Resistance to Ditylenchus destructor Infection in Sweet Potato by the Expression of Small Interfering RNAs Targeting unc-15, a Movement-Related Gene.

Stem nematode (Ditylenchus destructor) is one of most serious diseases that limit the productivity and quality of sweet potato (Ipomoea batatas), a root crop with worldwide importance for food security and nutrition improvement. Hence, there is a global demand for developing sweet potato varieties that are resistant to the disease. In this study, we have investigated the interference of stem nematode infectivity by the expression of small interfering RNAs (siRNAs) in transgenic sweet potato that are homologous to the unc-15 gene, which affects the muscle protein paramyosin of the pathogen. The production of double-stranded RNAs and siRNAs in transgenic lines with a single transgene integration event was verified by Northern blot analysis. The expression of unc-15 was reduced dramatically in stem nematodes collected from the inoculated storage roots of transgenic plants, and the infection areas of their storage roots were dramatically smaller than that of wild-type (WT). Compared with the WT, the transgenic plants showed increased yield in the stem nematode-infested field. Our results demonstrate that the expression of siRNAs targeting the unc-15 gene of D. destructor is an effective approach in improving stem nematode resistance in sweet potato, in adjunct with the global integrated pest management programs.

Optimized gene synthesis, expression and purification of active salivary plasminogen activator alpha2 (DSPAalpha2) of Desmodus rotundus in Pichia pastoris.

Vampire bat salivary plasminogen activators (DSPAs) are thrombolytic agents that are under clinical investigation for the treatment of acute ischemic stroke. In this study, the synthetic active salivary plasminogen activator alpha2 (DSPAalpha2) gene optimized for the preferred codons of Pichia pastoris was assembled from 48 oligonucleotides, and cloned into the yeast expression vector pPIC9 with a strong enhancer from human cytomegalovirus (HCMV). This system achieved high expression of an active DSPAalpha2 in P. pastoris yeast GS115. Secreted active DSPAalpha2 recombinant protein was purified from broth supernatant by a simple one-step procedure on Sephadex chromatography and was confirmed by SDS-PAGE and Western blot analysis. ELISA showed that 2.5mg of recombinant protein could be obtained from 100-ml culture broth supernatant. The fibrinolytic activity of the recombinant DSPAalpha2 was 1.28 x 10(5)IU/mg.