Improved Efficiency of the Desulfurization of Oil Sulfur Compounds in <i>Escherichia coli</i> Using a Combination of Desensitization Engineering and DszC Overexpression

Li, Lu; Liao, Yunlong; Luo, Yifan; Zhang, Guangming; Liao, Xihao; Zhang, Wei; Zheng, Suiping; Han, Sang‐Ik; Lin, Ying; Liang, Shuli

doi:10.1021/acssynbio.9b00126

Cited by 19 publications

(17 citation statements)

References 54 publications

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“…This was confirmed by the development of blue coloration during Gibbs assay indicating the production of 2-HBP which is the end product of 4S pathway (Rahpeyma et al, 2017). The Gibb's assay was used to identify the desulfurization activity of bacteria through 4S pathway by several earlier workers (Sadare et al, 2017;Shahaby and El-din, 2017;Li et al, 2019). The other isolates of our study which were negative for Gibb's assay may be utilizing the other pathways viz., Kodama pathway and Van Afferden pathway for metabolizing DBT as they were also grown abundantly on basal salt medium supplemented with glucose and DBT as sole sulfur source.…”

Section: Isolation Of Predominantly Growing Bacteria On Dbt Containing Medium and Screening For Bacterial Strains Positive For Gibb's Tesmentioning

confidence: 54%

Isolation and Identification of Dibenzothiophene Desulfurizing Bacteria Occurring in Oil Contaminated Soils of Mechanical Workshops

2021

JJBS

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When fossil fuels are oxidized, a wide range of hazardous gases reach the atmosphere. Among these gases, sulfur oxides which are released because of oxidation of organosulfur compounds occurring in fuels become the sources of environmental pollution and acid rain. Hydrodesulfurization, a traditional practice employed for the removal of sulfur content from petroleum products during refining process is not eco-friendly and effective in removal of sulfur content, especially, recalcitrant organosulfur compounds like dibenzothiophene. Biodesulfurization, which employs microbes for the removal of sulfur from fossil fuels, is an eco-friendly method and a better alternative to hydrodesulfurization. The dibenzothiophene is treated as a model organosulfur compound for biodesulfurization studies. The present paper deals with the isolation of bacteria which exhibit dibenzothiophene biodesulfurization via 4S pathway from oil contaminated soils, detection of intermediates and end product of 4S pathway using Gas chromatography-Mass spectroscopy (GC-MS) in the DBT culture broths of isolates positive for gibb's test, amplification of dsz operon genes which regulate 4S pathway in desulfurizing bacteria and identification of DBT desulfurizing bacteria by microscopic examination, biochemical tests and 16S rRNA gene anaylsis. Two DBT desulfurizing bacteria isolated were found positive for Gibb's test and Dibenzothiophene sulfone (DBTO 2 ) , one of the intermediates and 2-Hydroxy biphenyl, the end product of 4S pathway were detected in DBT containing culture broths of both the desulfurizing bacteria when subjected to GC-MS. In both, the bacteria dsz operon genes were detected. The two bacteria were identified as Streptomyces sp. VUR PPR 101 and Streptomyces sp. VUR PPR 102.

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Section: Isolation Of Predominantly Growing Bacteria On Dbt Containing Medium and Screening For Bacterial Strains Positive For Gibb's Tesmentioning

confidence: 54%

Isolation and Identification of Dibenzothiophene Desulfurizing Bacteria Occurring in Oil Contaminated Soils of Mechanical Workshops

2021

JJBS

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“…One of the main limitations of DBT biodegradation efficiency via the 4S pathway is the concomitant production of 2‐HBP, which has been shown to inhibit growth and DBT biodegradation itself (Abin‐Fuentes et al ., 2013; Li et al ., 2019). To test how 2‐HBP accumulation could affect E .…”

Section: Resultsmentioning

confidence: 99%

“…Toxicity of 2-HBP in E. coli and Pseudomonas One of the main limitations of DBT biodegradation efficiency via the 4S pathway is the concomitant production of 2-HBP, which has been shown to inhibit growth and DBT biodegradation itself (Abin-Fuentes et al, 2013;Li et al, 2019). To test how 2-HBP accumulation could affect E. coli growth, a specialized strain bearing the UPO112 fosmid was grown in minimal medium with the different sulfur sources, and the effect on growth of increasing concentrations of 2-HBP was tested.…”

Section: Regulated Expression Of Dszeabc When Dszhr Is Ectopically Tr...mentioning

confidence: 99%

“…One of the technical problems is that DBT biodegradation is repressed by other preferred sulfur sources, which has prompted to construct engineered strains expressing dsz genes from ectopic promoters (Gallardo et al ., 1997; Takada et al ., 2005; Alves et al ., 2007; Khosravinia et al ., 2018). In addition, other problems preclude development of biocatalysts, including substrate bioavailability, final product (2‐HBP) toxicity, or enzyme product inhibition (Abin‐Fuentes et al ., 2013; Li et al ., 2019). Therefore there is a need to pursue the search for new enzymes and novel bacterial strain characteristics to develop an efficient biocatalyst.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of a dszEABC operon providing fast growth on dibenzothiophene and construction of broad‐host‐range biodesulfurization catalysts

Martín-Cabello

Terrón-González

Santero

2022

Environmental Microbiology

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A new operon for biodesulfurization (BDS) of dibenzothiophene and derivatives has been isolated from a metagenomic library made from oilcontaminated soil, by selecting growth of E. coli on DBT as the sulfur source. This operon is similar to a dszEABC operon also isolated by metagenomic functional screening but exhibited substantial differences: (i) the new fosmid provides much faster growth on DBT; (ii) associated dszEABC genes can be expressed without the need of heterologous expression from the vector promoter; and (iii) monooxygenases encoded in the fosmid cannot oxidize indole to produce indigo. We show how expression of the new dszEABC operon is regulated by the sulfur source, being induced under sulfurlimiting conditions. Its transcription is activated by DszR, a type IV activator οf σ N -dependent promoters. DszR is coded in a dszHR operon, whose transcription is in turn regulated by sulfur and presumably activated by the global regulator of sulfur metabolism CysB. Expression of dszH is essential for production of active DszR, although it is not involved in sulfur sensing or regulation. Two broad-host-range DBT biodesulfurization catalysts have been constructed and shown to provide DBT biodesulfurization capability to three Pseudomonas strains, displaying desirable characteristics for biocatalysts to be used in BDS processes.

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“…The FMNH 2 required for the oxidation steps is supplied by a NADH-FMN oxidoreductase (DszD; Figure 1A), which is usually chromosomally encoded (Gupta et al, 2005;Mohebali and Ball, 2016;Kilbane, 2017;Parveen et al, 2020;Hirschler et al, 2021;Martín-Cabello et al, 2022). One of the major bottlenecks of the biodesulfurization of DBT through the 4S route is the inhibitory effect of the final product, 2HBP, on the initial Dsz enzymes (Xu et al, 2006;Chen et al, 2008;Akhtar et al, 2009;Abin-Fuentes et al, 2013;Kilbane, 2017;Li et al, 2019a). To deal with this limitation, different approaches have been applied over the years.…”

Section: Introductionmentioning

confidence: 99%

Enhancing biodesulfurization by engineering a synthetic dibenzothiophene mineralization pathway

et al. 2022

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A synthetic dibenzothiophene (DBT) mineralization pathway has been engineered in recombinant cells of Pseudomonas azelaica Aramco J strain for its use in biodesulfurization of thiophenic compounds and crude oil. This functional pathway consists of a combination of a recombinant 4S pathway responsible for the conversion of DBT into 2-hydroxybiphenyl (2HBP) and a 2HBP mineralization pathway that is naturally present in the parental P. azelaica Aramco J strain. This novel approach allows overcoming one of the major bottlenecks of the biodesulfurization process, i.e., the feedback inhibitory effect of 2HBP on the 4S pathway enzymes. Resting cells-based biodesulfurization assays using DBT as a sulfur source showed that the 2HBP generated from the 4S pathway is subsequently metabolized by the cell, yielding an increase of 100% in DBT removal with respect to previously optimized Pseudomonas putida biodesulfurizing strains. Moreover, the recombinant P. azelaica Aramco J strain was able to use DBT as a carbon source, representing the best characterized biocatalyst harboring a DBT mineralization pathway and constituting a suitable candidate to develop future bioremediation/bioconversion strategies for oil-contaminated sites.

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Improved Efficiency of the Desulfurization of Oil Sulfur Compounds in Escherichia coli Using a Combination of Desensitization Engineering and DszC Overexpression

Cited by 19 publications

References 54 publications

Isolation and Identification of Dibenzothiophene Desulfurizing Bacteria Occurring in Oil Contaminated Soils of Mechanical Workshops

Isolation and Identification of Dibenzothiophene Desulfurizing Bacteria Occurring in Oil Contaminated Soils of Mechanical Workshops

Characterization of a dszEABC operon providing fast growth on dibenzothiophene and construction of broad‐host‐range biodesulfurization catalysts

Enhancing biodesulfurization by engineering a synthetic dibenzothiophene mineralization pathway

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