Plants (Jul 2019)

Phytolith Formation in Plants: From Soil to Cell

  • Muhammad Amjad Nawaz,
  • Alexander Mikhailovich Zakharenko,
  • Ivan Vladimirovich Zemchenko,
  • Muhammad Sajjad Haider,
  • Muhammad Amjad Ali,
  • Muhammad Imtiaz,
  • Gyuhwa Chung,
  • Aristides Tsatsakis,
  • Sangmi Sun,
  • Kirill Sergeyevich Golokhvast

DOI
https://doi.org/10.3390/plants8080249
Journal volume & issue
Vol. 8, no. 8
p. 249

Abstract

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Silica is deposited extra- and intracellularly in plants in solid form, as phytoliths. Phytoliths have emerged as accepted taxonomic tools and proxies for reconstructing ancient flora, agricultural economies, environment, and climate. The discovery of silicon transporter genes has aided in the understanding of the mechanism of silicon transport and deposition within the plant body and reconstructing plant phylogeny that is based on the ability of plants to accumulate silica. However, a precise understanding of the process of silica deposition and the formation of phytoliths is still an enigma and the information regarding the proteins that are involved in plant biosilicification is still scarce. With the observation of various shapes and morphologies of phytoliths, it is essential to understand which factors control this mechanism. During the last two decades, significant research has been done in this regard and silicon research has expanded as an Earth-life science superdiscipline. We review and integrate the recent knowledge and concepts on the uptake and transport of silica and its deposition as phytoliths in plants. We also discuss how different factors define the shape, size, and chemistry of the phytoliths and how biosilicification evolved in plants. The role of channel-type and efflux silicon transporters, proline-rich proteins, and siliplant1 protein in transport and deposition of silica is presented. The role of phytoliths against biotic and abiotic stress, as mechanical barriers, and their use as taxonomic tools and proxies, is highlighted.

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