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Originally published as Genetics Published Articles Ahead of Print on October 8, 2006.
Genetics, Vol. 174, 2061-2070, December 2006, Copyright © 2006
doi:10.1534/genetics.106.058529
Molecular Analysis, Cytogenetics and Fertility of Introgression Lines From Transgenic Wheat to Aegilops cylindrica Host
Nicola Schoenenberger1, Roberto Guadagnuolo, Dessislava Savova-Bianchi, Philippe Küpfer and François Felber
Laboratoire de Botanique Evolutive, Institut de Botanique, Université de Neuchâtel, 2007 Neuchâtel, Switzerland
1 Corresponding author: Laboratoire de Botanique Evolutive, Université de Neuchâtel, Emile-Argand 11, 2007 Neuchâtel, Switzerland.
E-mail: nicola.schoenenberger{at}unine.ch
Natural hybridization and backcrossing between Aegilops cylindrica and Triticum aestivum can lead to introgression of wheat DNA into the wild species. Hybrids between Ae. cylindrica and wheat lines bearing herbicide resistance (bar), reporter (gus), fungal disease resistance (kp4), and increased insect tolerance (gna) transgenes were produced by pollination of emasculated Ae. cylindrica plants. F1 hybrids were backcrossed to Ae. cylindrica under open-pollination conditions, and first backcrosses were selfed using pollen bags. Female fertility of F1 ranged from 0.03 to 0.6%. Eighteen percent of the sown BC1s germinated and flowered. Chromosome numbers ranged from 30 to 84 and several of the plants bore wheat-specific sequence-characterized amplified regions (SCARs) and the bar gene. Self fertility in two BC1 plants was 0.16 and 5.21%, and the others were completely self-sterile. Among 19 BC1S1 individuals one plant was transgenic, had 43 chromosomes, contained the bar gene, and survived glufosinate treatments. The other BC1S1 plants had between 28 and 31 chromosomes, and several of them carried SCARs specific to wheat A and D genomes. Fertility of these plants was higher under open-pollination conditions than by selfing and did not necessarily correlate with even or euploid chromosome number. Some individuals having supernumerary wheat chromosomes recovered full fertility.