The development of an efficient pilot-scale leghemoglobine production technology, based on recombinant Pichia pastoris and Kluyveromyces lactis fed-batch fermentations.

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BioHeme (2022-2023)
Objective: is to develop effective fed-batch fermentation and scale-up techniques for the production of plant-based meat substitutes, utilizing a recombinant LegH (leghemoglobine) producing strain of Pichia pastoris and Kluyveromyces lactis The main activities [...]
DiBiCoo (2019-2022)
Objective: DiBiCoo is a cooperation project between biogas technology exporting and importing countries, with the overall objective to support the European biogas/biomethane industry by preparing markets for the import of [...]
UpWaste (2020-2023)
Objective: The objective is to create an industrial blueprint of the UpWaste modular biorefinery system application. Such a system will create new market opportunities and determine the feasibility of new [...]
PigSys (2017-2020)
Objective: PigSys  has adopted a multidisciplinary, system level approach to pig production systems with the purpose of generating a deeper understanding of the interactions between the animals, technology and environmental [...]
ZYMMODEL (2019-2021)
Project summary: Zymomonas mobilis is a natural ethanologen and uses Entner – Doudoroff (ED) pathway with 50% less ATP compared to glycolysis pathway, broad Ph range high alcohol tolerance and [...]
Vaccinium corymbosum (2019-2021)
Objective: The aim of this project is to use CRISPR/Cas to edit blueberry (Vaccinium corymbosum) genome for specific genes to redirect flux of precursors towards specific secondary metabolites of interest, [...]
RHODOLIVE (2018-2021)
Objective: Olive mill wastewater (OMW) is a significant by-product of the food industry of the olive oil producer countries in the Mediterranean basin, with a high environmental impact, when not [...]
SMARTPLANTS (2015-2018)
Objective: A major goal of plant synthetic biology is to create smart plants that are able to respond to key cues and display a variety of agronomically valuable traits such [...]
LEANPROT (2015-2018)
Objective: The main aim of LEANPROT is to develop an iterative systems biology-based strain engineering platform based on a novel approach of proteome optimization in iterative cycles of modelling and [...]
KluInu (2014-2015)
Objective: Application of systems biology approach is applied to improve the biotechnological process to improve inulin containing substrate conversion into ethanol using unconventional yeast Kluyveromyces marxianus Project No. 2DP/, LU  [...]