MIFE and MIFD: Minimum information for fermentation experiments and devices
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Background
As the technological advancements of the early 21st century are pushing industrial biotechnology (IB) into the realm of Big Data–driven innovation, the requirement for trustworthy data management, annotation, and standardization is emerging as a necessity. Minimum information models (MIMs) have long been used across disciplines as the backbone of good data management practices by providing the scaffold upon which standardized recording of metadata can adequately and succinctly describe an understudied phenomenon.
Findings
Here we present a minimum set of metadata, named the minimum information for fermentation experiments (MIFE) and devices (MIFD), that has been specifically designed to accommodate the data management and annotation needs of IB-related fermentation experiments. Although the proposed schema is tailored to IB applications, MIFE and MIFD build upon well-established models and community standards to facilitate easier integration with existing infrastructure and easier adoption by the community, as well as aim to integrate Findable, Accessible, Interoperable, and Reproducible (FAIR) principles in the IB field. In addition, the integration with FAIR Data Station (FAIR DS), a tool that offers metadata validation and enables the automated uptake of (meta)data from data management repositories such as FAIRDOM-SEEK, is showcased. The proposed models are accompanied by a Python package that enables their programmatic use by creating a Linked Data Modeling Language (LinkML) schema that can fuel subsequent analyses.
Conclusions
Through the promotion and simplification of knowledge discovery, we believe that MIFE and MIFD can accelerate the application of state-of-the-art artificial intelligence (AI) methods and the adoption of explainable AI to better understand bioprocesses at scale.
SEEK ID: https://hub.ibisba.eu/publications/17
DOI: 10.1093/gigascience/giag038
Projects: Bioindustry4.0 Public dissemination, Bioindustry4.0 Work Package 7: Tools for high-quality datasets, requisit...
Publication type: Journal
Journal: GigaScience
Book Title: GigaScience
Publisher: Oxford University Press (OUP)
Citation: GigaScience 15:giag038.
Date Published: 2026
Registered Mode: by DOI
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Created: 15th Jun 2026 at 16:33
Last updated: 15th Jun 2026 at 16:35
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Institutions: UNIMAN - The University of Manchester, Universitat Autònoma de Barcelona, CNR - Consiglio Nazionale delle Ricerche, INSAT - Institut National des Science Appliquees de Toulouse, VTT - Teknologian tutkimuskeskus VTT Oy, VITO - Vlaamse Instelling voor Technologisch Onderzoek N.V.
Projects: Uncurated Protocols Library
Institutions: VTT - Teknologian tutkimuskeskus VTT Oy
Projects: Industrial-scale penicillin simulation, Bioindustry4.0 Work Package 7: Tools for high-quality datasets, requisite for data-driven methods and services, Hybrid Physics-Informed Neural Networks for Efficient Computational Modeling: A Workflow Framework Applied to Schwanniomyces occidentalis, STAMM: Soft sensor moniToring and mAintenance framework for Machine learning Models
Institutions: Institut National de Recherche pour l'Agriculture, l'Alimentation et l'Environnement, INRAE
https://orcid.org/0000-0003-4717-3040
Real-time online monitoring of bioprocesses
Industrial biotechnology (IB) has the potential to create new markets while protecting the environment. With this in mind, the EU-funded BIOINDUSTRY 4.0 project will pave the way for IB to become a major manufacturing technology. Supporting the digitalisation of IB, the project will create new services delivered by European research infrastructure. These will address several challenges, focusing on the acceleration of bioprocess development pipelines. ...
Projects: Industrial-scale penicillin simulation, Scorpion antivenom nanobody production in Escherichia coli (Recombinant bispecific VHH), Production of the monoclonal antibody Trastuzumab in Komagataella phaffii (Pichia pastoris) for breast cancer treatment, Bioindustry4.0 Work Package 7: Tools for high-quality datasets, requisite for data-driven methods and services, Hybrid Physics-Informed Neural Networks for Efficient Computational Modeling: A Workflow Framework Applied to Schwanniomyces occidentalis, Saccharomyces cerevisiae, Pseudomonas putida use case, STAMM: Soft sensor moniToring and mAintenance framework for Machine learning Models, Pichia pastoris fermentation, Bioindustry4.0 Public dissemination, Bioindustry4.0 Work Package 2: Dissemination, Communication Exploitation and capacity building, Data Fabric Usage Demos, raw2ready, SCHEMA, Joint Action Research - INRAE-UAB in Pichia pastoris, Joint xylitol fermentations monitored by Kaiser and Timegate Raman devices, UAB - Komagataella phaffii Use Case, Bioindustry4.0 Work Package 5
Web page: https://www.bioindustry4.eu
Bioindustry4.0 Work Package 7: Tools for high-quality datasets, requisite for data-driven methods and services
Real-time online monitoring of bioprocesses
Industrial biotechnology (IB) has the potential to create new markets while protecting the environment. With this in mind, the EU-funded BIOINDUSTRY 4.0 project will pave the way for IB to become a major manufacturing technology. Supporting the digitalisation of IB, the project will create new services delivered by European research ...
Programme: Bioindustry 4.0
Public web page: https://www.bioindustry4.eu/
Start date: 1st Jan 2023
End date: 31st Dec 2026
Real-time online monitoring of bioprocesses
Industrial biotechnology (IB) has the potential to create new markets while protecting the environment. With this in mind, the EU-funded BIOINDUSTRY 4.0 project will pave the way for IB to become a major manufacturing technology. Supporting the digitalisation of IB, the project will create new services delivered by European research infrastructure. These will address several challenges, focusing on the acceleration of bioprocess development pipelines. ...
Programme: Bioindustry 4.0
Public web page: https://www.bioindustry4.eu/
Start date: 1st Jan 2023
End date: 31st Dec 2026
