The Genetic Basis for Bacterial Mercury Methylation

Parks, Jerry M.; Johs, Alexander; Podar, Mircea; Bridou, Romain; Hurt, Richard A.; Smith, Steven D.; Tomanicek, S.J.; Qian, Yun; Brown, Steven D.; Brandt, Craig C.; Palumbo, Anthony V.; Smith, Jeremy C.; Wall, Judy D.; Elias, Dwayne A.; Liang, Liyuan

doi:10.1126/science.1230667

Cited by 794 publications

(835 citation statements)

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“…First, arriving microbes must have an appropriate spatial and nutritional niche within the host gut (Laparra and Sanz, 2010;Faith et al, 2011;Nicholson et al, 2012). In particular, host food composition affects the persistence of extant microbes through nutritional inputs needed to sustain microbial reproduction (Hildebrandt et al, 2009;Wu et al, 2011;Parks et al, 2013). Second, food intake and digestion rates affect the speed of food passage through the gut and thus the rate at which microbes are lost via excretion.…”

Section: Introductionmentioning

confidence: 99%

Dietary input of microbes and host genetic variation shape among-population differences in stickleback gut microbiota

et al. 2015

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To explain differences in gut microbial communities we must determine how processes regulating microbial community assembly (colonization, persistence) differ among hosts and affect microbiota composition. We surveyed the gut microbiota of threespine stickleback (Gasterosteus aculeatus) from 10 geographically clustered populations and sequenced environmental samples to track potential colonizing microbes and quantify the effects of host environment and genotype. Gut microbiota composition and diversity varied among populations. These among-population differences were associated with multiple covarying ecological variables: habitat type (lake, stream, estuary), lake geomorphology and food-(but not water-) associated microbiota. Fish genotype also covaried with gut microbiota composition; more genetically divergent populations exhibited more divergent gut microbiota. Our results suggest that population level differences in stickleback gut microbiota may depend more on internal sorting processes (host genotype) than on colonization processes (transient environmental effects).

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Section: Introductionmentioning

confidence: 99%

Dietary input of microbes and host genetic variation shape among-population differences in stickleback gut microbiota

et al. 2015

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“…The resistance of bacteria to inorganic Hg 2+ is associated with the presence of the Hg resistance gene (merA) [16,17], which has been considered widely distributed in the phyla of Firmicutes, Actinobacteria and Proteobacteria [16]. Meanwhile, ionic Hg in anaerobic habitats may also be potentially methylated to highly toxic methylmercury (MeHg) by Hg-methylating microbes [18,19], such as sulphate-reducing bacteria (SRB) [20,21], iron-reducing bacteria (FeRB) [22,23] and methanogens [24,25]. However, little is known regarding the responses of these Hg-methylating bacteria to long-term soil Hg contamination.…”

Section: Introductionmentioning

confidence: 99%

Patterns of Bacterial Diversity Along a Long-Term Mercury-Contaminated Gradient in the Paddy Soils

et al. 2014

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Mercury (Hg) pollution is usually regarded as an environmental stress in reducing microbial diversity and altering bacterial community structure. However, these results were based on relatively short-term studies, which might obscure the real response of microbial species to Hg contamination. Here, we analysed the bacterial abundance and community composition in paddy soils that have been potentially contaminated by Hg for more than 600 years. Expectedly, the soil Hg pollution significantly influenced the bacterial community structure. However, the bacterial abundance was significantly correlated with the soil organic matter content rather than the total Hg (THg) concentration. The bacterial alpha diversity increased at relatively low levels of THg and methylmercury (MeHg) and subsequently approached a plateau above 4.86 mg kg −1 THg or 18.62 ng g −1 MeHg, respectively. Contrasting with the general prediction of decreasing diversity along Hg stress, our results seem to be consistent with the intermediate disturbance hypotheses with the peak biological diversity under intermediate disturbance or stress. This result was partly supported by the inconsistent response of bacterial species to Hg stress. For instance, the relative abundance of Nitrospirae decreased, while that of Gemmatimonadetes increased significantly along the increasing soil THg and MeHg concentrations. In addition, the content of SO 4 2− , THg, MeHg and soil depth were the four main factors influencing bacterial community structures based on the canonical correspondence analysis (CCA). Overall, our findings provide novel insight into the distribution patterns of bacterial community along the long-term Hg-contaminated gradient in paddy soils.

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“…However, a number of anaerobic microbes have the ability to transform inorganic mercury into methylmercury. Earlier this year the genes responsible for mercury methylation were identified, and it has now become possible to screen microbes for their ability to methylate mercury 3 . Methylmercury biomagnifies up aquatic and terrestrial food chains, reaching levels high enough to be toxic for animals feeding at high trophic levels -including predatory fish, fish-eating mammals and insect-eating birds.…”

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confidence: 99%

Mesmerized by mercury

Blum

2013

Nature Chem

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The Genetic Basis for Bacterial Mercury Methylation

Cited by 794 publications

References 66 publications

Dietary input of microbes and host genetic variation shape among-population differences in stickleback gut microbiota

Dietary input of microbes and host genetic variation shape among-population differences in stickleback gut microbiota

Patterns of Bacterial Diversity Along a Long-Term Mercury-Contaminated Gradient in the Paddy Soils

Mesmerized by mercury

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