Transcriptional heterogeneity of catabolic genes on the plasmid pCAR1 causes host-specific carbazole degradation.
Chiho Suzuki-MinakuchiNatsumi YamamotoSaki TakahiraMasataka YamaguchiYutaro TakedaKazunori OkadaShinsuke ShigetoHideaki NojiriPublished in: Applied and environmental microbiology (2024)
To elucidate why plasmid-borne catabolic ability differs among host bacteria, we assessed the expression dynamics of the P ant promoter on the carbazole-degradative conjugative plasmid pCAR1 in Pseudomonas putida KT2440(pCAR1) (hereafter, KTPC) and Pseudomonas resinovorans CA10. The P ant promoter regulates the transcription of both the car and ant operons, which are responsible for converting carbazole into anthranilate and anthranilate into catechol, respectively. In the presence of anthranilate, transcription of the P ant promoter is induced by the AraC/XylS family regulator AntR, encoded on pCAR1. A reporter cassette containing the P ant promoter followed by gfp was inserted into the chromosomes of KTPC and CA10. After adding anthranilate, GFP expression in the population of CA10 showed an unimodal distribution, whereas a small population with low GFP fluorescence intensity appeared for KTPC. CA10 has a gene, antR CA , that encodes an iso-functional homolog of AntR on its chromosome. When antR CA was disrupted, a small population with low GFP fluorescence intensity appeared. In contrast, overexpression of pCAR1-encoded AntR in KTPC resulted in unimodal expression under the P ant promoter. These results suggest that the expression of pCAR1-encoded AntR is insufficient to ameliorate the stochastic expression of the P ant promoter. Raman spectra of single cells collected using deuterium-labeled carbazole showed that the C-D Raman signal exhibited greater variability for KTPC than CA10. These results indicate that heterogeneity at the transcriptional level of the P ant promoter due to insufficient AntR availability causes fluctuations in the pCAR1-borne carbazole-degrading capacity of host bacterial cells.IMPORTANCEHorizontally acquired genes increase the competitiveness of host bacteria under selective conditions, although unregulated expression of foreign genes may impose fitness costs. The "appropriate" host for a plasmid is empirically known to maximize the expression of plasmid-borne traits. In the case of pCAR1-harboring Pseudomonas strains, P. resinovorans CA10 exhibits strong carbazole-degrading capacity, whereas P. putida KT2440 harboring pCAR1 exhibits low degradation capacity. Our results suggest that a chromosomally encoded transcription factor affects transcriptional and metabolic fluctuations in host cells, resulting in different carbazole-degrading capacities as a population. This study may provide a clue for determining appropriate hosts for a plasmid and for regulating the expression of plasmid-borne traits, such as the degradation of xenobiotics and antibiotic resistance.
Keyphrases
- transcription factor
- poor prognosis
- escherichia coli
- dna methylation
- gene expression
- crispr cas
- genome wide
- genome wide identification
- induced apoptosis
- binding protein
- long non coding rna
- dna binding
- magnetic resonance imaging
- protein kinase
- copy number
- signaling pathway
- pseudomonas aeruginosa
- biofilm formation
- physical activity
- single cell
- wastewater treatment
- microbial community
- positron emission tomography