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In silico design and testing of environmental primer pairs with metagenomic data are beneficial for capturing a greater proportion of the natural sequence heterogeneity in microbial functional genes, as well as for understanding limitations of existing primer sets that were designed from more restricted sequence data. PCR primer pairs targeting 10 environmental clades and subclades of the dimethylsulfoniopropionate (DMSP) demethylase protein, DmdA, were designed using an iterative bioinformatic approach that took advantage of thousands ofdmdA sequences captured in marine metagenomic data sets. Using the bioinformatically optimized primers,dmdA genes were amplified from composite free-living coastal bacterioplankton DNA (from 38 samples over 5 years and two locations) and sequenced using 454 technology. An average of 6,400 amplicons per primer pair represented more than 700 clusters of environmentaldmdA sequences across all primers, with clusters defined conservatively at &gt;90% nucleotide sequence identity (∼95% amino acid identity). Degenerate and inosine-based primers did not perform better than specific primer pairs in determiningdmdA richness and sometimes captured a lower degree of richness of sequences from the same DNA sample. A comparison ofdmdA sequences in free-living versus particle-associated bacteria in southeastern U.S. coastal waters showed that sequence richness in somedmdA subgroups differed significantly between size fractions, though most gene clusters were shared (52 to 91%) and most sequences were affiliated with the shared clusters (∼90%). The availability of metagenomic sequence data has significantly enhanced the design of quantitative PCR primer pairs for this key functional gene, providing robust access to the capabilities and activities of DMSP demethylating bacteriain situ .

applied and environmental microbiology

Deep Sequencing of a Dimethylsulfoniopropionate-Degrading Gene ( <i>dmdA</i> ) by Using PCR Primer Pairs Designed on the Basis of Marine Metagenomic Data

Deep Sequencing of a Dimethylsulfoniopropionate-Degrading Gene ( dmdA ) by Using PCR Primer Pairs Designed on the Basis of Marine Metagenomic Data