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PCR cycles above routine numbers do not compromise high-throughput DNA barcoding results.

J Vierna1, J Doña2, A Vizcaíno1

  • 1a AllGenetics & Biology SL. Edificio CICA, Campus de Elviña s/n. E-15008 A Coruña, Spain.

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|July 29, 2017
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Summary
This summary is machine-generated.

Increasing PCR cycles in DNA barcoding, even with old specimens, does not significantly increase artificial mutations. This finding supports the common practice for high-throughput DNA barcoding studies.

Keywords:
COIDNA barcodingIlluminacodage à barres de l’ADNlibrairielibrarymutationsnon-proofreading polymerasepolymérase sans activité exonucléase 3′→5′

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Area of Science:

  • Molecular Biology
  • Genomics
  • Evolutionary Biology

Background:

  • High-throughput DNA barcoding is crucial for ecology and evolution research.
  • Increasing PCR cycles is common for low-quality DNA but may introduce mutations.

Purpose of the Study:

  • To investigate the impact of increased PCR cycles on mutation rates in DNA barcoding.
  • To assess the reliability of using elevated PCR cycles with nonproofreading polymerases.

Main Methods:

  • Sequencing of 20 COI libraries using Illumina MiSeq.
  • Preparation of libraries with varying PCR cycles (40-60) from four cephalopod species.
  • Analysis of mutation rates in relation to PCR cycle number.

Main Results:

  • No correlation was found between the number of PCR cycles and artificial mutations.
  • Elevated PCR cycles (up to 60) resulted in a low number of mutations, not impacting DNA barcoding.
  • Mutation rates were low enough not to be an issue for DNA barcoding, but may affect DNA metabarcoding due to chimeras.

Conclusions:

  • Increasing PCR cycles in high-throughput DNA barcoding studies does not negatively affect the occurrence of point mutations.
  • The practice of using more PCR cycles is acceptable for DNA barcoding, especially with limited DNA.
  • Further considerations are needed for DNA metabarcoding applications regarding chimera formation.