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United States Department of Agriculture

Agricultural Research Service

Research Project: GENETIC IMPROVEMENT OF FRUIT CROPS THROUGH FUNCTIONAL GENOMICS AND BREEDING Title: Two similar but distinct second intron fragments from tobacco AGAMOUS homologs confer identical floral organ-specific expression sufficient for generating complete sterility in plants

Authors
item Yang, Yazhou -
item Singer, Stacy -
item Liu, Zongrang

Submitted to: Planta
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: February 3, 2010
Publication Date: February 25, 2010
Repository URL: http://www.springerlink.com/content/1u403m74x0645342/fulltext.html
Citation: Yang, Y., Singer, S., Liu, Z. 2010. Two similar but distinct second intron fragments from tobacco AGAMOUS homologs confer identical floral organ-specific expression sufficient for generating complete sterility in plants. Planta. 231:1159-1169.

Interpretive Summary: One risk of genetically engineered crops is movement of exotic genes into the gene pool of the crop or other plant species. One approach to controlling unwanted gene flow is to engineer plants that have flower specific promoters for sterility. We evaluated two flower specific gene promoters and found both capable of inducing male and female floral organ sterility without interfering with gene expression in other organs of the plant. This work provides a stable and useful means of gene flow containment in genetically engineered plants.

Technical Abstract: The carpel- and stamen-specific AtAGIP promoter derived from the Arabidopsis AGAMOUS (AG) second intron/enhancer is ideal for engineering complete sterility, but it is highly host-specific. To ascertain that a chimeric promoter with similar tissue specificity can be created for species other than Arabidopsis, we isolated two similar but distinct AG second intron/enhancers from tobacco (NtAGI-1 and NtAGI-2) and analyzed their ability to drive floral organ-specific expression in plants through the creation of forward- and reverse-oriented chimeric promoters, fNtAGIP1, rNtAGIP1, fNtAGIP2 and rNtAGIP2. Transgenic analyses confirmed that all four promoters, like the AtAGIP, drive carpel- and stamen-specific expression without any leaky activity in vegetative tissues as demonstrated by tissue-specific GUS expression and cytotoxic gene (DT-A)-mediated tissue ablation. Unlike the AtAGIP, both tobacco enhancers displayed additional weak petal- and sepal-specific activity as revealed by partially retarded petals and sepals in ablated flowers. Unexpectedly, the activity of the promoters is influenced by the orientation of the incorporated enhancers with reverse-oriented enhancers exhibiting approximately double the effectiveness of forward-oriented enhancers; a phenomenon which has not been observed for the AtAGIP promoter. Our results suggest that the tissue-specificity of the tobacco AGI enhancers is evolutionarily conserved and has not diverged between the two enhancers, as is the case in rice and maize. Furthermore, we show that the NtAGI-derived promoters are effective for engineering complete sterility and that the resulting trait is mitotically stable, which is critical for the long-term containment of seed-, pollen- and fruit-mediated gene flow in field conditions.

Last Modified: 10/21/2014
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