Blar i NTNU Open på forfatter "Klein, Vivien Jessica"
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From Brown Seaweed to a Sustainable Microbial Feedstock for the Production of Riboflavin
Perez-Garcia, Fernando; Klein, Vivien Jessica; Fernandes de Brito, Luciana; Brautaset, Trygve (Peer reviewed; Journal article, 2022)The increasing global demand for food and energy production encourages the development of new production strategies focused on sustainability. Often, microbial bioprocesses rely on food or feed competitive feedstocks; ... -
Metabolic engineering of industrially relevant strains for the production of riboflavin from sustainable feedstocks
Klein, Vivien Jessica (Doctoral theses at NTNU;2024:95, Doctoral thesis, 2024)There is an increasing demand for agricultural land and other resources necessary to feed an expanding world population. This has led to a growing interest in using sustainable feedstocks to produce value-added compounds ... -
Metabolic Engineering of thermophilic Bacillus methanolicus for riboflavin overproduction from methanol
Klein, Vivien Jessica; Brito, Luciana Fernandes; Perez-Garcia, Fernando; Brautaset, Trygve; Irla, Marta Katarzyna (Peer reviewed; Journal article, 2023)The growing need of next generation feedstocks for biotechnology spurs an intensification of research on the utilization of methanol as carbon and energy source for biotechnological processes. In this paper, we introduced ... -
Unravelling Formaldehyde Metabolism in Bacteria: Road towards Synthetic Methylotrophy
Klein, Vivien Jessica; Irla, Marta Katarzyna; Gil López, Marina; Brautaset, Trygve; Brito, Luciana Fernandes (Journal article; Peer reviewed, 2022) -
Unravelling Formaldehyde Metabolism in Bacteria: Road towards Synthetic Methylotrophy
Klein, Vivien Jessica; Irla, Marta Katarzyna; Gil Lopez, Marina; Brautaset, Trygve; Fernandes de Brito, Luciana (Peer reviewed; Journal article, 2022)Formaldehyde metabolism is prevalent in all organisms, where the accumulation of formaldehyde can be prevented through the activity of dissimilation pathways. Furthermore, formaldehyde assimilatory pathways play a fundamental ...