Das Projekt "Potential for transgene flow from wheat to its wild relatives Aegilops sp." wird vom Umweltbundesamt gefördert und von Universite de Neuchatel, Institut de Biologie durchgeführt. Transgenes inserted into crop plants could migrate into the genetic material of closely related wild types and cause undesirable effects - such as the development of resistance to herbicides. Background Goatgrasses (Aegilops) are genetically closely related to wheat and are often found in wheat fields, where they can be very aggressive weeds. If genetically modified wheat - for example a variety resistant to a certain herbicide - was brought onto the market on a large scale, there would be a danger of the modified genes migrating by means of wheat pollen into the genetic material (genome) of goatgrasses, making these weeds resistant to herbicides too. This risk has been demonstrated on many occasions. However, little is known about the actual probability of this gene migration occurring. Objectives The project aims to quantify to which extent the genes of genetically unmodified wheat have already mingled naturally with the genome of goatgrasses growing in the vicinity. The project also aims to assess the extent to which modified genes from transgenic wheat could spread into other, related wild types if they were to cross. Methods Various goat grasses from the Mediterranean region and North America will be investigated using genetic markers to establish how many genes have already migrated from unmodified wheat into the genome of these grasses through foreign pollination. The way these migrated genes are passed on to other related wild species will be investigated by cross-breeding various goatgrasses under both natural and experimental conditions. Significance The frequency with which wheat genes are transferred to closely related wild types and an understanding of the mechanisms by which the transferred genes spread among the wild types are important in assessing the risk associated with the development of marketable transgenic wheat varieties. In addition, the goatgrasses that will be studied are currently native predominantly around the Mediterranean and in North America but are likely to become more common in our country in the future, not least because of their migratory potential and the effects of global warming.
Das Projekt "Genetic and ecological consequences of introgression of transgenic wheat in a wild relative, Aegilops cylindrica: an open field experiment" wird vom Umweltbundesamt gefördert und von Universite de Neuchatel, Institut de Botanique durchgeführt. Establishment of modified genes If genes from genetically modified plants were to be passed on to their wild relatives, there could be serious ecological consequences, particularly if these genes were to become established in the genomes of wild plants. So far, little is known about these processes. Background One possible risk associated with genetically modified crop plants is the propagation of their genes through cross-breeding with closely related species. Scientists are seeking to assess whether resistance could be transferred from crop plants to weeds in this way and subsequently propagated in the weeds. If this was the case, these weeds would also become resistant to diseases or herbicides, an undesirable side effect. Objectives Hybrids of transgenic wheat and a close relative, jointed goatgrass (Aegilops cylindrica), will be grown under greenhouse conditions to generate information on the propagation of modified genes and whether they can become established in the genome of a wild species over several generations. The ecological consequences of this type of gene transfer will be investigated as part of the field trial with transgenic wheat (cf. Keller project I). Methods A first generation of transgenic wheat and jointed goatgrass hybrids will be bred in a greenhouse trial. Subsequent generations will be studied to see how the transgenic sequences from the wheat are passed on in the hybrids and how active they are. In addition, the ecological consequences will be assessed in a field trial. Significance There is already considerable information about the risk of cross-breeding between transgenic crop plants and their wild relatives, but little is known about the ecological consequences. The project closes this gap by investigating how the modified genes from transgenic wheat can be inherited in cross-breeding with goatgrass and whether the resulting plants have new ecological traits such as undesirable resistance.