how many genes likely contribute to biosorption,” he said, “as well as the power of random mutagenesis in identifying genes of interest and optimizing a biological system for a task.”
Rare earth elements play a critical role in modern society. They are found in computers, batteries and clean energy technologies. In early 2021, the White House ordered an assessment that later found an over-reliance on the foreign sources and adversarial nations processing the elements, posing national and economic security.