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ŠEDRLOVÁ, Z. SLANINOVÁ, E. FRITZ, I. DAFFERT, C. OBRUČA, S.
Originální název
Mixotrophic Growth as a Tool for Increasing PHA Production in Cyanobacteria
Typ
abstrakt
Jazyk
angličtina
Originální abstrakt
Cyanobacteria are ecologically extremely important phototrophic gram-negative bacteria capable of oxygenic photosynthesis. They synthetize many interesting metabolites such as glycogen, carotenoids, but the most interesting metabolites in are polyhydroxyalkanoates (PHA). The main advantage of cyanobacteria is the fact they do not require costly organic substrate and, oppositely, cyanobacteria can fix CO2. PHA serve primarily as carbon and energy source and occur in form of intracellular granules in bacterial cells. It is possible, PHA help cyanobacteria to survive stress conditions, since increased PHA synthesis was observed during cultivation in stress conditions. PHA are microbial biopolymers which are biodegradable with similar properties as petrochemical synthetic plastics. Production of PHA by heterotrophic bacteria is expensive, for price reduction waste materials as input material are used. Possitely, cyanobacteria principally do not require organic carbon substrate since they are capable of CO2 fixation. In this work we demonstrated that stress conditions lead to the highest obtained yields of PHA in cyanobacterial cultures. Two cyanobacterial cultures from genera Synechocystis were used in this work. Cultivations were performed either in Erlenmayer flask or in tube multicultivator. Multiple stressors were applied on cyanobacterial cultures, stressors include PHA precursors. PHA precursors are chemical substances and some of them does not occur naturally in the environment. Cultivation with the same PHA precursors in same concentration led to 1,6x higher amount of PHA when multicultivator was used. The highest amount of PHA reached the 25 % of PHA in dry cyanobacterial biomass. Both strains are capable of co-polymer synthesis in presence of its structural precursor. The composition of co-polymer differs in Synechocystis sp. PCC 6803 and Synechocystis salina CCALA 192. Synechocystis sp. PCC 6803 cultivated with γbutyrolakton accumulated co-polymer of 3-hydroxybutyrate (3HB) and 4-hydroxybutyrate (4HB) the composition of co-polymer was 56 % of 4HB and 44 % of 3HB. The total amount of PHA as well as yield of biomass was lower than in a control due to the toxic properties of γ-butyrolakton. Funding: This study was partly funded by the project GA19- 19- 29651L of the Czech Science Foundation (GACR) and partly funded by the Austrian Science Fund (FWF), project I 4082-B25. This work was supported by Brno Ph.D. Talent – Funded by the Brno City Municipality.
Klíčová slova
co-polymer, cyanobacteria, PHA, Synechocystis
Autoři
ŠEDRLOVÁ, Z.; SLANINOVÁ, E.; FRITZ, I.; DAFFERT, C.; OBRUČA, S.
Vydáno
29. 9. 2021
ISSN
1307-6892
Periodikum
World Academy of Science, Engineering and Technology
Stát
Turecká republika
Strany od
74
Strany do
Strany počet
145
URL
https://attachments.waset.org/21/ebooks/september-2021-in-dubai-2021-09-29-10-43-51.pdf?fbclid=IwAR186TNU0Q2pECddNoItYvc4A4Puuo1Kn4OOpIURS0eBNK9xubBnNLtWRMc
BibTex
@misc{BUT173330, author="Zuzana {Kroupová} and Eva {Slaninová} and Ines {Fritz} and Christina {Daffert} and Stanislav {Obruča}", title="Mixotrophic Growth as a Tool for Increasing PHA Production in Cyanobacteria", year="2021", journal="World Academy of Science, Engineering and Technology", pages="74--74", issn="1307-6892", url="https://attachments.waset.org/21/ebooks/september-2021-in-dubai-2021-09-29-10-43-51.pdf?fbclid=IwAR186TNU0Q2pECddNoItYvc4A4Puuo1Kn4OOpIURS0eBNK9xubBnNLtWRMc", note="abstract" }