Elucidate microbial characteristics in a full-scale treatment plant for offshore oil produced wastewater.

Oil-produced wastewater treatment plants, especially those involving biological treatment processes, harbor rich and diverse microbes. However, knowledge of microbial ecology and microbial interactions determining the efficiency of plants for oil-produced wastewater is limited. Here, we performed 16S rDNA amplicon sequencing to elucidate the microbial composition and potential microbial functions in a full-scale well-worked offshore oil-produced wastewater treatment plant. Results showed that microbes that inhabited the plant were diverse and originated from oil and marine associated environments. The upstream physical and chemical treatments resulted in low microbial diversity. Organic pollutants were digested in the anaerobic baffled reactor (ABR) dominantly through fermentation combined with sulfur compounds respiration. Three aerobic parallel reactors (APRs) harbored different microbial groups that performed similar potential functions, such as hydrocarbon degradation, acidogenesis, photosynthetic assimilation, and nitrogen removal. Microbial characteristics were important to the performance of oil-produced wastewater treatment plants with biological processes.

Tracking alterations of alkyl side chains of N1 species in heavy crude oil after anaerobic biodegradation with negative-ion electrospray ionization coupled with high-field Fourier transform ion cyclotron resonance mass spectrometry.

RATIONALE: Heteroatomic compounds are relatively abundant and believed to be bio-resistant in heavy crude oils. However, few studies have focused on the biodegradation of these heteroatomic compounds. METHODS: Heteroatoms, especially N1 species, in a blank crude oil and in three treated oils co-incubated with anaerobic sulfate-reducing bacteria, nitrate-reducing bacteria and fermentative consortia cultures were detected using negative-ion electrospray ionization coupled with high-field Fourier transform ion cyclotron resonance mass spectrometry. RESULTS: The relative abundance of N1 species in the three treated oils decreased, while the relative abundance of O2 species increased. Remarkably, the relative abundances of N1 species with low carbon number increased and those with higher carbon number decreased. CONCLUSIONS: These results revealed that the anaerobic biodegradations of heavy crude oil occurred. With direct evidences, the degradations of alkyl side chains of N1 species by the anaerobic microbes could be deduced.

Dynamics of a microbial community during an effective boost MEOR trial using high-throughput sequencing.

Using 454 pyrosequencing of 16S rRNA gene amplicons, microbial communities in samples of injection water and production water during a serial microbial enhanced oil recovery (MEOR) field trial in a water flooded high pour point oil reservoir were determined. There was a close microbial community compositional relationship between the injection water and the successful first round MEOR processed oil reservoir which was indicated by the result of 43 shared dominant operational taxonomic units detected in both the injection water and the production water. Alterations of microbial community after the injection of boost nutrients showed that microbes giving positive responses were mainly those belonging to the genera of Comamonas, Brevundimonas, Azospirillum, Achromobacter, Pseudomonas, and Hyphomonas, which were detected both in the injection water and in the production water and usually detected in oil reservoir environments or associated with hydrocarbon degradation. Additionally, microbes only dominant in the production waters were significantly inhibited with a sharp decline in their relative abundance. Based on these findings, a suggestion of re-optimization of the boost nutrients, targetting the microbes co-existing in the injection water and the oil reservoir and having survival ability in both surface and subsurface environments, rather than simple repeats for the subsequent in situ MEOR applications was proposed.

High quality genome sequence and description of Enterobacter mori strain 5-4, isolated from a mixture of formation water and crude-oil.

Enterobacter mori strain 5-4 is a Gram-negative, motile, rod shaped, and facultatively anaerobic bacterium, which was isolated from a mixture of formation water (also known as oil-reservior water) and crude-oil in Karamay oilfield, China. To date, there is only one E. mori genome has been sequenced and very little knowledge about the mechanism of E. mori adapted to the petroleum reservoir. Here, we report the second E. mori genome sequence and annotation, together with the description of features for this organism. The 4,621,281 bp assembly genome exhibits a G + C content of 56.24% and contains 4,317 protein-coding and 65 RNA genes, including 5 rRNA genes.

Permanent draft genome sequence of Bacillus flexus strain T6186-2, a multidrug-resistant bacterium isolated from a deep-subsurface oil reservoir.

Previous studies suggest that antibiotic resistance genes have an ancient origin, which is not always linked to the use of antibiotics but can be enhanced by human activities. Bacillus flexus strain T6186-2 was isolated from the formation water sample of a deep-subsurface oil reservoir. Interestingly, antimicrobial susceptibility testing showed that this strain is susceptible to kanamycin, however, resistant to ampicillin, erythromycin, gentamicin, vancomycin, fosfomycin, fosmidomycin, tetracycline and teicoplanin. To explore our knowledge about the origins of antibiotic resistance genes (ARGs) in the relatively pristine environment, we sequenced the genome of B. flexus strain T6186-2 as a permanent draft. It represents the evidence for the existence of a reservoir of ARGs in nature among microbial populations from deep-subsurface oil reservoirs.

Permanent draft genome sequence of Geobacillus thermocatenulatus strain GS-1.

Geobacillus thermocatenulatus strain GS-1 is a thermophilic bacillus having a growth optimum at 60°C, capable of degrading alkanes. It was isolated from the formation water of a high-temperature deep oil reservoir in Qinghai oilfield, China. Here, we report the draft genome sequence with an estimated assembly size of 3.5Mb. A total of 3371 protein-coding sequences, including monooxygenase, alcohol dehydrogenase, aldehyde dehydrogenase, fatty acid-CoA ligase, acyl-CoA dehydrogenase, enoyl-CoA hydrogenase, hydroxyacyl-CoA dehydrogenase and thiolase, were detected in the genome, which are involved in the alkane degradation pathway. Our results may provide insights into the genetic basis of the adaptation of this strain to high-temperature oilfield ecosystems.

Genome sequence of Brevibacillus agri strain 5-2, isolated from the formation water of petroleum reservoir.

Brevibacillus agri strain 5-2 was isolated from the formation water of a deep oil reservoir in Changqing Oilfield, China. This bacterium was found to have a capacity for degrading tetradecane, hexadecane and alkanesulfonate. To gain insights into its efficient metabolic pathway for degrading hydrocarbon and organosulfur compounds, here, we report the high quality draft genome of this strain. Two putative alkane 1-monooxygenases, one putative alkanesulfonate monooxygenase, one putative alkanesulfonate transporter, one putative sulfate permease and five putative sulfate transporters were identified in the draft genome. The genomic data of strain 5-2 may provide insights into the mechanism of microorganisms adapt to the petroleum reservoir after chemical flooding.

Removal of the tag from His-tagged ILYd4, a human CD59 inhibitor, significantly improves its physical properties and its activity.

Complement dependent cytotoxicity (CDC) significantly contributes to Rituximab (RTX) and Ofatumumab (OFA) efficacies in the treatment of B-cell non-Hodgkin's lymphoma (NHL) and chronic lymphocytic leukemia (CLL). Human CD59 (hCD59) is a key complement regulatory protein that restricts the formation of the membrane attack complex and thereby inhibits CDC. hCD59 is an important determinant of the sensitivity of NHL and CLL to RTX and OFA treatment. Recently, we developed a specific and potent hCD59 inhibitor, His-tagged ILYd4, which consists of 30 amino acid sequences extending from the N-terminus of ILYd4. Our previously published results indicate that His-tagged ILYd4 can be used as a lead candidate to further develop a potential therapeutic adjuvant for RTX and OFA treatment of RTX-resistant NHL and CLL. However, these studies were conducted using ILYd4 tagged on the N-terminus with 30 additional amino acids (AA) containing 6 X His used for immobilized metal affinity chromatograph. As a further step towards the development of ILYd4-based therapeutics, we investigated the impact of the removal of this extraneous sequence on the anti-hCD59 activity. In this paper, we report the generation and characterization of tag-free ILYd4. We demonstrate that tag-free ILYd4 has over threefold higher anti-hCD59 activities than the His-tagged ILYd4. The enhanced RTX-mediated CDC effect on B-cell malignant cells comes from tag-free ILYd4's improved functionality and physical properties including better solubility, reduced tendency to aggregation, and greater thermal stability. Therefore, tag-free ILYd4 is a better candidate for the further development for the clinical application.