Microbes genetically reprogrammed to ooze oil for renewable biofuel

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Washington, March 30 (ANI): In a new study, a team of scientists has genetically reprogrammed photosynthetic microbes to secrete oil, thus bypassing energy and cost barriers that have hampered green biofuel production.

The study was carried out by researcher Xinyao Liu and professor Roy Curtiss at Arizona State University's Biodesign Institute, US.

The challenges of developing a renewable biofuel source that is competitive with the current scalability and low-cost of petroleum have been daunting.

"The real costs involved in any biofuel production are harvesting the fuel precursors and turning them into fuel," said Roy Curtiss, director of the Biodesign Institute's Center for Infectious Diseases and Vaccinology and professor in the School of Life Sciences.

"By releasing their precious cargo outside the cell, we have optimized bacterial metabolic engineering to develop a truly green route to biofuel production," he added.

Photosynthetic microbes called cyanobacteria offer attractive advantages over the use of plants like corn or switchgrass, producing many times the energy yield with energy input from the sun and without the necessity of taking arable cropland out of production.

Lead author Xinyao Liu and Curtiss, applied their expertise in the development of bacterial-based vaccines to genetically optimize cyanobacteria for biofuel production.

In the group's latest effort, the energy-rich fatty acids were extracted without killing the cells in the process.

Rather than destroying the cyanobacteria, the group has ingeniously reengineered their genetics, producing mutant strains that continuously secrete fatty acids through their cell walls.

The cyanobacteria essentially act like tiny biofuel production facilities.

Liu realized that if cyanobacteria could be cajoled into overproducing fatty acids, their accumulation within the cells would eventually cause these fatty acids to leak out through the cell membrane, through the process of diffusion.

To accomplish this, Liu introduced a specific enzyme, known as thioesterase, into cyanobacteria.

The enzyme is able to uncouple fatty acids from complex carrier proteins, freeing them within the cell where they accumulate, until the cell secretes them.

A second series of modifications enhances the secretion process, by genetically deleting or modifying two key layers of the cellular envelope-known as the S and peptidoglycan layers-allowing fatty acids to more easily escape outside the cell, where their low water solubility causes them to precipitate out of solution, forming a whitish residue on the surface.

Study results show a 3-fold increase in fatty acid yield, after genetic modification of the two membrane layers.

To improve the fatty acid production even further, the group added genes to cause overproduction of fatty acid precursors and removed some cellular pathways that were non-essential to the survival of cyanobacteria.

Such modifications ensure that the microbe's resources are devoted to basic survival and lipid production. (ANI)

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