2013
DOI: 10.1007/10_2013_219
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Cultivation of Marine Microorganisms in Single-Use Systems

Abstract: : Marine cultures are an important source of novel substances and enzymes. As efforts to isolate strains from (deep) sea environments increase, the demand for methodology platforms to cultivate these organisms is also rising. Due to the high salt concentration and the shear sensitivity exhibited by some heterotrophic microalgae, single-use systems originally designed for the cultivation of mammalian cell lines can be a valuable alternative. Using the cultivation of the heterotrophic marine microalgae Cryptheco… Show more

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Cited by 20 publications
(18 citation statements)
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“…C. cohnii, distributed world-wide, is a marine heterotrophic microalga (dinoflagellate) (Beam and Himes, 1982). Until recently, studies of C. cohnii have focused on cultivation (Pleissner and Eriksen, 2012;Hillig et al, 2013), DHA production (Gong et al, 2015), the biological activity of DHA (Fedorova-Dahms et al, 2014), and DHA applications in the breeding and aquatic industries (Schiavone et al, 2007;Ganuza et al, 2008). Schizochytrium sp.…”
Section: Introductionmentioning
confidence: 99%
“…C. cohnii, distributed world-wide, is a marine heterotrophic microalga (dinoflagellate) (Beam and Himes, 1982). Until recently, studies of C. cohnii have focused on cultivation (Pleissner and Eriksen, 2012;Hillig et al, 2013), DHA production (Gong et al, 2015), the biological activity of DHA (Fedorova-Dahms et al, 2014), and DHA applications in the breeding and aquatic industries (Schiavone et al, 2007;Ganuza et al, 2008). Schizochytrium sp.…”
Section: Introductionmentioning
confidence: 99%
“…From the bioprocess engineering point of view, PFCs are recognized as the most flexible liquid carriers/scavengers of gaseous compounds (O 2 and CO 2 , mainly) and were successfully applied in culture systems of various types of cells, i.e. microorganisms such as bacteria (Pilarek et al 2011;2013a), yeast (Pilarek et al 2006), fungi (Elibol and Ozer 2000) and microalgae (Hillig et al 2013(Hillig et al , 2014, animal (Shiba et al 1998;Rappaport 2003;Pilarek et al 2013bPilarek et al , 2014Douglas et al 2014) as well as plant cells (Wardrop et al 1996;Lowe et al 2003;Davey et al 2005;Pilarek and Szewczyk 2008;Sykłowska-Baranek et al 2014). …”
Section: Introductionmentioning
confidence: 99%
“…The second type of PFCsupported cell culture systems utilises a liquid perfluorinated oxygen carrier as a stationary layer in a hybrid culture system developed with two immiscible liquid phases: aqueous-based culture medium and hydrophobic PFC. Such culture systems are exceedingly suitable when a 3-D structure of fragile aggregates, spheroids or sheets of cells, as well as cell-consisting biomaterial-based implant constructs must be preserved to eliminate negative effects caused by hydrodynamic shear forces generated in typical intensively-stirred/agitated culture systems (Davey et al, 2005;Hillig et al, 2014;Pilarek et al, 2013;Pilarek et al, 2014). It should be emphasised that the data available in open literature for such a system are still rather limited, with most quantitative data just omitted.…”
Section: Cpeczasopismapanpl; Degruytercom/view/j/cpementioning
confidence: 99%