Anhydrous beta-guanine crystals in a marine dinoflagellate: Structure and suggested function

Anne Jantschke, Iddo Pinkas, Anna Hirsch, Nadav Elad, Andreas Schertel, Lia Addadi, Steve Weiner

Research output: Contribution to journalArticlepeer-review

33 Citations (Scopus)

Abstract

Guanine crystals are used by certain animals, including vertebrates, to produce structural colors or to enhance vision, because of their distinctive reflective properties. Here we use cryo-SEM, cryo-FIB SEM and Raman spectroscopic imaging to characterize crystalline inclusions in a single celled photosynthesizing marine dinoflagellate species. We demonstrate spectroscopically that these inclusions are blocky crystals of anhydrous guanine in the beta-polymorph. Two-dimensional cryo-SEM and three-dimensional cryo-FIB-SEM serial block face imaging show that the deposits of anhydrous guanine crystals are closely associated with the chloroplasts. We suggest that the crystalline deposits scatter light either to enhance light exploitation by the chloroplasts, or possibly for protection from UV radiation. This is consistent with the crystal locations within the cell, their shapes and their sizes. As the dinoflagellates are extremely abundant in the oceans and are a major group of photosynthesizing marine organisms, the presence of guanine crystals in this marine organism may have broad significance.

Original languageEnglish
Pages (from-to)12-20
Number of pages9
JournalJournal of Structural Biology
Volume207
Issue number1
DOIs
Publication statusPublished - 1 Jul 2019

Funding

We thank Eyal Shimoni and Ifat Kaplan-Ashiri (Weizmann Institute of Science) for help with cryo-SEM and EDS measurements. The kind help of Barbara Melkonian (CCAC) with the provision and cultivation of the dinoflagellates is highly appreciated. Haim Weissman is gratefully acknowledged for technical assistance with the fluorescence spectrophotometer. Matthias Finger provided the SpectralImaging software and was a great help analyzing the Raman data. We thank Dr. Saskia Mimietz-Oeckler and Andreas Halladay, Leica Microsystems for support. This research was supported by Israel Science Foundation (grant 583/17). AJ was supported by a DFG postdoctoral fellowship (JA 2659/1). Electron microscopy studies were supported by the Irving and Cherna Moskowitz Center for Nano and Bio-Nano Imaging at the Weizmann Institute of Science. LA is the incumbent of the Dorothy and Patrick Gorman Professorial Chair of Biological Ultrastructure.

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