Detail publikačního výsledku
HOT BACTERIA, COOL BIOPLASTICS: POLYHYDROXYALKANOATE PRODUCTION BY ANEURINIBACILLUS
BUCHTÍKOVÁ, I.; ŘEHÁKOVÁ, V.; ŠLOSÁROVÁ, K.; SEDLÁŘ, K.; SEDLÁČEK, P.; OBRUČA, S.
Originální název
HOT BACTERIA, COOL BIOPLASTICS: POLYHYDROXYALKANOATE PRODUCTION BY ANEURINIBACILLUS
Anglický název
HOT BACTERIA, COOL BIOPLASTICS: POLYHYDROXYALKANOATE PRODUCTION BY ANEURINIBACILLUS
Druh
Abstrakt
Originální abstrakt
Polyhydroxyalkanoates (PHA) are biodegradable polyesters synthesized by various microorganisms as intracellular carbon and energy storage compounds. Due to their biocompatibility and environmental sustainability, PHA have gained increasing attention as an alternative to petrochemical-based plastics.Members of the thermophilic genus Aneurinibacillus represent a unique group of PHA-producing bacteria with several advantageous traits. , Aneurinibacillus species are capable of accumulating PHA even under nutrient-rich conditions, such as in complex media, which increases their applicability in industrial settings. In addition, these bacteria can utilize various substrates, including lactones and diols, although their metabolic response varies depending on the cultivation conditions. In our study, we also focus on the expression of genes involved in PHA biosynthesis, aiming to better understand the regulation of polymer production in this promising thermophilic genus
Anglický abstrakt
Polyhydroxyalkanoates (PHA) are biodegradable polyesters synthesized by various microorganisms as intracellular carbon and energy storage compounds. Due to their biocompatibility and environmental sustainability, PHA have gained increasing attention as an alternative to petrochemical-based plastics.Members of the thermophilic genus Aneurinibacillus represent a unique group of PHA-producing bacteria with several advantageous traits. , Aneurinibacillus species are capable of accumulating PHA even under nutrient-rich conditions, such as in complex media, which increases their applicability in industrial settings. In addition, these bacteria can utilize various substrates, including lactones and diols, although their metabolic response varies depending on the cultivation conditions. In our study, we also focus on the expression of genes involved in PHA biosynthesis, aiming to better understand the regulation of polymer production in this promising thermophilic genus
Klíčová slova
polyhydroxyalkaonates, Aneurinibacillus, copolymers,
Klíčová slova v angličtině
polyhydroxyalkaonates, Aneurinibacillus, copolymers,
Autoři
BUCHTÍKOVÁ, I.; ŘEHÁKOVÁ, V.; ŠLOSÁROVÁ, K.; SEDLÁŘ, K.; SEDLÁČEK, P.; OBRUČA, S.
Vydáno
01.10.2025
Místo
Lisabon, Portugalsko
Strany od
96
Strany do
96
Strany počet
1
URL
BibTex
@misc{BUT199724,
author="Iva {Buchtíková} and Veronika {Řeháková} and Katarína {Šlosárová} and Karel {Sedlář} and Petr {Sedláček} and Stanislav {Obruča}",
title="HOT BACTERIA, COOL BIOPLASTICS: POLYHYDROXYALKANOATE PRODUCTION BY ANEURINIBACILLUS",
year="2025",
pages="96--96",
address="Lisabon, Portugalsko",
url="https://www.esbp2025.org/book-of-abstracts",
note="Abstract"
}