Periodic Reporting for period 3 - Rafts4Biotech (Synthetic bacterial lipid rafts to optimize industrial bioprocesses)
Período documentado: 2020-01-01 hasta 2021-06-30
due to deficient protein-protein interactions, unfavorable protein stoichiometry or generation of toxic intermediates that ultimately compromise the industrial production processes. To solve this problem, Rafts4Biotech project will take advantage of our recent discovery, that bacteria are able to organize subcellular membrane compartments similar to the so-called lipid rafts of eukaryotic cells, to improve/protect specific cellular processes. Rafts4Biotech project will engineer bacterial cells to confine biotechnologically relevant reactions into bacterial lipid rafts to optimize their stoichiometry and protect cells from undesirable metabolic interferences. Hence, the Rafts4Biotech project will produce new generation reliable and robust SMCPs in which industrial production processes are confined in bacterial lipid rafts, released from their classical off-genome limitations and optimized for industrial production. Moreover, this concept can be applied to many prokaryotes, since lipid rafts happens to occur in many bacterial species. Based on this versatility, Rafts4Biotech project will use two biotechnologically relevant biosystems, Bacillus subtilis and Escherichia coli, to engineer synthetic bacterial lipid rafts to optimize the performance of three challenging biochemical processes in the fields of pharmaceutical, cosmetics and feed industrial sectors. To achieve this, Rafts4Biotech consortium combines different expertise in synthetic biology, systems biology and mathematical modeling and it includes a number of SMEs that will actively work in this project and will translate this technology into market application. The technology developed by Rafts4Biotec will optimize multistep industrial processes and invigorate European research.
Societal impact: R4B project will develop high value-added products that will contribute to create a positive opinion in the society about synthetic and systems biology. Furthermore, Rafts4Biotech does not plan to release any construct to the open environment and therefore, we anticipate good reception of this project in all stakeholders and societal players of industrial biotechnology and will contribute to generate a better public opinion on biotechnology and synthetic biology.
Overall Objective: R4B will develop a new, versatile generation of microbial chassis to confine industrially relevant reactions in subcellular membrane compartments recently discovered and named bacterial lipid rafts, which will allow the fine regulation of the industrial processes, their optimal performance and their isolation from cellular metabolism to prevent toxic reactivity.
Importantly, the scientific concept that we will develop in Rafts4Biotech proposal can be applied to an enormous diversity of prokaryotes that are conventionally or non-conventionally used as microbial chassis in industrial settings. This is because the existence of bacterial lipid rafts has been detected in almost all bacterial species. Based on the versatility of this new technology, the Raft4Biotech project will use two biotechnologically relevant microbial systems, the Gram-positive bacterium Bacillus subtilis and the Gram- negative bacterium Escherichia coli, to engineer synthetic bacterial lipid rafts to optimize the performance of three challenging biochemical processes of growing biotechnological interest, which will be used as study cases for the completion of this proposal and are detailed below:
1) Producing novel antibiotics to fight resistant infections (Pharma Study Case or Pharma-SC)
2) Implementing biochemical pathways of commercial value (Cosmetics Study Case or Cosmetics-SC)
3) Improving microbial chassis to resist harsh industrial processes (Food Study Case or Feed-SC)