We have developed a system for stable germline transformation in the silkworm Bombyx mori L. using piggyBac, a transposon discovered in the lepidopteran Trichoplusia ni. The transformation constructs consist of the piggyBac inverted terminal repeats flanking a fusion of the B. mori cytoplasmic actin gene BmA3 promoter and the green fluorescent protein (GFP). A nonautonomous helper plasmid encodes the piggyBac transposase. The reporter gene construct was coinjected into preblastoderm eggs of two strains of B. mori. Approximately 2% of the individuals in the G1 broods expressed GFP. DNA analyses of GFP-positive G1 silkworms revealed that multiple independent insertions occurred frequently. The transgene was stably transferred to the next generation through normal Mendelian inheritance. The presence of the inverted terminal repeats of piggyBac and the characteristic TTAA sequence at the borders of all the analyzed inserts confirmed that transformation resulted from precise transposition events. This efficient method of stable gene transfer in a lepidopteran insect opens the way for promising basic research and biotechnological applications.
The combination of micro-Raman spectroscopy and an advanced universal fibre tester (UFT) made it possible to probe at the nanoscale (through monitoring the modification of chemical bonds) the change in conformation (a-helix, b-sheet, etc.), macromolecular fibroin chain orientation and coupling during the application of stress, quantitatively. Different single fibres of silkworms (Bombyx mori, Gonometa rufobrunea, Gonometa postica) and a spider (Nephila madagascariensis) were tested in a dry environment and compared with the behaviour of keratin fibre. As observed previously for single keratin fibres, a direct relationship is observed between nano-and micro-mechanical tensile behaviour. The phase transition plateau, well defined for some pristine B. mori fibres, disappears in degummed fibres, which indicates a structural modification and increasing disorder with chemical treatments. Stress-controlled micro-Raman analysis shows that a few modes involving CH 2 and/or amide groups of b-conformation chains undergo a wavenumber softening during the elastic behaviour (∼0-3%), although most of the modes are not affected. A different behaviour is observed for modes associated with 'ordered' and 'disordered' b-sheets and helical chains. Larger softening is observed for lattice modes with increasing stress/strain, as expected. Structural changes and relationships with mechanical behaviour are discussed.
A gene construct was made by fusing the coding sequence of the red fluorescent protein (DsRed) to the exon 2 of the fibrohexamerin gene (fhx), that encodes a subunit of fibroin, the major silk protein of the silkworm Bombyx mori. The fusion gene was inserted into a piggyBac vector to establish a series of transgenic lines. The expression of the transgene was monitored during the course of larval life and was found restricted to the posterior silk gland cells as the endogenous fhx gene, in all the selected transgenic lines. The exogenous polypeptide was secreted into the lumen of the posterior silk gland together with fibroin, and further exported with the silk proteins as a foreign constituent of the cocoon fiber. The capacity of DsRed to emit fluorescence in the air-dried silk thread led to show that the recombinant protein was distributed over the whole length of the fiber. A remarkable property of the system lies in the localization of the globular protein at the periphery of the silk thread, allowing its rapid and easy recovery in aqueous solutions, without dissolving fibroin. The procedure represents a novel and promising strategy for the production of massive recombinant proteins of biomedical and pharmaceutical interest, with reduced cost.
RNA interference (RNAi)-mediated viral inhibition has been used in a few organisms for eliciting viral resistance. In the present study, we report the use of RNAi in preventing baculovirus infection in a lepidopteran. We targeted the baculoviral immediate early-1 (ie-1) gene in both a transformed lepidopteran cell line and in the transgenic silkworm Bombyx mori L. Constitutive expression of double-stranded RNA was achieved by piggyBac-mediated transformation of Sf9 cell line with a transgene encoding double-stranded ie-1 RNA (dsie-1). Strong viral repression was seen at early stages of infection but subsequent recovery of viral proliferation was observed. In contrast, the same transgene inserted into the chromosomes of transgenic silkworms induced long-term inhibition of B. mori nucleopolyhedrovirus infection, with nearly 40% protection compared with nontransgenic animals. Protection was efficient at larval stages after oral infection with occlusion bodies or hemocoel injection of budded viruses. Virus injected pupae also displayed resistance. These results show that heritable RNAi can be used to protect silkworm strains from baculovirus infection.
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