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Comparison of RNA- and DNA-based bacterial communities in a lab-scale methane-degrading biocover.

Applied microbiology and biotechnology (2012-05-11)
Tae Gwan Kim, Kyung-Eun Moon, Jeonghee Yun, Kyung-Suk Cho
RESUMEN

Methanotrophs must become established and active in a landfill biocover for successful methane oxidation. A lab-scale biocover with a soil mixture was operated for removal of methane and nonmethane volatile organic compounds, such as dimethyl sulfide (DMS), benzene (B), and toluene (T). The methane elimination capacity was 211±40 g m(-2) d(-1) at inlet loads of 330-516 g m(-2) d(-1). DMS, B, and T were completely removed at the bottom layer (40-50 cm) with inlet loads of 221.6±92.2, 99.6±19.5, and 23.4±4.9 mg m(-2) d(-1), respectively. The bacterial community was examined based on DNA and RNA using ribosomal tag pyrosequencing. Interestingly, methanotrophs comprised 80% of the active community (RNA) while 29% of the counterpart (DNA). Types I and II methanotrophs equally contributed to methane oxidation, and Methylobacter, Methylocaldum, and Methylocystis were dominant in both communities. The DNA vs. RNA comparison suggests that DNA-based analysis alone can lead to a significant underestimation of active members.

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Sigma-Aldrich
Dimetilsulfuro, redistilled, ≥99%, FCC, FG
Sigma-Aldrich
Dimetilsulfuro, natural, ≥99%, FCC, FG
Sigma-Aldrich
Dimetilsulfuro, ≥99%
Sigma-Aldrich
Dimetilsulfuro, anhydrous, ≥99.0%
Supelco
Dimetilsulfuro, analytical standard