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A Glycine-Rich Protein Encoded by Sulfur-Deficiency Induced Gene is Involved in the Regulation of Callose Level and Root Elongation.

Znój, Anna and Zientara-Rytter, Katarzyna and Sęktas, Paweł and Moniuszko, Grzegorz and Sirko, Agnieszka and Wawrzyńska, Anna (2017) A Glycine-Rich Protein Encoded by Sulfur-Deficiency Induced Gene is Involved in the Regulation of Callose Level and Root Elongation. In: Sulfur Metabolism in Higher Plants - Fundamental, Environmental and Agricultural Aspects. Springer, pp. 207-213.

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Official URL: https://link.springer.com/book/10.1007/978-3-319-5...

Abstract

Glycine-rich proteins (GRPs) with characteristic repetitive glycine stretches are ubiquitous in organisms of all Kingdoms and have distinct functions. It is believed that Gly-rich domains serve mainly for interactions with other proteins. Previously, we identified the tobacco UP30 gene as strongly upregulated by sulfur deficiency. It encodes a protein highly similar to cdiGRP involved in tobacco defense response by elevating cell wall callose deposits thus blocking systemic movement of viruses. The closest Arabidopsis thaliana homologue of UP30 is GRP-3 (At2g05520). Here we report that GRP-3 is induced in Arabidopsis seedlings in both sulfur and nitrogen deficiency conditions. The transgenic Arabidopsis plants either overexpressing or with silenced GRP-3 expression tend to have longer roots especially in the conditions of sulfur deficiency. The effect could be reduced by the addition of auxin to the media. Moreover, we observed the increased callose deposition in both Arabidopsis lines suggesting its negative effects on shoot-to-root movement of auxins in nutrient deficient conditions.

Item Type:Book Section
Subjects:Q Science > Q Science (General)
Divisions:Department of Plant Biochemistry
ID Code:1361
Deposited By: Dr AK Wawrzyńska
Deposited On:24 Jul 2017 08:20
Last Modified:24 Jul 2017 08:20

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