2021
DOI: 10.1186/s40694-021-00115-6
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Understanding and controlling filamentous growth of fungal cell factories: novel tools and opportunities for targeted morphology engineering

Abstract: Filamentous fungal cell factories are efficient producers of platform chemicals, proteins, enzymes and natural products. Stirred-tank bioreactors up to a scale of several hundred m³ are commonly used for their cultivation. Fungal hyphae self-assemble into various cellular macromorphologies ranging from dispersed mycelia, loose clumps, to compact pellets. Development of these macromorphologies is so far unpredictable but strongly impacts productivities of fungal bioprocesses. Depending on the strain and the des… Show more

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Cited by 46 publications
(36 citation statements)
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“…Filamentous fungal growth in submerged culture produces a range of macromorphologies, each of which have advantages and disadvantages from the perspective of product titres and process engineering ( Cairns et al, 2019c ). It is not currently possible to predict an optimal macromorphology for a specific product a priori ( Meyer et al, 2021 ). Consequently, testing product titres in strains with distinct macromorphologies constitutes a major limitation to developing the next generation of ultra-efficient fungal cell factories ( Cairns et al, 2021 ).…”
Section: Discussionmentioning
confidence: 99%
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“…Filamentous fungal growth in submerged culture produces a range of macromorphologies, each of which have advantages and disadvantages from the perspective of product titres and process engineering ( Cairns et al, 2019c ). It is not currently possible to predict an optimal macromorphology for a specific product a priori ( Meyer et al, 2021 ). Consequently, testing product titres in strains with distinct macromorphologies constitutes a major limitation to developing the next generation of ultra-efficient fungal cell factories ( Cairns et al, 2021 ).…”
Section: Discussionmentioning
confidence: 99%
“…Filamentous fungi are used to produce a diverse portfolio of molecules worth several billion dollars per year, including platform chemicals, proteins, enzymes, secondary metabolites, and organic acids ( Meyer et al, 2016 , 2020 ). The majority of industrially produced fungal metabolites are generated in stirred tank bioreactors which are often several hundred litres in volume ( Meyer et al, 2021 ). Maximizing product titres from minimum substrate and energy inputs promises to both reduce environmental impacts of fermentation and limit costs, which may ultimately enable fungal biotechnology to strengthen bioeconomy supposed to replace the fossil fuel economy in the near future ( Cairns et al, 2018 ; Meyer et al, 2020 ).…”
Section: Introductionmentioning
confidence: 99%
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