Simultaneous Assessment of Soil Microbial Community Structure and Function through Analysis of the Meta-Transcriptome

被引:527
作者
Urich, Tim [1 ,2 ]
Lanzen, Anders [3 ]
Qi, Ji [4 ]
Huson, Daniel H. [5 ]
Schleper, Christa [1 ,2 ]
Schuster, Stephan C. [4 ]
机构
[1] Univ Bergen, Dept Biol, Ctr Geobiol, Bergen, Norway
[2] Univ Vienna, Vienna Ecol Ctr, Dept Genet Ecol, Vienna, Austria
[3] Univ Bergen, Bergen Ctr Computat Sci, Computat Biol Unit, Bergen, Norway
[4] Penn State Univ, Ctr Comparative Genom & Bioinformat, State Coll, PA USA
[5] Tubingen Univ, Ctr Bioinformat, Tubingen, Germany
来源
PLOS ONE | 2008年 / 3卷 / 06期
关键词
D O I
10.1371/journal.pone.0002527
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Background: Soil ecosystems harbor the most complex prokaryotic and eukaryotic microbial communities on Earth. Experimental approaches studying these systems usually focus on either the soil community's taxonomic structure or its functional characteristics. Many methods target DNA as marker molecule and use PCR for amplification. Methodology/Principal Findings: Here we apply an RNA-centered meta-transcriptomic approach to simultaneously obtain information on both structure and function of a soil community. Total community RNA is random reversely transcribed into cDNA without any PCR or cloning step. Direct pyrosequencing produces large numbers of cDNA rRNA-tags; these are taxonomically profiled in a binning approach using the MEGAN software and two specifically compiled rRNA reference databases containing small and large subunit rRNA sequences. The pyrosequencing also produces mRNA-tags; these provide a sequence-based transcriptome of the community. One soil dataset of 258,411 RNA-tags of similar to 98 bp length contained 193,219 rRNA-tags with valid taxonomic information, together with 21,133 mRNA-tags. Quantitative information about the relative abundance of organisms from all three domains of life and from different trophic levels was obtained in a single experiment. Less frequent taxa, such as soil Crenarchaeota, were well represented in the data set. These were identified by more than 2,000 rRNA-tags; furthermore, their activity in situ was revealed through the presence of mRNA-tags specific for enzymes involved in ammonia oxidation and CO2 fixation. Conclusions/Significance: This approach could be widely applied in microbial ecology by efficiently linking community structure and function in a single experiment while avoiding biases inherent in other methods.
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页数:13
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