Rice DEP1, encoding a highly cysteine-rich G protein [gamma] subunit, confers cadmium tolerance on yeast cells and plants

Rice DEP1, encoding a highly cysteine-rich G protein [gamma] subunit, confers cadmium tolerance on yeast cells and plants

A rice cDNA, OsDEP1, encoding a highly cysteine (Cys)-rich G protein gamma subunit, was initially identified as it conferred cadmium (Cd) tolerance on yeast cells. Of the 426 aa constituting OsDEP1, 120 are Cys residues (28.2%), of which 88 are clustered in the C-terminal half region (aa 170-426). T...

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Veröffentlicht in:Journal of experimental botany 2013-11, Vol.64 (14), p.4517-4527
Hauptverfasser: Kunihiro, Shuta, Saito, Tatsuhiko, Matsuda, Taiki, Inoue, Masataka, Kuramata, Masato, Taguchi-Shiobara, Fumio, Youssefian, Shohab, Berberich, Thomas, Kusano, Tomonobu
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Arabidopsis
Oryza sativa
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container_end_page 4527
container_issue 14
container_start_page 4517
container_title Journal of experimental botany
container_volume 64
creator Kunihiro, Shuta
Saito, Tatsuhiko
Matsuda, Taiki
Inoue, Masataka
Kuramata, Masato
Taguchi-Shiobara, Fumio
Youssefian, Shohab
Berberich, Thomas
Kusano, Tomonobu
description A rice cDNA, OsDEP1, encoding a highly cysteine (Cys)-rich G protein gamma subunit, was initially identified as it conferred cadmium (Cd) tolerance on yeast cells. Of the 426 aa constituting OsDEP1, 120 are Cys residues (28.2%), of which 88 are clustered in the C-terminal half region (aa 170-426). To evaluate the independent effects of these two regions, two truncated versions of the OsDEP1-expressing plasmids pOsDEP1(1-169) and pOsDEP1(170-426) were used to examine their effects on yeast Cd tolerance. Although OsDEP1(170-426) conferred a similar level of Cd tolerance as the intact OsDEP1, OsDEP1(1-169) provided no such tolerance, indicating that the tolerance effect is localized to the aa 170-426 C-terminal peptide region. The Cd responses of transgenic Arabidopsis plants constitutively expressing OsDEP1, OsDEP1(1-169) or OsDEP1(170-426), were similar to the observations in yeast cells, with OsDEP1 and OsDEP1(170-426) transgenic plants displaying Cd tolerance but OsDEP1(1-169) plants showing no such tolerance. In addition, a positive correlation between the transcript levels of OsDEP1 or OsDEP1(170-426) in the transgenics and the Cd content of these plants upon Cd application was observed. As several Arabidopsis loss-of-function heterotrimeric G protein beta and gamma subunit gene mutants did not show differences in their Cd sensitivity compared with wild-type plants, we propose that the Cys-rich region of OsDEP1 may function directly as a trap for Cd ions.
doi_str_mv 10.1093/jxb/ert267
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Of the 426 aa constituting OsDEP1, 120 are Cys residues (28.2%), of which 88 are clustered in the C-terminal half region (aa 170-426). To evaluate the independent effects of these two regions, two truncated versions of the OsDEP1-expressing plasmids pOsDEP1(1-169) and pOsDEP1(170-426) were used to examine their effects on yeast Cd tolerance. Although OsDEP1(170-426) conferred a similar level of Cd tolerance as the intact OsDEP1, OsDEP1(1-169) provided no such tolerance, indicating that the tolerance effect is localized to the aa 170-426 C-terminal peptide region. The Cd responses of transgenic Arabidopsis plants constitutively expressing OsDEP1, OsDEP1(1-169) or OsDEP1(170-426), were similar to the observations in yeast cells, with OsDEP1 and OsDEP1(170-426) transgenic plants displaying Cd tolerance but OsDEP1(1-169) plants showing no such tolerance. 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In addition, a positive correlation between the transcript levels of OsDEP1 or OsDEP1(170-426) in the transgenics and the Cd content of these plants upon Cd application was observed. As several Arabidopsis loss-of-function heterotrimeric G protein beta and gamma subunit gene mutants did not show differences in their Cd sensitivity compared with wild-type plants, we propose that the Cys-rich region of OsDEP1 may function directly as a trap for Cd ions.</abstract><doi>10.1093/jxb/ert267</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects Arabidopsis
Oryza sativa
title Rice DEP1, encoding a highly cysteine-rich G protein [gamma] subunit, confers cadmium tolerance on yeast cells and plants
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