Metagenome-Guided Proteomic Quantification of Reductive Dehalogenases in the <i>Dehalococcoides mccartyi</i>-Containing Consortium SDC-9

Kucharzyk, Katarzyna H.; Meisel, Jayda E.; Kara-Murdoch, Fadime; Murdoch, Robert W.; Higgins, Steven A.; Vainberg, Simon; Bartling, Craig M.; Mullins, Larry; Hatzinger, Paul B.; Löffler, Frank E.

doi:10.1021/acs.jproteome.0c00072

Cited by 18 publications

(23 citation statements)

References 48 publications

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“…have to scavenge adequate amounts of complete cobamides or precursor molecules to enable the maturation of RDases for energy conservation. For laboratory cultivation of Dehalococcoidia isolates, B 12 has been commonly supplied in the range of 25–50 μg L –1 . ,,− During growth with TCE, targeted proteomic analysis quantified averages of 7.6 × 10 3 and 1.8 × 10 3 TceA proteins per Dhc cell in consortium KB-1 and consortium SDC-9, respectively. , Assuming each TceA protein contains one cobamide molecule (i.e., a 1:1 ratio), , the theoretical B 12 demand to reach the observed cell densities (Table ) would be 0.5–2.4 and 0.3–2.7 μg L –1 for Dhc strain FL2 and strain 195, respectively (eq ). …”

Section: Discussionmentioning

confidence: 99%

“…Although data for corrinoid types and concentrations in groundwater aquifers are not available, the indigenous corrinoid pool is unlikely to meet Dhc strains’ μg L –1 level B 12 demand to achieve maximum growth yields and dechlorination activity. Groundwater monitoring data indicated that meaningful in situ dechlorination activity and ethene formation can be achieved when Dhc cell titers exceed 10 6 L –1 . , Assuming 1.8 × 10 3 to 7.6 × 10 3 RDase (e.g., TceA) proteins per Dhc cell , and a cobamide-to-RDase molar ratio of 1:1, 8.1 to 34 pg L –1 of B 12 should theoretically meet the corrinoid demand of 10 6 Dhc cells L –1 and allow in situ bioremediation to take place. Therefore, it is conceivable that in situ aquifer conditions exist that sustain Dhc reductive dechlorination activity even at meager (i.e., ng L –1 ) corrinoid pool sizes.…”

Section: Discussionmentioning

confidence: 99%

“…32,46,50−53 During growth with TCE, targeted proteomic analysis quantified averages of 7.6 × 10 3 and 1.8 × 10 3 TceA proteins per Dhc cell in consortium KB-1 and consortium SDC-9, respectively. 54,55 Assuming each TceA protein contains one cobamide molecule (i.e., a 1:1 ratio), 56,57 the theoretical B 12 demand to reach the observed cell densities (Table 1) would be 0.5−2.4 and 0.3− 2.7 μg L −1 for Dhc strain FL2 and strain 195, respectively (eq 1).…”

Section: ■ Discussionmentioning

confidence: 99%

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Respiratory Vinyl Chloride Reductive Dechlorination to Ethene in TceA-Expressing Dehalococcoides mccartyi

Yan

Wang

Solis

et al. 2021

Environ. Sci. Technol.

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Bioremediation of chlorinated ethenes in anoxic aquifers hinges on organohalide-respiring Dehalococcoidia expressing vinyl chloride (VC) reductive dehalogenase (RDase). The tceA gene encoding the trichloroethene-dechlorinating RDase TceA is frequently detected in contaminated groundwater but not recognized as a biomarker for VC detoxification. We demonstrate that tceA-carrying Dehalococcoides mccartyi (Dhc) strains FL2 and 195 grow with VC as an electron acceptor when sufficient vitamin B12 (B12) is provided. Strain FL2 cultures that received 50 μg L–1 B12 completely dechlorinated VC to ethene at rates of 14.80 ± 1.30 μM day–1 and attained 1.64 ± 0.11 × 108 cells per μmol of VC consumed. Strain 195 attained similar growth yields of 1.80 ± 1.00 × 108 cells per μmol of VC consumed, and both strains could be consecutively transferred with VC as the electron acceptor. Proteomic analysis demonstrated TceA expression in VC-grown strain FL2 cultures. Resequencing of the strain FL2 and strain 195 tceA genes identified non-synonymous substitutions, although their consequences for TceA function are currently unknown. The finding that Dhc strains expressing TceA respire VC can explain ethene formation at chlorinated solvent sites, where quantitative polymerase chain reaction analysis indicates that tceA dominates the RDase gene pool.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: ■ Discussionmentioning

confidence: 99%

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Respiratory Vinyl Chloride Reductive Dechlorination to Ethene in TceA-Expressing Dehalococcoides mccartyi

Yan

Wang

Solis

et al. 2021

Environ. Sci. Technol.

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“…To this aim, metagenomics approaches provide reliable information about the key enzymes/genes involved in the degradation and detoxification of environmental pollutants to understand better the microbial community structure, functions, and interactions in contaminated matrices or engineered systems for the biological removal of pollutants, with implications for process optimization and bioremediation application at field scale ( Bharagava et al, 2019 ; Lapidus and Korobeynikov, 2021 ). Metagenomic studies have been previously conducted on stable dechlorinating consortia to shed light on the metabolic features of the microbial components and their role in the RD processes under different conditions ( Brisson et al, 2012 ; Maphosa et al, 2012 ; Dam et al, 2017 ; Wang et al, 2019 ; Kucharzyk et al, 2020 ). Similarly, some metagenomic studies have also been conducted on biological systems for Cr(VI) removal to explore the metabolic potential, including Cr(VI) remediation genes, primarily in wastewater treatment systems or microbial consortia ( Miao et al, 2015 ; Sun et al, 2019 ; Pei et al, 2020 ; Rahman and Thomas, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Metagenomic Analysis Reveals Microbial Interactions at the Biocathode of a Bioelectrochemical System Capable of Simultaneous Trichloroethylene and Cr(VI) Reduction

et al. 2021

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Bioelectrochemical systems (BES) are attractive and versatile options for the bioremediation of organic or inorganic pollutants, including trichloroethylene (TCE) and Cr(VI), often found as co-contaminants in the environment. The elucidation of the microbial players’ role in the bioelectroremediation processes for treating multicontaminated groundwater is still a research need that attracts scientific interest. In this study, 16S rRNA gene amplicon sequencing and whole shotgun metagenomics revealed the leading microbial players and the primary metabolic interactions occurring in the biofilm growing at the biocathode where TCE reductive dechlorination (RD), hydrogenotrophic methanogenesis, and Cr(VI) reduction occurred. The presence of Cr(VI) did not negatively affect the TCE degradation, as evidenced by the RD rates estimated during the reactor operation with TCE (111±2 μeq/Ld) and TCE/Cr(VI) (146±2 μeq/Ld). Accordingly, Dehalococcoides mccartyi, the primary biomarker of the RD process, was found on the biocathode treating both TCE (7.82E+04±2.9E+04 16S rRNA gene copies g−1 graphite) and TCE/Cr(VI) (3.2E+07±2.37E+0716S rRNA gene copies g−1 graphite) contamination. The metagenomic analysis revealed a selected microbial consortium on the TCE/Cr(VI) biocathode. D. mccartyi was the sole dechlorinating microbe with H2 uptake as the only electron supply mechanism, suggesting that electroactivity is not a property of this microorganism. Methanobrevibacter arboriphilus and Methanobacterium formicicum also colonized the biocathode as H2 consumers for the CH4 production and cofactor suppliers for D. mccartyi cobalamin biosynthesis. Interestingly, M. formicicum also harbors gene complexes involved in the Cr(VI) reduction through extracellular and intracellular mechanisms.

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“…SDC-9 culture contains strains of D. mccartyi with pceA , tceA , and vcrA reductive dehalogenase genes. , …”

Section: Methodsmentioning

confidence: 99%

Synergistic Zerovalent Iron (Fe⁰) and Microbiological Trichloroethene and Perchlorate Reductions Are Determined by the Concentration and Speciation of Fe

Rangan

Mouti

LaPat-Polasko

et al. 2020

Environ. Sci. Technol.

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Trichloroethene (TCE) and perchlorate (ClO4 –) are cocontaminants at multiple Superfund sites. Fe0 is often used during TCE bioremediation with Dehalococcoides mccartyi to establish anoxic conditions in the aquifer. However, the synergy between Fe0 abiotic reactions and microbiological TCE and ClO4 – reductions is poorly understood and seldom addressed in the literature. Here, we investigated the effects of Fe0 and its oxidation product, Fe2 +, at field-relevant concentrations in promoting microbial TCE and ClO4 – reductions. Using semibatch microcosms with a Superfund site soil and groundwater, we showed that the high Fe0 concentration (16.5 g L–1) expected during Fe0 in situ injection mostly yielded TCE abiotic reduction to ethene/ethane. However, such concentrations obscured dechlorination by D. mccartyi, impeded ClO4 – reduction, and enhanced SO4 2– reduction and methanogenesis. Fe2 + at 0.25 g L–1 substantially delayed conversion of TCE to ethene when compared to no-Fe controls. A low concentration of aged-Fe0 synergistically promoted microbiological TCE dechlorination to ethene while achieving complete ClO4 – reduction. Collectively, these results illustrate scenarios relevant at or downstream of Fe0 injection zones when Fe0 is used to facilitate microbial dechlorination. Results also underscore the potential detrimental effects of Fe0 and bioaugmentation cultures coinjection for in situ treatment of chlorinated ethenes and ClO4 –.

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Metagenome-Guided Proteomic Quantification of Reductive Dehalogenases in the Dehalococcoides mccartyi-Containing Consortium SDC-9

Cited by 18 publications

References 48 publications

Respiratory Vinyl Chloride Reductive Dechlorination to Ethene in TceA-Expressing Dehalococcoides mccartyi

Respiratory Vinyl Chloride Reductive Dechlorination to Ethene in TceA-Expressing Dehalococcoides mccartyi

Metagenomic Analysis Reveals Microbial Interactions at the Biocathode of a Bioelectrochemical System Capable of Simultaneous Trichloroethylene and Cr(VI) Reduction

Synergistic Zerovalent Iron (Fe⁰) and Microbiological Trichloroethene and Perchlorate Reductions Are Determined by the Concentration and Speciation of Fe

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Metagenome-Guided Proteomic Quantification of Reductive Dehalogenases in the Dehalococcoides mccartyi-Containing Consortium SDC-9

Cited by 18 publications

References 48 publications

Respiratory Vinyl Chloride Reductive Dechlorination to Ethene in TceA-Expressing Dehalococcoides mccartyi

Respiratory Vinyl Chloride Reductive Dechlorination to Ethene in TceA-Expressing Dehalococcoides mccartyi

Metagenomic Analysis Reveals Microbial Interactions at the Biocathode of a Bioelectrochemical System Capable of Simultaneous Trichloroethylene and Cr(VI) Reduction

Synergistic Zerovalent Iron (Fe0) and Microbiological Trichloroethene and Perchlorate Reductions Are Determined by the Concentration and Speciation of Fe

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Synergistic Zerovalent Iron (Fe⁰) and Microbiological Trichloroethene and Perchlorate Reductions Are Determined by the Concentration and Speciation of Fe