Projects

the Supplementary materials for Journal of Clinical Endocrinology and Metabolism

Independent Project

The main objective of SynBio4Flav is to go further in the standardization of high complexity synthetic biological parts, and to demonstrate the development of a standardized, and systematic platform for flavonoids production based on synthetic microbial consortia (SMCs).

Test case for porting sampleBD to fairdom-seek

PROMISEANG is a 48-month project that aims to develop novel alternative proteins from marine underexploited sources (marineinvertebrate and macroalgae discards and industrial biowastes) through biomass fermentation (solid-state and submerge processes),generating new microbial protein biomass, meeting market requirements for food, feed, and non-food (biomedicine, pharma andcosmetic) bio-based applications. A technically and economically viable biorefinery for microbial-based protein production ...

The PETzyme project's objective is to develop an enzymatic technology for recycling polyethylene terephthalate (PET) wastes using free and immobilized PET hydrolases. We aim to obtain biocatalysts with enhanced thermostability, and we will take advantage of all recent works where protein engineering was used to improve the stability and catalytic efficiency of these enzymes, thus increasing the competitiveness of this recycling process.

IntraCellular Pathway Modeling at KTH

Transcription bursting and stochastics

The project is aimed at integrated analysis of multi-omics TCGA data. We are going to use multiSOM approach.

Test data amaizing

Microalgae Microbiomes: A natural source for the prevention and treatment of diseases in aquaculture

Aquaculture is one of the fastest growing food sectors in the world. In order to guarantee continuous, efficient and sustainable production and to safeguard the growth of this important sector, its protection from biological threats is crucial. Within the AquaHealth project, an international consortium of highly experienced partners will assemble and apply an advanced meta’omics toolbox on the ...

LIMAQUA results in an innovative process for converting and recirculating aquaculture side-streams (sludge and wastewater) in algae (Galdieria sulphuraria)-based feed production for aquacultures. In conventional aquaculture, feed production is responsible for 50% of greenhouse gas (GHG) emission. The aim is to substantially reduce GHG emission by considering geographic and site-specific characteristics (temperature, sunshine duration etc.) and to design site-specific phototrophic or heterotrophic ...