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Você está em: Start > Project/Service Agreement:MIT-Pt/BS-BB/0082/2008

Project/Service Agreement:MIT-Pt/BS-BB/0082/2008

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Status
Estado ConcluídoCompleted
Publication
PublicadoPublished
General Data
Code: 63779
 
Reference: MIT-Pt/BS-BB/0082/2008
Short name: MIT-Pt/BS-BB/0082/2008
Title: Bridging systems and synthetic biology for the development of improved microbial cell factories
Competitive Funding: Yes
Does it involve businesses?:
No. of Participating Institutions: 3
Scope
Type: Funded Project
 
Geographical Scope: International
 
Type of Action: R&TD
Funding
Programme: MIT-Portugal - Programa MIT-Portugal
Funding Institution: FCT - Fundação para a Ciência e a Tecnologia
Financial Geographical Scope: National
Scheduling
Effective Start Date: 2009-04-01
Expected Completion Date: 2012-03-31
Effective Completion Date: 2012-09-30
Budget
Currency: EUR
 
Total Approved Budget: 199.977,00 EUR
Details
Summary: This project aims to develop and apply systems and synthetic biology tools for improving microbial cells factories for the production or amino acids.
These compounds represent interesting case-studies for metabolic engineering, because they have been increasingly used as supplements for human food and animal feed with a special emphasis on L-glutamlc acid and L-lysine. Moreover, they are good representatives of the success of Industrial Biotechnology; a few years ago only a small number were produced by bioprocesses, while nowadays almost all 20 natural L-amino acids are produced by fermentation or enzyme technologies.

The microorganism to be used is the bacteria Escherichia coli, for which sufficient knowledge has been accumulated in recent years to perform these tasks and also because this organism is able to produce naturally all the 20 amino acids from inorganic nitrogen sources.

The main tasks of the project encompass the entire cycle of metabolic engineering and are guided by advanced approaches from Systems and Synthetic Biology approaches.

The cycle of the project starts with the construction of improved mathematical models representing both metabolic and regulatory processes from different data sources and using state-of-the-art bioinformatics tools. Experiments on wild-type E. coli strains will be performed to adjust and validate the developed models and to help in the understanding the governing objectives that determine a particular physiological state. In this context, an innovative methodology that integrates the concept of Elementary Flux Modes (EFMs) with Projection to Latent Structures will be applied for elucidating major metabolic routes.

The refined model will then be used to predict in silico molecular targets for knockouts, gene addition and under/overexpression using advanced optimization algorithms developed in-house. These strategies will then be directly implemented in E. coli or further analyzed and advanced using S Ver mais. Adequado para parcelas de texto incompletas e que, através deste ícone, permite-se que o utilizador leia o texto todo.
Scientific Context
Scientific Domain (FOS - Level 2): Engineering and technology > Chemical engineering

Academic fields (CORDIS - Level 5)

  • Natural sciences > Biological sciences > Biology > Molecular biology
  • Physical sciences > Chemistry > Biochemistry > Metabolism
  • Technological sciences > Engineering > Chemical engineering

Keywords

Mais informações There are no Keywords associated with the Project.
Documents
Mais informações There are no Documents associated with the Project.

Publications associated with the Project

Article in International Scientific Journal
Joana Teodósio (Author) (FEUP); M. Simões (Author) (FEUP); F. J. Mergulhão (Author) (FEUP)
2012
Article in International Scientific Journal
J. M. R. Moreira (Author) (FEUP); J. S. Teodósio (Author) (FEUP); F. C. Silva (Author) (FEUP); M. Simões (Author) (FEUP); L. F. Melo (Author) (FEUP); F. J. Mergulhão (Author) (FEUP)
2013
Summary of Presentation in an International Conference
Joana Moreira (Author) (FEUP); Luciana Gomes (Author) (FEUP); J.D.P. Araújo (Author) (Other); J.M. Miranda (Author) (Other); Simões M (Author) (FEUP); L. F. Melo (Author) (FEUP); Filipe Mergulhão (Author) (FEUP)
2012
Poster in an International Conference
Luciana Gomes (Author) (FEUP); Joana Moreira (Author) (FEUP); Joana Teodósio (Author) (FEUP); Araujo, JDP (Author) (FEUP); Miranda, JM (Author) (FEUP); Simões M (Author) (FEUP); L. F. Melo (Author) (FEUP); Filipe Mergulhão (Author) (FEUP)
2012
Institutions Participating in the Project
Institution Contact Create Tab?
Name Short name Country Type Participation Name Telephone Email
Universidade do Minho UMINHO Portugal University Coordinator
Faculdade de Engenharia da Universidade do Porto FEUP Portugal University Partner Filipe Mergulhão (FJMM) filipem@fe.up.pt
Instituto de Biologia Experimental e Tecnológica IBET Portugal RD Institute Partner
 
Budgets and Teams
Approved Budget: 52.213,00 EUR
Approved Funded Amount: -
Approved co-funded Amount: -
Funding Rate: -
Confidential Budget:

People in the Project

Institution Name Short name Role Dedication (%) Contribution (%) Allocation
Start date End date
FEUP Filipe José Menezes Mergulhão FJMM Official Researcher at the OU 25 100

Technicians in the Project

Mais informações There are no Technicians associated with the Project.
Laboratories
Mais informações There are no Laboratories associated with the Project.
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