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IBBR publication #1212

A mutant Synechococcus gene encoding glutamate 1-semialdehyde aminotransferase confers gabaculine resistance when expressed in tobacco plastids

Bellucci M, De Marchis F, Ferradini N, Pompa A, Veronesi F, Rosellini D

Plant Cell Reports 34: 2127-2136. [ISSN: 0721-7714] (2015)
doi: 10.1007/s00299-015-1856-z

Many plant species are recalcitrant to plastid genome transformation. New selections systems may help to overcome this limitation and to extend the application of this technology. A mutant hemL gene from the photosynthetic cyanobacterium Synechococcus, encoding a gabaculine-insensitive glutamate 1-semialdehyde aminotransferase (GSA), is an efficient selectable marker gene for nuclear transformation of tobacco, alfalfa and durum wheat. Since GSA functions in the plastid, we introduced the mutant hemL gene into the tobacco plastid genome along with the conventional antibiotic resistance aadA gene, in the attempt to develop a new selection system for plastome transformation. Although we were unable to directly regenerate gabaculine resistant transplastomic plants, we demonstrated the functionality of hemL in tobacco plastids by using gabaculine selection in the second and third rounds of in vitro selection that permitted to obtain the homoplasmic state in transgenic plants. Thus, the mutant hemL gene functions as a secondary selection marker in tobacco plastids. Our results encourage further attempts to test gabaculine resistant GSA genes for plastome transformation of crop plants in which gabaculine has stronger regeneration-inhibiting effects with respect to tobacco

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