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EmPowerPutida

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Exploiting native endowments by re factoring re programming and implementing no...

Exploiting native endowments by re factoring re programming and implementing novel control loops in Pseudomonas putida for bespoke biocatalysis We aim to engineer the lifestyle of Pseudomonas putida to generate a tailored, re-factored chassis with highly attractive new-to-nature properties, thereby opening the door to the production of thus far non-accessible compounds. T... see more

30/04/2019

7M€

Project Budget: 7M€

Project leader

WAGENINGEN UNIVERSITY No se ha especificado una descripción o un objeto social para esta compañía.

TRL 4-5

PARTICIPATION DEPralty Sin fecha límite de participación.

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Financing granted El organismo H2020 notifico la concesión del proyecto The day 2019-04-30

BIOTEC-1-2014: Synthetic biology – construction of... Scope:Specific challenge: Enabling the construction and redesign of biological systems which display...

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11 Participantes

1.36M€ | Leader

OHL INDUSTRIAL

1.36M€ | participant

USTUTT

1.35M€ | participant

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Project duration: 49 months Date Start: 2015-03-13
End date: 2019-04-30

Project leader

WAGENINGEN UNIVERSITY No se ha especificado una descripción o un objeto social para esta compañía.

TRL 4-5

Project Budget 7M€

participation deadline Sin fecha límite de participación.

Project description We aim to engineer the lifestyle of Pseudomonas putida to generate a tailored, re-factored chassis with highly attractive new-to-nature properties, thereby opening the door to the production of thus far non-accessible compounds. This industrially driven project capitalises on the outstanding metabolic endowment and stress tolerance capabilities of this versatile bacterium for the production of specialty and bulk chemicals. Specifically, we will build streamlined P. putida strains with improved ATP availability utilizing this power on demand, decoupled from growth. The well-characterized, streamlined and re-factored strain platform will offer easy-to-use plug-in opportunities for novel, DNA-encoded functions under the control of orthogonal regulatory systems. To this end, we will deploy a concerted approach of genome refactoring, model-driven circuit design, implementation of ATP control loops, structured modelling and metabolic engineering. By drawing on a starkly improved, growth-uncoupled ATP-biosynthetic machinery, empowered P. putida strains will be able to produce a) n-butanol and isobutanol and their challenging gaseous derivatives 1-butene (BE) and (iso-)butadiene (BDE) using a novel, new-to-nature route starting from glucose, as well as b) new active ingredients for crop protection, such as tabtoxin, a high-value, ß-lactam-based secondary metabolite with a huge potential as a new herbicide. The game-changing innovations brought in – in particular the uncoupling of ATP-synthesis and production from growth - will provide strong versatility, enhanced efficiency and efficacy to the production processes, thereby overcoming current bottlenecks, matching market needs and fostering high-level research growth and development.

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