TY - JOUR
T1 - Siliplant1 protein precipitates silica in sorghum silica cells
AU - Kumar, Santosh
AU - Adiram-Filiba, Nurit
AU - Blum, Shula
AU - Sanchez-Lopez, Javier Arturo
AU - Tzfadia, Oren
AU - Omid, Ayelet
AU - Volpin, Hanne
AU - Heifetz, Yael
AU - Goobes, Gil
AU - Elbaum, Rivka
N1 - FTX;
© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: [email protected].
PY - 2020
Y1 - 2020
N2 - Silicon is absorbed by plant roots as silicic acid. The acid moves with the transpiration stream to the shoot, and mineralizes as silica. In grasses, leaf epidermal cells called silica cells deposit silica in most of their volume using an unknown biological factor. Using bioinformatics tools, we identified a previously uncharacterized protein in Sorghum bicolor, which we named Siliplant1 (Slp1). Slp1 is a basic protein with seven repeat units rich in proline, lysine, and glutamic acid. We found Slp1 RNA in sorghum immature leaf and immature inflorescence. In leaves, transcription was highest just before the active silicification zone (ASZ). There, Slp1 was localized specifically to developing silica cells, packed inside vesicles and scattered throughout the cytoplasm or near the cell boundary. These vesicles fused with the membrane, releasing their content in the apoplastic space. A short peptide that is repeated five times in Slp1 precipitated silica in vitro at a biologically relevant silicic acid concentration. Transient overexpression of Slp1 in sorghum resulted in ectopic silica deposition in all leaf epidermal cell types. Our results show that Slp1 precipitates silica in sorghum silica cells.
AB - Silicon is absorbed by plant roots as silicic acid. The acid moves with the transpiration stream to the shoot, and mineralizes as silica. In grasses, leaf epidermal cells called silica cells deposit silica in most of their volume using an unknown biological factor. Using bioinformatics tools, we identified a previously uncharacterized protein in Sorghum bicolor, which we named Siliplant1 (Slp1). Slp1 is a basic protein with seven repeat units rich in proline, lysine, and glutamic acid. We found Slp1 RNA in sorghum immature leaf and immature inflorescence. In leaves, transcription was highest just before the active silicification zone (ASZ). There, Slp1 was localized specifically to developing silica cells, packed inside vesicles and scattered throughout the cytoplasm or near the cell boundary. These vesicles fused with the membrane, releasing their content in the apoplastic space. A short peptide that is repeated five times in Slp1 precipitated silica in vitro at a biologically relevant silicic acid concentration. Transient overexpression of Slp1 in sorghum resulted in ectopic silica deposition in all leaf epidermal cell types. Our results show that Slp1 precipitates silica in sorghum silica cells.
KW - Plant Leaves
KW - Plant Roots
KW - Silicon
KW - Silicon Dioxide
KW - Sorghum/genetics
U2 - 10.1093/jxb/eraa258
DO - 10.1093/jxb/eraa258
M3 - A1: Web of Science-article
C2 - 32485738
SN - 0022-0957
VL - 71
SP - 6830
EP - 6843
JO - Journal of Experimental Botany
JF - Journal of Experimental Botany
IS - 21
ER -