Abstract
Organohalide respiration (OHR) is a bacterial anaerobic process that uses halogenated compounds, e.g., tetrachloroethene (PCE), as terminal electron acceptors. Our model organisms are Dehalobacter restrictus strain PER-K23, an obligate OHR bacterium (OHRB), and Desulfitobacterium hafniense strain TCE1, a bacterium with a versatile metabolism. The key enzyme is the PCE reductive dehalogenase (PceA) that is encoded in the highly conserved gene cluster (pceABCT) in both above-mentioned strains, and in other Firmicutes OHRB. To date, the functions of PceA and PceT, a dedicated molecular chaperone for the maturation of PceA, are well defined. However, the role of PceB and PceC are still not elucidated. We present a multilevel study aiming at deciphering the stoichiometry of pceABCT individual gene products. The investigation was assessed at RNA level by reverse transcription and (quantitative) polymerase chain reaction, while at protein level, proteomic analyses based on parallel reaction monitoring were performed to quantify the Pce proteins in cell-free extracts as well as in soluble and membrane fractions of both strains using heavy-labeled reference peptides. At RNA level, our results confirmed the co-transcription of all pce genes, while the quantitative analysis revealed a relative stoichiometry of the gene transcripts of pceA, pceB, pceC, and pceT at ~ 1.0:3.0:0.1:0.1 in D. restrictus. This trend was not observed in D. hafniense strain TCE1, where no substantial difference was measured for the four genes. At proteomic level, an apparent 2:1 stoichiometry of PceA and PceB was obtained in the membrane fraction, and a low abundance of PceC in comparison to the other two proteins. In the soluble fraction, a 1:1 stoichiometry of PceA and PceT was identified. In summary, we show that the pce gene cluster is transcribed as an operon with, however, a level of transcription that differs for individual genes, an observation that could be explained by post-transcriptional events. Despite challenges in the quantification of integral membrane proteins such as PceB and PceC, the similar abundance of PceA and PceB invites to consider them as forming a membrane-bound PceA2B protein complex, which, in contrast to the proposed model, seems to be devoid of PceC.
Highlights
Members of the genera Dehalobacter and Desulfitobacterium strongly differ in their overall metabolic strategies, despite a phylogenetically close relationship (Futagami and Furukawa, 2016; Maillard and Holliger, 2016), as they both belong to the Firmicutes
The present study investigates the electron-accepting moiety of organohalide respiration in D. restrictus and D. hafniense strain TCE1 by defining the stoichiometric relationships of the pceABCT individual gene products at RNA and protein levels
The investigation of our model organisms allowed us to explore the use of the pceABCT gene cluster in two different bacterial genera and to question the participation of the encoded proteins in the composition of the electron transfer chain involved in PCE reductive dechlorination
Summary
Members of the genera Dehalobacter and Desulfitobacterium strongly differ in their overall metabolic strategies, despite a phylogenetically close relationship (Futagami and Furukawa, 2016; Maillard and Holliger, 2016), as they both belong to the Firmicutes (newly named as Bacillota Oren and Garrity, 2021). D. restrictus strain PER-K23 displays twenty-five different rdhA genes (Kruse et al, 2013), while OHR members of the Desulfitobacterium genus harbor between one and seven rdhA genes in their genome (Kruse et al, 2017) Both D. restrictus strain PER-K23 and D. hafniense strains TCE1 share the highly conserved (99% amino acid sequence identity) and wellcharacterized PCE reductive dehalogenase, which is encoded by the pceA gene (Maillard et al, 2003) and is part of a four-gene cluster (pceABCT) (Supplementary Figure 1A), that displays 99% DNA sequence identity between the two organisms (Maillard et al, 2005). The pce gene cluster in D. hafniense strain TCE1 is located on the active composite transposon Tn-Dha (Maillard et al, 2005; Duret et al, 2012), a structure that has been found with some variations in other Desulfitobacterium spp. No transposon structure is found around the pceABCT gene cluster of D. restrictus
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