Selectable markers help the transformed cell/tissue to survive in an otherwise lethal exposure of an antibiotic or herbicide. Unfortunately, almost all the traditional selectable markers are antibiotic and herbicide resistance genes, which are controversial on human health concerns and environmental impact. Novel plant-derived, non-antibiotic, and non-herbicide selectable markers are urgently needed in plant transformation. Our previous work showed that the seedlings of overexpression Arabidopsis lines of AtGASA6 survived on medium with a high concentration of sugar, which leads to the hypothesis that AtGASA6 could be a selectable marker on media with high or low sugar content. In this study, leaf explants of AtGASA6 overexpression tobacco lines regenerated shoots on sugar-free shooting medium while those of wild type could not. Moreover, the seeds of AtGASA6 overexpression tobacco lines germinated and grew into normal seedlings on sugar-free MS medium while those of WT could not. Attractively, no developmental defects were observed in AtGASA6 transgenic progenies. Using AtGASA6 as a selectable marker, overexpression tobacco lines of GAI, which restrains plant size, were created on sugar-free media. The GAI overexpression lines had a smaller plant size than that of control. Considering its plant-derived and non-antibiotic nature, GASA6 is promising to be used as a selectable marker in plant transformation.
Selectable markers help the transformed cell/tissue to survive in an otherwise lethal exposure of an antibiotic or herbicide. Unfortunately, almost all the traditional selectable markers are antibiotic and herbicide resistance genes, which are controversial on human health concerns and environmental impact. Novel plant-derived, non-antibiotic, and non-herbicide selectable markers are urgently needed in plant transformation. Our previous work showed that the seedlings of overexpression Arabidopsis lines of AtGASA6 survived on medium with a high concentration of sugar, which leads to the hypothesis that AtGASA6 could be a selectable marker on media with high or low sugar content. In this study, leaf explants of AtGASA6 overexpression tobacco lines regenerated shoots on sugar-free shooting medium while those of wild type could not. Moreover, the seeds of AtGASA6 overexpression tobacco lines germinated and grew into normal seedlings on sugar-free MS medium while those of WT could not. Attractively, no developmental defects were observed in AtGASA6 transgenic progenies. Using AtGASA6 as a selectable marker, overexpression tobacco lines of GAI, which restrains plant size, were created on sugar-free media. The GAI overexpression lines had a smaller plant size than that of control. Considering its plant-derived and non-antibiotic nature, GASA6 is promising to be used as a selectable marker in plant transformation.
Selectable markers help the transformed cell/tissue to survive in an otherwise lethal exposure of an antibiotic or herbicide. Unfortunately, almost all the traditional selectable markers are antibiotic and herbicide resistance genes, which are controversial on human health concerns and environmental impact. Novel plant-derived, non-antibiotic, and non-herbicide selectable markers are urgently needed in plant transformation. Our previous work showed that the seedlings of overexpression Arabidopsis lines of AtGASA6 survived on medium with a high concentration of sugar, which leads to the hypothesis that AtGASA6 could be a selectable marker on media with high or low sugar content. In this study, leaf explants of AtGASA6 overexpression tobacco lines regenerated shoots on sugar-free shooting medium while those of wild type could not. Moreover, the seeds of AtGASA6 overexpression tobacco lines germinated and grew into normal seedlings on sugar-free MS medium while those of WT could not. Attractively, no developmental defects were observed in AtGASA6 transgenic progenies. Using AtGASA6 as a selectable marker, overexpression tobacco lines of GAI , which restrains plant size, were created on sugar-free media. The GAI overexpression lines had a smaller plant size than that of control. Considering its plant-derived and non-antibiotic nature, GASA6 is promising to be used as a selectable marker in plant transformation.
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