Molecular Analyses of the Methane-Oxidizing Microbial Community in Rice Field Soil by Targeting the Genes of the 16S rRNA, Particulate Methane Monooxygenase, and Methanol Dehydrogenase

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Applied and Environmental Microbiology, May 1999, p. 1980-1990, Vol. 65, No. 5
0099-2240/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

Molecular Analyses of the Methane-Oxidizing Microbial Community in Rice Field Soil by Targeting the Genes of the 16S rRNA, Particulate Methane Monooxygenase, and Methanol Dehydrogenase

Thilo Henckel, Michael Friedrich, and Ralf Conrad^*

Max-Planck-Institut für terrestrische Mikrobiologie, D-35043 Marburg, Germany

Received 15 December 1998/Accepted 12 February 1999

Rice field soil with a nonsaturated water content induced CH₄ consumption activity when it was supplemented with 5% CH₄. Aftera lag phase of 3 days, CH₄ was consumed rapidly until the concentrationwas less than 1.8 parts per million by volume (ppmv). However,the soil was not able to maintain the oxidation activity at near-atmosphericCH₄ mixing ratios (i.e., 5 ppmv). The soil microbial communitywas monitored by performing denaturing gradient gel electrophoresis(DGGE) during the oxidation process with different PCR primersets based on the 16S rRNA gene and on functional genes. A universalsmall-subunit (SSU) ribosomal DNA (rDNA) primer set and 16S rDNAprimer sets specifically targeting type I methylotrophs (membersof the $gamma$ subdivision of the class Proteobacteria [ $gamma$ -Proteobacteria])and type II methylotrophs (members of the $alpha$ -Proteobacteria) wereused. Functional PCR primers targeted the genes for particulatemethane monooxygenase (pmoA) and methanol dehydrogenase (mxaF),which code for key enzymes in the catabolism of all methanotrophs.The yield of PCR products amplified from DNA in soil that oxidizedCH₄ was the same as the yield of PCR products amplified from controlsoil when the universal SSU rDNA primer set was used but was significantlygreater when primer sets specific for methanotrophs were used.The DGGE patterns and the sequences of major DGGE bands obtainedwith the universal SSU rDNA primer set showed that the communitystructure was dominated by nonmethanotrophic populations relatedto the genera Flavobacterium and Bacillus and was not influencedby CH₄. The structure of the methylotroph community as determinedwith the specific primer sets was less complex; this communityconsisted of both type I and type II methanotrophs related tothe genera Methylobacter, Methylococcus, and Methylocystis. DGGEprofiles of PCR products amplified with functional gene primersets that targeted the mxaF and pmoA genes revealed that therewere pronounced community shifts when CH₄ oxidation began. HighCH₄ concentrations stimulated both type I and II methanotrophsin rice field soil with a nonsaturated water content, as determinedwith both ribosomal and functional genemarkers.

^* Corresponding author. Mailing address: Max-Planck-Institut für terrestrische Mikrobiologie, Karl-von-Frisch Strasse, D-35043Marburg, Germany. Phone: 49-6421-178 801. Fax: 49-6421-178 809.E-mail: Conrad{at}mailer.uni-marburg.de.

Applied and Environmental Microbiology, May 1999, p. 1980-1990, Vol. 65, No. 5
0099-2240/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

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