Timing of Transposition of Ac Mobile Element in Potato

The timing of excision of maize transposable element Ac was studied using visual histochemical assay based on Ac excision restoring activity of -glucuronidase (GUS). The Solanum tuberosum L. cv. Bintje was used for Agrobacterium-mediated transformation with pTT230 plasmid harbouring Ac-interrupted gus A gene and npt II gene as a selectable marker gene. Twenty-eight out of 72 kanamycin resistant calli did not express any GUS activity, 31 calli showed partial GUS expression and 13 out of assayed calli revealed strong expression of gus A gene. Plants were regenerated from calli without and/or with partial expression of gus A gene. The regenerated transformants which did not express GUS during the callus phase often contained many small GUS expressing spots on leaves. A phenotypic selection assay for excision of Ac has been also used. This non-detectable excision of Ac in callus tissue could be followed by a "late" timing excision during leaf development. After transformation with pTT224 plasmid harbouring Ac-interrupted hpt II gene and npt II gene transgenic calli containing Ac within the hygromycin resistance gene were derived and hygromycin sensitive plants were regenerated from them. Protoplasts isolated from leaves of transgenic regenerated plants were selected on hygromycin. Hygromycin resistant minicalli showed to harbour multiple copies of Ac and mark out low uniqueness of integration sites.