Detail publikačního výsledku

Gene expression analysis reveals distinct PHB depolymerization mechanisms and broader involvement of the PHB cycle in Rhodospirillum rubrum growing on acetate and fructose

FLEURIOT-BLITMAN, H.; SABATOVA, K.; AMSTUTZ, V.; JAKUBICKOVA, M.; SLANINOVA, E.; MRAZOVA, K.; FERRÍN MENDOZA, M.; HRUBANOVA, K.; KRZYZANEK, V.; OBRUCA, S.; SEDLAR, K.; ZINN, M.

Originální název

Gene expression analysis reveals distinct PHB depolymerization mechanisms and broader involvement of the PHB cycle in Rhodospirillum rubrum growing on acetate and fructose

Anglický název

Gene expression analysis reveals distinct PHB depolymerization mechanisms and broader involvement of the PHB cycle in Rhodospirillum rubrum growing on acetate and fructose

Druh

Článek WoS

Originální abstrakt

Background: Rhodospirillum rubrum owns a dynamic poly(3-hydroxybutyrate) (PHB) cycle: During growth PHB is accumulated and subsequently degraded under carbon starvation. Interestingly, this cycle is typically found for acetate grown R. rubrum but not for fructose grown cells, where no PHB accumulation has been observed. This study aimed to determine whether expression of PHB cycle genes correlates with the phases of PHB accumulation and degradation on acetate in comparison to absence of PHB synthesis during growth on fructose and ΔphaC1ΔphaC2 mutant unable to polymerize PHB on acetate. Results: Surprisingly, transcriptomic analyses of the wild-type strain demonstrated that PHB cycle genes were not only expressed during growth on acetate but also for growth on fructose, regardless of PHB content. Substrate-specific expression patterns were identified: The PHB depolymerase gene phaZ1 was predominantly expressed on acetate, while phaZ2 and the depolymerase regulator apdA were upregulated on fructose. Interestingly, phaC3 and phaZ3 showed distinct expression patterns compared with other PHB cycle genes, particularly in mutant strains. Despite the absence of PHB granules in the ΔphaC1ΔphaC2 strain, several PHB cycle genes remained expressed, and volatile fatty acid assimilation pathways were transcriptionally impacted. Conclusions: These findings highlight the complexity of the PHB cycle and suggest that PHB participates in other physiological processes, such as substrate assimilation, potentially via regulatory actions of PHB granule bound regulator PhaR.

Anglický abstrakt

Background: Rhodospirillum rubrum owns a dynamic poly(3-hydroxybutyrate) (PHB) cycle: During growth PHB is accumulated and subsequently degraded under carbon starvation. Interestingly, this cycle is typically found for acetate grown R. rubrum but not for fructose grown cells, where no PHB accumulation has been observed. This study aimed to determine whether expression of PHB cycle genes correlates with the phases of PHB accumulation and degradation on acetate in comparison to absence of PHB synthesis during growth on fructose and ΔphaC1ΔphaC2 mutant unable to polymerize PHB on acetate. Results: Surprisingly, transcriptomic analyses of the wild-type strain demonstrated that PHB cycle genes were not only expressed during growth on acetate but also for growth on fructose, regardless of PHB content. Substrate-specific expression patterns were identified: The PHB depolymerase gene phaZ1 was predominantly expressed on acetate, while phaZ2 and the depolymerase regulator apdA were upregulated on fructose. Interestingly, phaC3 and phaZ3 showed distinct expression patterns compared with other PHB cycle genes, particularly in mutant strains. Despite the absence of PHB granules in the ΔphaC1ΔphaC2 strain, several PHB cycle genes remained expressed, and volatile fatty acid assimilation pathways were transcriptionally impacted. Conclusions: These findings highlight the complexity of the PHB cycle and suggest that PHB participates in other physiological processes, such as substrate assimilation, potentially via regulatory actions of PHB granule bound regulator PhaR.

Klíčová slova

Poly(3-hydroxybutyrate), PHB cycle, Rhodospirillum rubrum, Transcriptomics, Acetate, Fructose, ΔphaC1ΔphaC2, PhaZ1, PhaZ2

Klíčová slova v angličtině

Poly(3-hydroxybutyrate), PHB cycle, Rhodospirillum rubrum, Transcriptomics, Acetate, Fructose, ΔphaC1ΔphaC2, PhaZ1, PhaZ2

Autoři

FLEURIOT-BLITMAN, H.; SABATOVA, K.; AMSTUTZ, V.; JAKUBICKOVA, M.; SLANINOVA, E.; MRAZOVA, K.; FERRÍN MENDOZA, M.; HRUBANOVA, K.; KRZYZANEK, V.; OBRUCA, S.; SEDLAR, K.; ZINN, M.

Rok RIV

2026

Vydáno

09.02.2026

Nakladatel

Springer Science and Business Media LLC

Periodikum

Microbial Cell Factories

Svazek

25

Číslo

1

Stát

Spojené království Velké Británie a Severního Irska

Strany počet

17

URL

https://doi.org/10.1186/s12934-026-02946-7

BibTex

@article{BUT201600,
  author="{} and  {} and Kateřina {Šabatová} and  {} and  {} and Markéta {Jakubíčková} and Eva {Slaninová} and  {} and  {} and  {} and  {} and  {} and  {} and  {} and  {} and  {} and Stanislav {Obruča} and Karel {Sedlář} and  {} and  {}",
  title="Gene expression analysis reveals distinct PHB depolymerization mechanisms and broader involvement of the PHB cycle in Rhodospirillum rubrum growing on acetate and fructose",
  journal="Microbial Cell Factories",
  year="2026",
  volume="25",
  number="1",
  pages="17",
  doi="10.1186/s12934-026-02946-7",
  url="https://doi.org/10.1186/s12934-026-02946-7"
}