Genetic diversity of dioxygenase genes in polycyclic aromatic hydrocarbon-degrading bacteria isolated from mangrove sediments

ABSTRACTlibA, a gene encoding a novel type of linuron hydrolase, was recently identified in the linuron-mineralizingVariovoraxsp. strain SRS16. In order to assess the contribution oflibAto linuron degradation in environmental settings,libAabundance was monitored in response to the application of linuron and to environmental perturbations in agricultural soil microcosms and microcosms simulating the matrix of on-farm biopurification systems.libAnumbers were measured by real-time PCR and linked to reported data ofVariovoraxcommunity composition and linuron mineralization capacity. In the soil microcosms and one biopurification system setup,libAnumbers responded to the application of linuron and environmental changes in congruency with the modulation of linuron mineralization capacity and the occurrence of a particularVariovoraxphylotype (phylotype A). However, in another biopurification system setup, no such correlations were found. Our data suggest that in the simulated environmental settings, the occurrence oflibAcan be linked to the linuron mineralization capacity and thatlibAis primarily hosted byVariovoraxphylotype A strains. However, the results also suggest that, apart fromlibA, other, as-yet-unknown isofunctional genes play an important role in linuron mineralization in the environment.

Section: Resultsmentioning

confidence: 99%

Dynamics of the Linuron HydrolaselibAGene Pool Size in Response to Linuron Application and Environmental Perturbations in Agricultural Soil and On-Farm Biopurification Systems

Bers

Sniegowski

Mot

et al. 2012

“…The first class (class A) covers all five reference subclades. (DP2 or Rieske_f [17] and Nah-for [26] primers showed especially high coverage of more than 100 genes [see Fig. S1 in the supplemental material].…”

Section: Coverage Of Previous Primersmentioning

confidence: 99%

Comparison of the Specificities and Efficacies of Primers for Aromatic Dioxygenase Gene Analysis of Environmental Samples

Iwai

Johnson

Chai

et al. 2011

Aromatic dioxygenase genes have long been of interest for bioremediation and aromatic carbon cycling studies. To date, 115 primers and probes have been designed and used to analyze dioxygenase gene diversities in environmental samples. Here we analyze those primers' specificities, coverages, and PCR product lengths compared to known aromatic dioxygenase genes based onin silicoanalysis as well as summarize their differing advantages or effectiveness from over 50 reported experimental studies. We also provide some guidance for primer use in future studies.

“…For instance, rhizospheric and sediment microbes are thought to be the major biological components that contribute to the productivity of intertidal mangrove ecosystems. Meanwhile, our group and others have isolated a large number of xenobiotic-degrading bacteria from intertidal wetland sediments (33,35). Nevertheless, microbial ecology studies mainly focus on sulfate-reducing bacteria from Deltaproteobacteria or other limited groups in intertidal sediments (1,21).…”

mentioning

confidence: 99%

Comparison of the Levels of Bacterial Diversity in Freshwater, Intertidal Wetland, and Marine Sediments by Using Millions of Illumina Tags

Wang

Sheng

et al. 2012

753

388

b Sediment, a special realm in aquatic environments, has high microbial diversity. While there are numerous reports about the microbial community in marine sediment, freshwater and intertidal sediment communities have been overlooked. The present study determined millions of Illumina reads for a comparison of bacterial communities in freshwater, intertidal wetland, and marine sediments along Pearl River, China, using a technically consistent approach. Our results show that both taxon richness and evenness were the highest in freshwater sediment, medium in intertidal sediment, and lowest in marine sediment. The high number of sequences allowed the determination of a wide variety of bacterial lineages in all sediments for reliable statistical analyses. Principal component analysis showed that the three types of communities could be well separated from phylum to operational taxonomy unit (OTU) levels, and the OTUs from abundant to rare showed satisfactory resolutions. Statistical analysis (LEfSe) demonstrated that the freshwater sediment was enriched with Acidobacteria, Nitrospira, Verrucomicrobia, Alphaproteobacteria, and Betaproteobacteria. The intertidal sediment had a unique community with diverse primary producers (such as Chloroflexi, Bacillariophyta, Gammaproteobacteria, and Epsilonproteobacteria) as well as saprophytic microbes (such as Actinomycetales, Bacteroidetes, and Firmicutes). The marine sediment had a higher abundance of Gammaproteobacteria and Deltaproteobacteria, which were mainly involved in sulfate reduction in anaerobic conditions. These results are helpful for a systematic understanding of bacterial communities in natural sediment environments.