RNA interference (RNAi) mediates sequence-specific post-transcriptional gene silencing in many eukaryotes and is used for reverse genetic studies and therapeutics. RNAi is triggered by double-stranded small interfering RNAs (siRNAs), which can be processed from small hairpin RNAs generated from an expression vector. In some recently described vectors, the siRNAs are expressed from synthetic stem-loop precursors of microRNAs (miRNAs) driven by polymerase II promoters. We have designed new RNAi vectors, designated pSM155 and pSM30, that take into consideration miRNA processing and RNA splicing by placing the miRNA-based artificial miRNA expression cassettes inside of synthetic introns. Like the original miRNA vectors, we show that the pSM155 and pSM30 constructs efficiently down-regulate expression of firefly luciferase and an endogenous gene, phospholipase D2. Moreover, the expression of a coexpressed fluorescent marker is substantially improved by this new design. Another improvement of these new vectors is incorporation of two inverted BsmBI sites placed internal to the arms of the new miRNA-based vectors, so oligos used for cloning are shorter and the cost is reduced. These RNAi vectors thus provide new tools for gene suppression.