Isolation and Characterization of Medicago truncatula U6 Promoters for the Construction of Small Hairpin RNA-Mediated Gene Silencing Vectors

Abstract

RNA silencing using vector-based double-stranded RNA is an attractive strategy to suppress gene expression in plants. Especially, a short hairpin RNA (shRNA)-mediated approach is potent for specific target gene silencing. Here, shRNA expression vectors were constructed based on U6 small nuclear RNA (snRNA) gene promoters in Medicago truncatula. Ten U6 snRNA gene loci identified showed highly homologous sequences with those of other eukaryotes. Their RNA polymerase III-specific promoters had a conserved upstream sequence element and TATA box that were located approximately three helical DNA turns apart. The U6 promoters were also insensitive to α-amanitin, actively guiding transcription of fused GUS reporter gene fragments. When the U6 fusion constructs were introduced into M. truncatula via Agrobacterium rhizogenes-mediated transformation, GUS fragment transcripts were detected in nearly every transformed root albeit in varying amounts. Consistently, under the control of U6 promoters, constructs of 21-nucleotide-stem shRNAs directed silencing of GUS expression in transformed roots. Moreover, a phytoene desaturase gene (MtPDS3)-targeting 27-nucleotide-stem U6-shRNA constructs, when introduced into hairy roots, decreased the MtPDS3 transcript levels by approximately 80 % as a result of endogenous gene silencing, as verified by the presence of shPDS-derived siRNAs detected by stem-loop PCR. The U6 promoter-directed shRNA expression plasmids constructed herein can be a useful tool for functional gene analyses in this model legume.