Arabidopsis Qc-SNARE gene AtSFT12 is involved in salt and osmotic stress responses and Na super(+) accumulation in vacuoles

Key message : AtSFT12, an Arabidopsis Qc-SNARE protein, is localized to Golgi organelles and is involved in salt and osmotic stress responses via accumulation of Na super( + ) in vacuoles. Abstract: To reduce the detrimental effects of environmental stresses, plants have evolved many defense mechani...

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Veröffentlicht in:	Plant cell reports 2015-07, Vol.34 (7), p.1127-1138
Hauptverfasser:	Tarte, Vaishali N, Seok, Hye-Yeon, Woo, Dong-Hyuk, Le, Dinh Huan, Tran, Huong T, Baik, Ji-Won, Kang, In Soon, Lee, Sun-Young, Chung, Taijoon, Moon, Yong-Hwan
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container_title	Plant cell reports
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creator	Tarte, Vaishali N Seok, Hye-Yeon Woo, Dong-Hyuk Le, Dinh Huan Tran, Huong T Baik, Ji-Won Kang, In Soon Lee, Sun-Young Chung, Taijoon Moon, Yong-Hwan
description	Key message : AtSFT12, an Arabidopsis Qc-SNARE protein, is localized to Golgi organelles and is involved in salt and osmotic stress responses via accumulation of Na super( + ) in vacuoles. Abstract: To reduce the detrimental effects of environmental stresses, plants have evolved many defense mechanisms. Here, we identified an Arabidopsis Qc-SNARE gene, AtSFT12, involved in salt and osmotic stress responses using an activation-tagging method. Both activation-tagged plants and overexpressing transgenic plants (OXs) of the AtSFT12 gene were tolerant to high concentrations of NaCl, LiCl, and mannitol, whereas loss-of-function mutants were sensitive to NaCl, LiCl, and mannitol. AtSFT12 transcription increased under NaCl, ABA, cold, and mannitol stresses but not MV treatment. GFP-fusion AtSFT12 protein was juxtaposed with Golgi marker, implying that its function is associated with Golgi-mediated transport. Quantitative measurement of Na super(+) using induced coupled plasma atomic emission spectroscopy revealed that AtSFT12 OXs accumulated significantly more Na super(+) than WT plants. In addition, Na super(+)-dependent fluorescence analysis of Sodium Green showed comparatively higher Na super(+) accumulation in vacuoles of AtSFT12 OX cells than in those of WT plant cells after salt treatments. Taken together, our findings suggest that AtSTF12, a Golgi Qc-SNARE protein, plays an important role in salt and osmotic stress responses and functions in the salt stress response via sequestration of Na super(+) in vacuoles.
doi_str_mv	10.1007/s00299-015-1771-3
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In addition, Na super(+)-dependent fluorescence analysis of Sodium Green showed comparatively higher Na super(+) accumulation in vacuoles of AtSFT12 OX cells than in those of WT plant cells after salt treatments. 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In addition, Na super(+)-dependent fluorescence analysis of Sodium Green showed comparatively higher Na super(+) accumulation in vacuoles of AtSFT12 OX cells than in those of WT plant cells after salt treatments. Taken together, our findings suggest that AtSTF12, a Golgi Qc-SNARE protein, plays an important role in salt and osmotic stress responses and functions in the salt stress response via sequestration of Na super(+) in vacuoles.</abstract><doi>10.1007/s00299-015-1771-3</doi></addata></record>
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title	Arabidopsis Qc-SNARE gene AtSFT12 is involved in salt and osmotic stress responses and Na super(+) accumulation in vacuoles
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