TY - JOUR
T1 - Understanding and controlling filamentous growth of fungal cell factories
T2 - novel tools and opportunities for targeted morphology engineering
AU - Meyer, Vera
AU - Cairns, Timothy
AU - Barthel, Lars
AU - King, Rudibert
AU - Kunz, Philipp
AU - Schmideder, Stefan
AU - Müller, Henri
AU - Briesen, Heiko
AU - Dinius, Anna
AU - Krull, Rainer
N1 - Publisher Copyright:
© 2021, The Author(s).
PY - 2021/12
Y1 - 2021/12
N2 - 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 desired product, the morphological forms vary, but no strain- or product-related correlations currently exist to improve process understanding of fungal production systems. However, novel genomic, genetic, metabolic, imaging and modelling tools have recently been established that will provide fundamental new insights into filamentous fungal growth and how it is balanced with product formation. In this primer, these tools will be highlighted and their revolutionary impact on rational morphology engineering and bioprocess control will be discussed.
AB - 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 desired product, the morphological forms vary, but no strain- or product-related correlations currently exist to improve process understanding of fungal production systems. However, novel genomic, genetic, metabolic, imaging and modelling tools have recently been established that will provide fundamental new insights into filamentous fungal growth and how it is balanced with product formation. In this primer, these tools will be highlighted and their revolutionary impact on rational morphology engineering and bioprocess control will be discussed.
KW - Aspergillus niger
KW - Co-expression network
KW - Filamentous fungi
KW - Hypothetical proteins
KW - Macromorphology
KW - Micromorphology
KW - Modelling
KW - Pellet
KW - Polar growth
KW - Rheology
KW - X-ray micro-computed tomography
UR - http://www.scopus.com/inward/record.url?scp=85113718949&partnerID=8YFLogxK
U2 - 10.1186/s40694-021-00115-6
DO - 10.1186/s40694-021-00115-6
M3 - Article
AN - SCOPUS:85113718949
SN - 2054-3085
VL - 8
JO - Fungal Biology and Biotechnology
JF - Fungal Biology and Biotechnology
IS - 1
M1 - 8
ER -