Abstract

Abstract Populations of beet cyst nematodes Heterodera schachtii vary in aggressiveness and virulence toward sugar beet varieties, but also in traits like host range, or decline rate in the field. Diversity of their essential pathogenicity gene vap1 is shaped by diversifying selection and gene flow. The authors developed a technique to study inter-population variation and intra-population diversity and dynamics of H. schachtii based on the gene vap1. Degenerate primers were designed to amplify, clone, and sequence this gene from diverse species and populations of cyst nematodes. This resulted in a high diversity of sequences for H. schachtii, and allowed to design non-degenerated primers to amplify a fragment suitable for sequence dependent separation of gene variants in denaturing gradient gel electrophoresis (DGGE). The developed primers span a highly variable intron and part of a slightly variable exon. A marker comprised of the 14 mostly detected gene variants was established for gel-to-gel comparisons. For individual juveniles up to six gene variants were resolved and substantial variation within and among cysts was observed. A fast and easy DNA extraction procedure for 20 pooled cysts was established, which provided DGGE patterns with high similarity among replicate samples from field populations. Permutation tests on pairwise similarities within and among populations showed significant differences among vap1 patterns of field populations of H. schachtii. Similarly, gene diversity as expressed by the Shannon index was statistically different among field populations. In conclusion, the DGGE technique is a fast and – compared to sequencing approaches – inexpensive tool to compare populations of H. schachtii and link observed biological characteristics to genetic pattern.

Highlights

  • ObjectivesThe objective of this study was to evaluate the potential of PCR-denaturing gradient gel electrophoresis (DGGE) fingerprinting based on the vap effector gene to characterize the genetic variation within and among populations of H. schachtii

  • A collection of 76 vap1 sequences was obtained from the cyst nematodes, including one sequence of H. filipjevi, five sequences of H. betae, five sequences of G. pallida, 20 sequences of H. schachtii, and 45 sequences of G. rostochiensis

  • The exon region in the sequenced gene fragments was about 415 bp and the variability of the corresponding translated protein was higher in populations of H. schachtii than in populations of G. rostochiensis

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Summary

Objectives

The objective of this study was to evaluate the potential of PCR-DGGE fingerprinting based on the vap effector gene to characterize the genetic variation within and among populations of H. schachtii

Methods
Results
Conclusion

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