Use of Substrate-Induced Gene Expression in Metagenomic Analysis of an Aromatic Hydrocarbon-Contaminated Soil

Meier, Matthew J.; Paterson, E. Suzanne; Lambert, Iain B.

doi:10.1128/aem.03306-15

Cited by 34 publications

(18 citation statements)

References 65 publications

(51 reference statements)

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“…The approach to finding downstream sequence information by sequencing the source metagenome and choosing SIGEX‐induced fragments (Meier et al . ) will complement currently limited information on the function(s) of these DNA fragments.…”

Section: Discussionmentioning

confidence: 99%

“…Based on the rapid development of sequencing technologies, Meier et al . () demonstrated the use of SIGEX for complementing limitations associated with database‐dependent gene functional prediction for the soil microbiome. Additionally, Uchiyama and Miyazaki () utilized the SIGEX method to discover a novel transcriptional regulator induced by salicylate, which is non‐metabolizable in standard laboratory strains of Escherichia coli .…”

Section: Introductionmentioning

confidence: 99%

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Metal-ion-induced expression of gene fragments from subseafloor micro-organisms in the Kumano forearc basin, Nankai Trough

et al. 2018

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Metal-ion-induced expression of gene fragments from subseafloor micro-organisms in the Kumano forearc basin, Nankai Trough

et al. 2018

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“…From these, only M. arundinis CBMAI 2109 was able to convert 2.0% ± 0.4 of the PET nanoparticle to the terephthalic acid (monomer), as confirmed by the calculations from Eq. 2, which compares the fluorescence of the positive control (total fluorescence of HOTP) with that of the assay [52]. This strain also converted 43.3% ± 2.7 of long-chain ester probe in umbelliferone.…”

Section: Qualitative and Quantitative Assays For Lipase And Esterase mentioning

confidence: 99%

Hydrocarbon-associated substrates reveal promising fungi for poly (ethylene terephthalate) (PET) depolymerization

et al. 2019

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Recalcitrant characteristics and insolubility in water make the disposal of synthetic polymers a great environmental problem to be faced by modern society. Strategies towards the recycling of post-consumer polymers, like poly (ethylene terephthalate, PET) degradation/depolymerization have been studied but still need improvement. To contribute with this purpose, 100 fungal strains from hydrocarbon-associated environments were screened for lipase and esterase activities by plate assays and high-throughput screening (HTS), using short-and long-chain fluorogenic probes. Nine isolates were selected for their outstanding hydrolytic activity, comprising the genera Microsphaeropsis, Mucor, Trichoderma, Westerdykella, and Pycnidiophora. Two strains of Microsphaeropsis arundinis were able to convert 2-3% of PET nanoparticle into terephthalic acid, and when cultured with two kinds of commercial PET bottle fragments, they also promoted weight loss, surface and chemical changes, increased lipase and esterase activities, and led to PET depolymerization with release of terephthalic acid at concentrations above 20.0 ppm and other oligomers over 0.6 ppm. The results corroborate that hydrocarbon-associated areas are important source of microorganisms for application in environmental technologies, and the sources investigated revealed important strains with potential for PET depolymerization.

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“…HTS techniques increase the success of function-based metagenomic screens since they compensate for the often low hit rates in such screens (Ekkers et al, 2012 ). Apart from conventional high throughput screens, which use microtiter plate wells to store a large number of clones (Ko et al, 2013 ), microarray-based technologies coupled with microfluidic devices, cell compartmentalization, flow cytometry, and cell sorting are arising as promising new technologies for this purpose (Najah et al, 2014 ; Meier et al, 2015 ; Vidal-Melgosa et al, 2015 ). Microfluidic technologies are of undeniable interest when it comes to reaching screening rates of a million clones per day (Ufarté et al, 2015 ).…”

Section: Future Perspectivesmentioning

confidence: 99%

Metagenomics of Thermophiles with a Focus on Discovery of Novel Thermozymes

2016

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Microbial populations living in environments with temperatures above 50°C (thermophiles) have been widely studied, increasing our knowledge in the composition and function of these ecological communities. Since these populations express a broad number of heat-resistant enzymes (thermozymes), they also represent an important source for novel biocatalysts that can be potentially used in industrial processes. The integrated study of the whole-community DNA from an environment, known as metagenomics, coupled with the development of next generation sequencing (NGS) technologies, has allowed the generation of large amounts of data from thermophiles. In this review, we summarize the main approaches commonly utilized for assessing the taxonomic and functional diversity of thermophiles through metagenomics, including several bioinformatics tools and some metagenome-derived methods to isolate their thermozymes.

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Use of Substrate-Induced Gene Expression in Metagenomic Analysis of an Aromatic Hydrocarbon-Contaminated Soil

Cited by 34 publications

References 65 publications

Metal-ion-induced expression of gene fragments from subseafloor micro-organisms in the Kumano forearc basin, Nankai Trough

Metal-ion-induced expression of gene fragments from subseafloor micro-organisms in the Kumano forearc basin, Nankai Trough

Hydrocarbon-associated substrates reveal promising fungi for poly (ethylene terephthalate) (PET) depolymerization

Metagenomics of Thermophiles with a Focus on Discovery of Novel Thermozymes

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