Emil Ljungqvist
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View article: Insights into the rapid metabolism of Geobacillus sp. LC300: unraveling metabolic requirements and optimal growth conditions
Insights into the rapid metabolism of Geobacillus sp. LC300: unraveling metabolic requirements and optimal growth conditions Open
View article: Genome-scale reconstruction and metabolic modelling of the fast-growing thermophile Geobacillus sp. LC300
Genome-scale reconstruction and metabolic modelling of the fast-growing thermophile Geobacillus sp. LC300 Open
View article: Cycling between growth and production phases increases cyanobacteria bioproduction of lactate
Cycling between growth and production phases increases cyanobacteria bioproduction of lactate Open
Decoupling growth from product synthesis is a promising strategy to increase carbon partitioning and maximize productivity in cell factories. However, reduction in both substrate uptake rate and metabolic activity in the production phase a…
View article: <i>In silico</i>analysis of the fast-growing thermophile<i>Geobacillus</i>sp. LC300 using a novel genome-scale metabolic model
<i>In silico</i>analysis of the fast-growing thermophile<i>Geobacillus</i>sp. LC300 using a novel genome-scale metabolic model Open
Thermophilic microorganisms show high potential for use as biorefinery cell factories. Their high growth temperatures provide fast conversion rates, lower risk of contaminations, and facilitated purification of volatile products. To date, …
View article: Targeted Repression of Essential Genes To Arrest Growth and Increase Carbon Partitioning and Biofuel Titers in Cyanobacteria
Targeted Repression of Essential Genes To Arrest Growth and Increase Carbon Partitioning and Biofuel Titers in Cyanobacteria Open
Photoautotrophic production of fuels and chemicals by cyanobacteria typically gives lower volumetric productivities and titers than heterotrophic production. Cyanobacteria cultures become light limited above an optimal cell density, so tha…
View article: Characterization of growth arrested Synechocystis for the twophase production of biofuels and chemicals
Characterization of growth arrested Synechocystis for the twophase production of biofuels and chemicals Open
When cultured at high cell densities cyanobacteria shade each other, giving each cell access to less light. This shading causes a decreased energy (ATP) and reductant (NAD(P)H) production, yielding lower carbon dioxide fixation rates and a…