Altering Arabidopsis Oilseed Composition by a Combined. Antisense-Hairpin RNAi Gene Suppression Approach Print
Written by Tam Nguyen   
Friday, 06 February 2009 05:00

Tam Nguyen1 and John Shanklin1

(1) Department of Biology, Brookhaven National Laboratory, Upton, NY 11973, USA

Received: 16 September 2008  Revised: 29 September 2008  Accepted: 3 November 2008  Published online: 5 December 2008

Abstract Antisense (AS) and hairpin (HP) RNA interference (RNAi) targeted gene suppression technologies have been used to modify seed oil composition. Larger numbers of AS transgenics have to be screened to achieve a targeted level of suppression compared to RNAi. We hypothesized combining AS with RNAi might result in enhanced gene suppression compared to either method individually. AS and HP-RNAi were combined as hairpin antisense (HPAS) constructs containing ~125 bp sense and antisense portions of an untranslated region of the target gene separated by an intron containing an antisense copy of a portion of the target coding region. The ?12-desaturase FAD2, the ?3-desaturase FAD3 and ?-ketoacyl-ACP synthase (KAS) II were targeted in Arabidopsis to evaluate changes in oil composition with AS, HP and HPAS constructs driven by the phaseolin promoter. Modest but statistically significant enhancements in oilseed phenotypes were observed with HPAS relative to AS and HP-RNAi. Phenotypes for HPAS suppression of FAD2 and FAD3 were indistinguishable from their strongest mutant alleles. Our data suggest that HPAS may be useful for: (1) achieving levels of suppression comparable to those of gene knockouts in a tissue specific manner. (2) Maximizing suppression of suboptimal RNAi constructs and (3) minimizing the screening of transgenics to achieve desired oilseed composition.

http://www.springerlink.com/content/a405g8p857885000/fulltext.html

Last Updated on Tuesday, 19 October 2010 16:48