AI Article Synopsis
- Current industrial bioethanol production from yeast releases carbon dioxide, while cyanobacteria offer a carbon-neutral alternative through photosynthesis, making them more sustainable.
- The first successful cyanobacterial bioethanol process, involving genetic modifications, showed promise but still falls short of industrial needs due to limitations in carbon fixation rates and competition for resources affecting cell health.
- Recent advancements in engineering cyanobacteria, including manipulation of pyruvate levels and selective genetic knockouts, have boosted ethanol production by enhancing carbon availability and optimizing responses to environmental changes.
Article Abstract
Current industrial bioethanol production by yeast through fermentation generates carbon dioxide. Carbon neutral bioethanol production by cyanobacteria uses biological fixation (photosynthesis) of carbon dioxide or other waste inorganic carbon sources, whilst being sustainable and renewable. The first ethanologenic cyanobacterial process was developed over two decades ago using Synechococcus elongatus PCC 7942, by incorporating the recombinant pdc and adh genes from Zymomonas mobilis. Further engineering has increased bioethanol titres 24-fold, yet current levels are far below what is required for industrial application. At the heart of the problem is that the rate of carbon fixation cannot be drastically accelerated and carbon partitioning towards bioethanol production impacts on cell fitness. Key progress has been achieved by increasing the precursor pyruvate levels intracellularly, upregulating synthetic genes and knocking out pathways competing for pyruvate. Studies have shown that cyanobacteria accumulate high proportions of carbon reserves that are mobilised under specific environmental stresses or through pathway engineering to increase ethanol production. When used in conjunction with specific genetic knockouts, they supply significantly more carbon for ethanol production. This review will discuss the progress in generating ethanologenic cyanobacteria through chassis engineering, and exploring the impact of environmental stresses on increasing carbon flux towards ethanol production.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8684110 | PMC |
| http://dx.doi.org/10.1186/s13068-021-02091-w | DOI Listing |
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