Plants (Oct 2017)

In Situ Dark Adaptation Enhances the Efficiency of DNA Extraction from Mature Pin Oak (Quercus palustris) Leaves, Facilitating the Identification of Partial Sequences of the 18S rRNA and Isoprene Synthase (IspS) Genes

  • Csengele E. Barta,
  • Bethany Bolander,
  • Steven R. Bilby,
  • Jeremy H. Brown,
  • Reid N. Brown,
  • Alexander M. Duryee,
  • Danielle R. Edelman,
  • Christina E. Gray,
  • Chandler Gossett,
  • Amie G. Haddock,
  • Mackenzie M. Helsel,
  • Alyssa D. Jones,
  • Marissa E. Klingseis,
  • Kalif Leslie,
  • Edward W. Miles,
  • Rachael A. Prawitz

DOI
https://doi.org/10.3390/plants6040052
Journal volume & issue
Vol. 6, no. 4
p. 52

Abstract

Read online

Mature oak (Quercus spp.) leaves, although abundantly available during the plants’ developmental cycle, are rarely exploited as viable sources of genomic DNA. These leaves are rich in metabolites difficult to remove during standard DNA purification, interfering with downstream molecular genetics applications. The current work assessed whether in situ dark adaptation, to deplete sugar reserves and inhibit secondary metabolite synthesis could compensate for the difficulties encountered when isolating DNA from mature leaves rich in secondary metabolites. We optimized a rapid, commercial kit based method to extract genomic DNA from dark- and light-adapted leaves. We demonstrated that in situ dark adaptation increases the yield and quality of genomic DNA obtained from mature oak leaves, yielding templates of sufficiently high quality for direct downstream applications, such as PCR amplification and gene identification. The quality of templates isolated from dark-adapted pin oak leaves particularly improved the amplification of larger fragments in our experiments. From DNA extracts prepared with our optimized method, we identified for the first time partial segments of the genes encoding 18S rRNA and isoprene synthase (IspS) from pin oak (Quercus palustris), whose full genome has not yet been sequenced.

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