Design and evaluation of nematode 18S rDNA primers for PCR and denaturing gradient gel electrophoresis (DGGE) of soil community DNA

I.S. Waite, A.G. O'Donnell, A. Harrison, J.T. Davies, S.R. Colvan, K. Ekschmitt, H. Dogan, V. Wolters, A.M.T. Bongers, M. Bongers, G. Bakonyi, P. Nagy, E.M. Papatheodorou, G.P. Stamou, S. Boström

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Abstract

Consensus nematode 185 ribosomal DNA primers were designed by aligning available 185 sequences and identifying a variable region flanked by highly conserved regions. These primers were then used to amplify nematode 18S rDNA from whole soil community DNA extracted from a range of European grassland types. Cloning of the PCR amplicons (778 bp) followed by restriction digest analysis (RFLP) resulted in the recovery of 34 unique nematode sequences from the four grasslands studied. Comparison of these data with the limited number of 18S rDNA nematode sequences currently held in on-line databases revealed that all of the sequences could be assigned to known nematode taxa albeit tentatively in some cases. Two of the sequences recovered from the site in the Netherlands (wet, hay-grassland) were recovered in a clade that included a sequence of the genus Trichodorus whilst other sequences from this site showed similarity with 185 rDNA sequences of the genus Prismatolaimus (five sequences), Xiphinema (one sequence) and Enoplus (one sequence). Of the remaining sequences, two showed some affinity with Mylonchulus (UK, upland peat), four with Steinernema (UK) and one sequence with Mesorhabditis (Hungary, east European Steppe). Three sequences from the Netherlands and one from Hungary were recovered in a clade that included a sequence of the genus Pratylenchoides whilst three further sequences from the Netherlands and two from Hungary were recovered in a clade encompassing the genus Globodera. Of the remaining nine sequences, two (NL6, NL62) formed a distinct lineage within the Adenophorea with 90% bootstrap recovery in a paraphyletic clade that included sequences of Prismatolaimus and Trichodorus. Seven sequences (three from the Netherlands, three from the UK and one from Greece) were left unassigned though the tree topology suggested some relationship (58% bootstrap recovery) with the genus Cephalobus. To assess whether primers used to amplify 185 rDNA might be used to fingerprint genetic diversity in nematode communities in soil, the environmental sequence data were used to design a second set of primers carrying a GC-clamp. These primers amplified a 469 by fragment internal to the region flanked by the primer set used to derive the nematode trees and were used to amplify 185 rDNA for subsequent analysis using denaturing gradient gel electrophoresis (DGGE). DGGE analysis of six major European grassland types revealed considerable genetic diversity between sites. However, the relationships seen with the DGGE data were inconsistent with previous studies where the same soils had been characterized with respect to functional and morphological diversity. To confine that this second set of primers was amplifying nematode sequences, selected bands on the DGGE gels were extracted, PCR amplified and sequenced. The final alignment was 337 bases. These analyses revealed the presence of sequence signatures from the genera Paratrichodorus, Plectus, Steinernema, Globodera, Cephalobus and Pratylenchoides. (C) 2003 Elsevier Ltd. All rights reserved.
Original languageEnglish
Pages (from-to)1165-1173
JournalSoil Biology and Biochemistry
Volume35
DOIs
Publication statusPublished - 2003

Keywords

  • 16s ribosomal-rna
  • bacterial communities
  • hydrothermal vent
  • grassland soils
  • diversity
  • genes
  • biodiversity
  • populations
  • identification
  • quantification

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    Waite, I. S., O'Donnell, A. G., Harrison, A., Davies, J. T., Colvan, S. R., Ekschmitt, K., Dogan, H., Wolters, V., Bongers, A. M. T., Bongers, M., Bakonyi, G., Nagy, P., Papatheodorou, E. M., Stamou, G. P., & Boström, S. (2003). Design and evaluation of nematode 18S rDNA primers for PCR and denaturing gradient gel electrophoresis (DGGE) of soil community DNA. Soil Biology and Biochemistry, 35, 1165-1173. https://doi.org/10.1016/S0038-0717(03)00177-9