Blar i NTNU Open på forfatter "Fernandes de Brito, Luciana"
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Bacillus methanolicus MGA3 as host for methanol-based production of L-tryptophan-derived specialty compounds violacein, indole and tryptamine
Korneliussen, Daniel (Master thesis, 2022)Interesse i bruk av en-karbon forbindelser, som metanol, som energikilde for produksjon av bioteknologiske relevante stoffer har økt de siste årene. Metanol er en lett tilgjengelig forbindelse som assimileres av en gruppe ... -
Characterization of D-arabitol as newly discovered carbon source of Bacillus methanolicus
Lopez, Marina Gil; Irla, Marta Katarzyna; Fernandes de Brito, Luciana; Wendisch, Volker F. (Journal article; Peer reviewed, 2019)Bacillus methanolicus is a Gram-positive, thermophilic, methanol-utilizing bacterium. As a facultative methylotroph, B. methanolicus is also known to utilize D-mannitol, D-glucose and, as recently discovered, sugar alcohol ... -
Early nitrogen supplementation stimulates the nodulation and growth of common bean plants inoculated with rhizobium
Zoffoli, Bárbara Cavalheiro; Fernandes de Brito, Luciana; Straliotto, Rosângela; de Araújo, Adelson Paulo (Journal article; Peer reviewed, 2021) -
Effect of hydrogen peroxide in the production of L-lysine-derived amino acids in Bacillus methanolicus
Skagestad, Brynjar (Master thesis, 2022)Bacillus methanolicus er en termofil, fakultativ metylotrofisk bakterie som nylig har tiltrukket seg økt interesse for sitt potensiale som en bærekraftig cellefabrikk innenfor industriell bioteknologi. Bakteriens evne til ... -
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; ... -
Genomic and Transcriptomic Investigation of the Physiological Response of the Methylotroph Bacillus methanolicus to 5-Aminovalerate
Haupka, Carsten; Fernandes de Brito, Luciana; Busche, Tobias; Wibberg, Daniel; Wendisch, Volker F. (Peer reviewed; Journal article, 2021)The methylotrophic thermophile Bacillus methanolicus can utilize the non-food substrate methanol as its sole carbon and energy source. Metabolism of L-lysine, in particular its biosynthesis, has been studied to some detail, ... -
Metabolic engineering of Bacillus methanolicus towards methanol-based lactam production
Sørgård, Joakim (Master thesis, 2020)Industriell bioteknologi er en av de største og mest fremtidsrettede feltene som har vokst fram i det 21ste århundret. Det har mange applikasjoner innen viktige industrielle områder som medisin, planteproduksjon, og ... -
Methanol-based production of putrescine and spermidine in Bacillus methanolicus
Arampu, Adshaha (Master thesis, 2023)Verdiskapende forbindelser som aminosyrer produseres ofte gjennom mikrobiell produksjon ved bruk av glukose som råstoff. Dagens glukosepriser stiger, og i tillegg skaper bruk av glukose uønsket konkurranse i mat- og råstoff ... -
Methanol-essential growth of corynebacterium glutamicum: Adaptive laboratory evolution overcomes limitation due to methanethiol assimilation pathway
Hennig, Guido; Haupka, Carsten; Fernandes de Brito, Luciana; Rückert, Christian; Cahoreau, Edern; Heux, Stéphanie; Wendisch, Volker F. (Peer reviewed; Journal article, 2020)Methanol is a sustainable substrate for biotechnology. In addition to natural methylotrophs, metabolic engineering has gained attention for transfer of methylotrophy. Here, we engineered Corynebacterium glutamicum for ... -
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 ...