Tracey A. Beacham scite author profile

Plant triterpenoids constitute a diverse class of organic compounds that play a major role in development, plant defence and environmental interaction. Several triterpenes have demonstrated potential as pharmaceuticals. One example is betulin, which has shown promise as a pharmaceutical precursor for the treatment of certain cancers and HIV. Major challenges for triterpenoid commercialization include their low production levels and their cost-effective purification from the complex mixtures present in their natural hosts. Therefore, attempts to produce these compounds in industrially relevant microbial systems such as bacteria and yeasts have attracted great interest. Here, we report the production of the triterpenes betulin and its precursor lupeol in the photosynthetic diatom Phaeodactylum tricornutum, a unicellular eukaryotic alga. This was achieved by introducing three plant enzymes in the microalga: a Lotus japonicus oxidosqualene cyclase and a Medicago truncatula cytochrome P450 along with its native reductase. The introduction of the L. japonicus oxidosqualene cyclase perturbed the mRNA expression levels of the native mevalonate and sterol biosynthesis pathway. The best performing strains were selected and grown in a 550-L pilot-scale photobioreactor facility. To our knowledge, this is the most extensive pathway engineering undertaken in a diatom and the first time that a sapogenin has been artificially produced in a microalga, demonstrating the feasibility of the photo-bio-production of more complex high-value, metabolites in microalgae.

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Large scale cultivation of genetically modified microalgae: A new era for environmental risk assessment

Beacham

2017

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15The genetic modification of microalgal strains for enhanced or modified metabolic activity 16 shows great promise for biotechnological exploitation. However, of key concern for many is the 17 safety of genetic modification technology and genetically modified organisms with regard to 18 both the environment and human health, and how these concerns are met will play a key role in 19 ensuring how successful commercialisation of genetically modified (GM) algae is achieved. 20Commercialisation opportunities for GM microalgae will inevitably require translation from

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Altered lipid accumulation in Nannochloropsis salina CCAP849/3 following EMS and UV induced mutagenesis

Beacham

Macia

Rooks

et al. 2015

Biotechnology Reports

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HighlightsEMS and UV mutagenesis of Nannochloropsis salina combined with FACS for mutant enrichment.Productivity of EMS mutants increased by 76% and showed range of FA profile changes.Dual EMS and UV mutants accumulated 3 fold more lipid than the wild type.Elevation in lipid content comes with a cost to growth rate impacting productivity.Mutants suitable for divergent industries generated (biofuel, high value PUFA production).

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Towards a marine biorefinery through the hydrothermal liquefaction of macroalgae native to the United Kingdom

Raikova

Le²,

Beacham

et al. 2017

Biomass and Bioenergy

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Highlights Hydrothermal liquefaction conditions were optimised for bio-crude production and nutrient recovery using the macroalga A. nodosum. Using the optimised conditions (345 °C; 30 °C min -1), liquefaction of 13 South West UK macroalgae species were carried out. Bio-crude yields of up to 29.9 % were obtained for HTL of U. lactuca. Phosphate levels of up to 236 ppm were detected in the aqueous phase products for HTL of S. chordalis.  Biochemical compositions were not a clear predictor of product distribution. Varying particle size (between <125 μm and 1700 μm) did not have a strong effect on bio-crude recovery.

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Lipid productivity and cell wall ultrastructure of six strains of Nannochloropsis: Implications for biofuel production and downstream processing

et al. 2014

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Microalgae are generating considerable interest for third generation biodiesel production. However, appropriate strain selection is proving challenging due to the significant variation in cellular physiology, metabolic potential and genetics observed even amongst strains deemed morphologically similar. Six strains of Nannochloropsis from the CCAP culture collection were assessed for their lipid productivity and cellular structure, as proxies for oil production and harvesting ease, to assess their suitability as biodiesel production platforms. Differences in growth rate and lipid accumulation across the strains were observed. N. oculata strain 849/7 showed significantly reduced doubling time compared to N. salina strain 849/3, whilst N. oceanica 849/10 produced the highest lipid content. In addition the six strains could be differentiated in to 3 distinct classes based on their cell wall thickness, which varied across the strains from 63-119 nm and which is independent of both species and geographical isolation location. The importance of these variations in ultrastructure and physiology for biodiesel production is discussed.

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Tracey A. Beacham

Engineering the unicellular alga Phaeodactylum tricornutum for high‐value plant triterpenoid production

Large scale cultivation of genetically modified microalgae: A new era for environmental risk assessment

Altered lipid accumulation in Nannochloropsis salina CCAP849/3 following EMS and UV induced mutagenesis

Towards a marine biorefinery through the hydrothermal liquefaction of macroalgae native to the United Kingdom

Lipid productivity and cell wall ultrastructure of six strains of Nannochloropsis: Implications for biofuel production and downstream processing

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