Transcriptome analysis revealed growth phase-associated changes of a centenarian-originated probiotic Bifidobacterium animalis subsp. lactis A6

Wang, Hui; An, Jieran; Fan, Chengfei; Zhai, Zhengyuan; Zhang, Hongxing; Hao, Yanling

doi:10.1186/s12866-022-02474-5

Cited by 2 publications

(1 citation statement)

References 57 publications

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“…The increased transcription of genes linked to the uptake and utilization of various carbohydrates in BB-46 and, especially, in BB-12 when entering the stationary phase, agree with a recent study showing enhanced transcription of genes linked to carbohydrate metabolism by B. animalis subsp. lactis A6 in the stationary phase ( 71 ). Together, these findings indicate a high degree of catabolic flexibility of Bifidobacterium strains, as well as an intrinsic ability to cope with variations in substrate availability and adapt to changing conditions in their natural habitat.…”

Section: Discussionmentioning

confidence: 99%

Novel Insights into the Molecular Mechanisms Underlying Robustness and Stability in Probiotic Bifidobacteria

Schöpping

Goel

Jensen

et al. 2023

Appl Environ Microbiol

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Section: Discussionmentioning

confidence: 99%

Novel Insights into the Molecular Mechanisms Underlying Robustness and Stability in Probiotic Bifidobacteria

Schöpping

Goel

Jensen

et al. 2023

Appl Environ Microbiol

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The Gene Expression Profile Differs in Growth Phases of the Bifidobacterium Longum Culture

et al. 2022

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To date, transcriptomics have been widely and successfully employed to study gene expression in different cell growth phases of bacteria. Since bifidobacteria represent a major component of the gut microbiota of a healthy human that is associated with numerous health benefits for the host, it is important to study them using transcriptomics. In this study, we applied the RNA-Seq technique to study global gene expression of B. longum at different growth phases in order to better understand the response of bifidobacterial cells to the specific conditions of the human gut. We have shown that in the lag phase, ABC transporters, whose function may be linked to active substrate utilization, are increasingly expressed due to preparation for cell division. In the exponential phase, the functions of activated genes include synthesis of amino acids (alanine and arginine), energy metabolism (glycolysis/gluconeogenesis and nitrogen metabolism), and translation, all of which promote active cell division, leading to exponential growth of the culture. In the stationary phase, we observed a decrease in the expression of genes involved in the control of the rate of cell division and an increase in the expression of genes involved in defense-related metabolic pathways. We surmise that the latter ensures cell survival in the nutrient-deprived conditions of the stationary growth phase.

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Transcriptome analysis revealed growth phase-associated changes of a centenarian-originated probiotic Bifidobacterium animalis subsp. lactis A6

Cited by 2 publications

References 57 publications

Novel Insights into the Molecular Mechanisms Underlying Robustness and Stability in Probiotic Bifidobacteria

Novel Insights into the Molecular Mechanisms Underlying Robustness and Stability in Probiotic Bifidobacteria

The Gene Expression Profile Differs in Growth Phases of the Bifidobacterium Longum Culture

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