Applications in Plant Sciences (Apr 2013)

Application of Proteomics to the Study of Pollination Drops

  • Natalie Prior,
  • Stefan A. Little,
  • Cary Pirone,
  • Julia E. Gill,
  • Derek Smith,
  • Jun Han,
  • Darryl Hardie,
  • Stephen J. B. O'Leary,
  • Rebecca E. Wagner,
  • Tyra Cross,
  • Andrea Coulter,
  • Christoph Borchers,
  • Robert W. Olafson,
  • Patrick von Aderkas

DOI
https://doi.org/10.3732/apps.1300008
Journal volume & issue
Vol. 1, no. 4
p. 1300008

Abstract

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Premise of the study: Pollination drops are a formative component in gymnosperm pollen-ovule interactions. Proteomics offers a direct method for the discovery of proteins associated with this early stage of sexual reproduction. Methods: Pollination drops were sampled from eight gymnosperm species: Chamaecyparis lawsoniana (Port Orford cedar), Ephedra monosperma, Ginkgo biloba, Juniperus oxycedrus (prickly juniper), Larix ×marschlinsii, Pseudotsuga menziesii (Douglas-fir), Taxus ×media, and Welwitschia mirabilis. Drops were collected by micropipette using techniques focused on preventing sample contamination. Drop proteins were separated using both gel and gel-free methods. Tandem mass spectrometric methods were used including a triple quadrupole and an Orbitrap. Results: Proteins are present in all pollination drops. Consistency in the protein complement over time was shown in L. ×marschlinsii. Representative mass spectra from W. mirabilis chitinase peptide and E. monosperma serine carboxypeptidase peptide demonstrated high quality results. We provide a summary of gymnosperm pollination drop proteins that have been discovered to date via proteomics. Discussion: Using proteomic methods, a dozen classes of proteins have been identified to date. Proteomics presents a way forward in deepening our understanding of the biological function of pollination drops.

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