Computational Biologist
SEEK ID: https://ibisbahub.eu/people/106
Location: France
ORCID: https://orcid.org/0000-0002-9984-4689
Joined: 19th Nov 2018
Expertise: Bacterial Cell Cycle, Kinetic modelling, Workflows
Tools: FBA, C, Python, Java, Cytometry and fluorescent microscopy
Related items
- Programmes (1)
- Projects (1)
- Institutions (1)
- Data files (1)
- Models (0+9)
- Publications (2)
- Workflows (5+2)
IBISBA is designed to accelerate end-to-end bioprocess development, linking best-in-class R&D facilities to provide seamless multi-technology services.
Focusing on the different R&D phases in bioprocess development, IBISBA offers services related to computer-assisted design of biocomponents, construction of enzymes and microbial strains, the fermentation, downstream processing and project knowledge asset management.
Projects: Uncurated Protocols Library, Template library, Muconic Acid Production in Yeast, Public announcements and documents, IBISBA Library, Curated Protocols Library, Test, DBTL-P, test, Sandbox, kHub_Test_2024
Web page: http://www.ibisba.eu
The collection of protocols that have not yet been curated by IBISBA WP6
Programme: IBISBA
Public web page: http://www.ibisba.eu
This is an example of workflow run with target muconic acid. The results is a tar with a collection of SBML, fused with GEM SBML model (yeast in this case)
Creator: Melchior du Lac
Submitter: Melchior du Lac
Investigations: No Investigations
Studies: No Studies
Assays: No Assays
Abstract
Authors: Melchior du Lac, Thomas Duigou, Joan Hérisson, Pablo Carbonell, Neil Swainston, Valentin Zulkower, Forum Shah, Léon Faure, Mostafa Mahdy, Paul Soudier, Jean-Loup Faulon
Date Published: 15th Jun 2020
Publication Type: Journal
DOI: 10.1101/2020.06.14.145730
Citation: biorxiv;2020.06.14.145730v1,[Preprint]
Abstract (Expand)
Authors: T. Duigou, M. du Lac, P. Carbonell, J. L. Faulon
Date Published: No date defined
Publication Type: Not specified
PubMed ID: 30321422
Citation: Nucleic Acids Res. 2019 Jan 8;47(D1):D1229-D1235. doi: 10.1093/nar/gky940.
Given one or a collection of heterolgous pathways in SBML files, generate the SBOL for the constructs and the assembly protocols to build them
Investigations: No Investigations
Studies: No Studies
Assays: No Assays
Given a collection of SBML files with the heterologous pathways, calculate the FBA and the Gibbs free energy of the pathways.
Investigations: No Investigations
Studies: No Studies
Assays: No Assays
Perform retrosynthesis using RetroPath2.0 and convert the heterologous pathways to SBML files
Investigations: No Investigations
Studies: No Studies
Assays: No Assays
Investigations: No Investigations
Studies: No Studies
Assays: No Assays
Galaxy workflow that predicts heterologous pathways for the production of a compound of interest in an organism of interest
Investigations: No Investigations
Studies: No Studies
Assays: No Assays