Detail publikačního výsledku
Tracking polyhydroxyalkanoate biosynthesis in thermophilic microorganisms
SCHROYEN, B.; MOANIS, R.; GEERAERT, H.; VAN DEN BRANDE, N.; HENNECKE, U.; OBRUČA, S.; BUCHTÍKOVÁ, I.; SEDLÁŘ, K.; SEDLÁČEK, P.; PEETERS, E.
Originální název
Tracking polyhydroxyalkanoate biosynthesis in thermophilic microorganisms
Anglický název
Tracking polyhydroxyalkanoate biosynthesis in thermophilic microorganisms
Druh
Článek WoS
Originální abstrakt
Polyhydroxyalkanoates are biopolyesters synthesized and stored in intracellular granules by diverse prokaryotes. Despite intense research efforts and prior evidence of a rather widespread phylogenetic occurrence of the related genetic machinery, reports on extreme thermophilic and hyperthermophilic polyhydroxyalkanoates producers remain scarce. However, thermophilic cell factories for bioplastic production would serve as an excellent example of Next-Generation Industrial Biotechnology. In this study, we aim to address this research gap by establishing a bioinformatics pipeline to mine genomes of extremely and moderately thermophilic microorganisms for signatures of potential polyhydroxyalkanoate production. Based on a collection of verified protein sequences of polyhydroxyalkanoate polymerase PhaC, the key biosynthetic enzyme, carefully curated sets of thermophilic bacterial and archaeal genomes were screened. This revealed that although PhaC-encoding genes are prevalent in diverse moderately thermophilic bacteria, they are absent in the considered extreme thermophilic bacteria. In contrast, a few limited examples of extreme thermophilic archaea were found to encode putative phaC genes embedded within a typical polyhydroxyalkanoate synthesis operon in their genomes, namely within the genera Ferroglobus, Geoglobus and Archaeoglobus, while no hits were found in extreme thermophilic bacteria. The latter included Thermus thermophilus, which was previously reported as a polyhydroxyalkanoates producer. In this study, using various extraction and analytical methods, no evidence of polyhydroxyalkanoate production was found under the tested conditions. Based on the findings in this study, we conclude that polyhydroxyalkanoate production is very scarce in extreme thermophiles and hyperthermophiles, for reasons that remain to be elucidated.
Anglický abstrakt
Polyhydroxyalkanoates are biopolyesters synthesized and stored in intracellular granules by diverse prokaryotes. Despite intense research efforts and prior evidence of a rather widespread phylogenetic occurrence of the related genetic machinery, reports on extreme thermophilic and hyperthermophilic polyhydroxyalkanoates producers remain scarce. However, thermophilic cell factories for bioplastic production would serve as an excellent example of Next-Generation Industrial Biotechnology. In this study, we aim to address this research gap by establishing a bioinformatics pipeline to mine genomes of extremely and moderately thermophilic microorganisms for signatures of potential polyhydroxyalkanoate production. Based on a collection of verified protein sequences of polyhydroxyalkanoate polymerase PhaC, the key biosynthetic enzyme, carefully curated sets of thermophilic bacterial and archaeal genomes were screened. This revealed that although PhaC-encoding genes are prevalent in diverse moderately thermophilic bacteria, they are absent in the considered extreme thermophilic bacteria. In contrast, a few limited examples of extreme thermophilic archaea were found to encode putative phaC genes embedded within a typical polyhydroxyalkanoate synthesis operon in their genomes, namely within the genera Ferroglobus, Geoglobus and Archaeoglobus, while no hits were found in extreme thermophilic bacteria. The latter included Thermus thermophilus, which was previously reported as a polyhydroxyalkanoates producer. In this study, using various extraction and analytical methods, no evidence of polyhydroxyalkanoate production was found under the tested conditions. Based on the findings in this study, we conclude that polyhydroxyalkanoate production is very scarce in extreme thermophiles and hyperthermophiles, for reasons that remain to be elucidated.
Klíčová slova
Bioinformatics | PhaC | Polyhydroxyalkanoates | Thermophiles | Thermus thermophilus
Klíčová slova v angličtině
Bioinformatics | PhaC | Polyhydroxyalkanoates | Thermophiles | Thermus thermophilus
Autoři
SCHROYEN, B.; MOANIS, R.; GEERAERT, H.; VAN DEN BRANDE, N.; HENNECKE, U.; OBRUČA, S.; BUCHTÍKOVÁ, I.; SEDLÁŘ, K.; SEDLÁČEK, P.; PEETERS, E.
Vydáno
01.12.2025
Periodikum
International Journal of Biological Macromolecules
Číslo
332
Stát
Nizozemsko
Strany od
1
Strany do
12
Strany počet
12
URL
BibTex
@article{BUT199525,
author="{} and {} and {} and {} and {} and {} and {} and {} and {} and {} and Stanislav {Obruča} and Iva {Buchtíková} and Karel {Sedlář} and {} and {} and Petr {Sedláček} and {}",
title="Tracking polyhydroxyalkanoate biosynthesis in thermophilic microorganisms",
journal="International Journal of Biological Macromolecules",
year="2025",
number="332",
pages="12",
doi="10.1016/j.ijbiomac.2025.148573",
issn="0141-8130",
url="https://www.sciencedirect.com/science/article/pii/S0141813025091305?getft_integrator=scopus&pes=vor&utm_source=scopus"
}