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Model-Based Construction And Optimisation Of Versatile Chassis Yeast Strains For Production Of Valuable Lipid And Aromatic Compounds

Descripción del proyecto

Diseño racional de nuevas cepas de levadura productoras de lípidos y compuestos aromáticos

La biotecnología aprovecha los procesos biológicos para fines industriales y demás finalidades. Las levaduras se asemejan a pequeñas fábricas que se utilizan para producir metabolitos, enzimas y proteínas. La «Saccharomyces cerevisiae» es quizás la levadura más antigua y utilizada. El proyecto CHASSY, financiado con fondos europeos, tiene como objetivo aprovechar todas las posibilidades que ofrecen las levaduras al rediseñar los circuitos metabólicos y ampliar la gama de hospedadores para incluir la levadura oleaginosa «Yarrowia lipolytica» (capaz de acumular cantidades significativas de lípidos o triglicéridos) y la levadura termotolerante «Kluyveromyces marxianus». El equipo utilizará técnicas de la biología sintética para construir nuevas cepas para fábricas celulares que produzcan tres productos de alto valor: los oleoquímicos docosanol y ácido octanoico y la molécula aromática amorfrutina 1.

Objetivo

CHASSY will unlock the full potential of the yeasts Saccharomyces cerevisiae, Yarrowia lipolytica and Kluyveromyces marxianus as cell factories for production of high value compounds which have applications in the cosmetic, nutraceutical and white biotechnology sectors. Current cell factory strains for these classes of product are restricted to proof-of-principle levels because of limited precursor supply, poor product tolerance and lack of versatility. CHASSY addresses these challenges by redesigning metabolic circuits and expanding the host range to include the oleaginous yeast, Y. lipolytica and the thermotolerant yeast, K. marxianus. The systems biology approach will integrate model-based design, construction and analysis of yeast strains, resulting in reconfigured metabolic networks optimised for the production of lipid and aromatic molecules. Construction of the chassis strains, using new and existing synthetic biology tools, will be directed by knowledge derived from a thorough systems biology comparison of the three yeast species, conducted using integrative data analysis and genome scale metabolic models. The chassis strains will be used to build cell factories to produce three specific high value products: the oleochemicals, Docosanol and Octanoic acid; and the aromatic molecule, Amorfrutin 1. These new cell factory strains will be evaluated under industrial conditions to produce data that will further improve the chassis platforms. The major outcomes of this project will be (1) a new set of chassis yeast strains that are widely applicable for development of industrial cell factories; (2) the knowledge and technology to readily build and evaluate new chassis tailored to specific applications; (3) prototype cell factory strains producing three high value metabolites for commercial exploitation; (4) a dissemination and exploitation strategy to ensure that European SMEs benefit from the knowledge base, platform chassis and resources generated in CHASSY.

Convocatoria de propuestas

H2020-NMBP-2016-2017

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Convocatoria de subcontratación

H2020-NMBP-BIO-2016

Régimen de financiación

RIA - Research and Innovation action

Coordinador

UNIVERSITY COLLEGE CORK - NATIONAL UNIVERSITY OF IRELAND, CORK
Aportación neta de la UEn
€ 1 228 732,49
Dirección
WESTERN ROAD
T12 YN60 Cork
Irlanda

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Región
Ireland Southern South-East
Tipo de actividad
Higher or Secondary Education Establishments
Enlaces
Coste total
€ 1 228 732,49

Participantes (9)