Genetics. Published Articles Ahead of Print: September 9, 2008, Copyright © 2008
doi:10.1534/genetics.108.092809


A more recent version of this article appeared on October 1, 2008.

REGULAR RESEARCH PAPERS

Impact of transgene inheritance on the mitigation of gene flow between crops and their wild relatives: the example of foxtail millet

Yunsu Shi 1, Tianyu Wang 1, Yu Li 1 and Henri Darmency 2*

1 CAAS
2 INRA

* To whom correspondence should be addressed. E-mail: darmency{at}dijon.inra.fr.

Submitted on June 18, 2008
Revised on July 21, 2008
Accepted on 21 July 2008


Abstract

Developing genetically modified crop plants that are biologically contained could reduce significantly the potential spread of transgenes to conventional and organic crop plants and to wild or weedy relatives. Among several strategies, the hereditary mode of transmission of transgenes, whether dominant, recessive or maternal, could play a major role in interspecific gene flow. Here we report on the gene flow between foxtail millet (Setaria italica), an autogamous crop, and its weedy relative S. viridis growing within or beside fields containing the three kinds of inherited herbicide-resistances. Over the six-year study, in the absence of herbicide selection, the maternal chloroplast inherited resistance was observed at a 2 10-6 frequency in the weed populations. Resistant weed plants were observed 60 times as often, at 1.2 10-4 in the case of the nuclear recessive resistance, and 190 times as often, at 3.9 10-4 in the case of the dominant resistance. Because the recessive gene was not expressed in the first generation hybrids, it should be more effective than dominant genes to reduce gene flow in usual agricultural conditions where herbicides are sprayed because interspecific hybrids cannot gain from beneficial genes.

Key Words: Gene flow, Gene inheritance, Interspecific cross, Millet, herbicide-resistance