This peptide has antibacterial activity against several Gram-positive and Gram-negative bacteria. BmCecB1 is antimicrobial peptides from Bombyx mori and belongs to cecropin family. Antimicrobial peptides are important components of the innate immune systems in all living organism. To produce the BmCecB1 antimicrobial peptide, we constructed transgenic silkworm that expressed BmCecB1 gene under the control BmA3 promoter using piggyBac vector. The use of the 3xP3-driven EGFP cDNA as a marker allowed us to rapidly distinguish transgenic silkworm. Mixtures of the donor vector and helper vector were micro-injected into 600 eggs of bivoltin silkworms, Baegokjam. In total, 49 larvae (G0) were hatched and allowed to develop into moths. The resulting G1 generation consisted of 22 broods, and we selected 2 broods containing at least 1 EGFP-positive embryo. The rate of successful transgenesis for the G1 broods was 11%. We identified 9 EGFP-positive G1 moths and these were backcrossed with wild-type moths. With the aim of identifying a BmCecB1 as antimicrobial peptide, we investigated the Radical diffusion Assay (RDA) and then demonstrated that BmCecB1 possesses high antibacterial activities against Gram-negative bacteria.
BmCecB1 are antimicrobial peptides from Bombyx mori and belongs to cecropin family. Antimicrobial peptides are important components of the innate immune systems in all living organism. This peptide has antibacterial activity against several Gram-positive and Gram-negative bacteria. To produce the BmCecB1 antimicrobial peptide, we constructed transgenic silkworm that expressed BmCecB1 gene under the control BmA3 promoter using piggyBac vector. The use of the 3xP3-driven EGFP cDNA as a marker allowed us to rapidly distinguish transgenic silkworm. Mixtures of the donor vector and helper vector were micro-injected into 600 eggs of bivoltin silkworms, Baegokjam. In total, 49 larvae (G0) were hatched and allowed to develop into moths. The resulting G1 generation consisted of 22 broods, and we selected 2 broods containing at least 1 EGFP-positive embryo. The rate of successful transgenesis for the G1 broods was 11%. We identified 9 EGFP-positive G1 moths and these were backcrossed with wild-type moths. With the aim of identifying a BmCecB1 as antimicrobial peptide, we investigated the Radical diffusion Assay (RDA) and then demonstrated that BmCecB1 possesses high antibacterial activities against Gram-negative bacteria.
Many thousands of recombinant proteins have been successfully produced in baculovirus - infected insect cells and larvae. In this study, to improve its value and the yield of recombinant protein production, we constructed transgenic silkworm using Heat shock genes with regard to protein folding. This time, we adapted GAL4/UAS system to express at necessary time point and to carry genes for foreign protein. First, we generated two transgenic cells and silkworm lines that carried the silkworm heat shock proteins, UAS-HOP and UAS-HSC70 and UAS-HSP70 and UAS-HSP40 construct plus 3xP3-DsRED. Subsequently, to drive the GAL4 gene as activatorvector, we engineered Baculoviruses that contain the GAL4 under the P10 promoter linked to the expression cassette of interest foreign genes under the polyhedron promoter. Also, activator vector linked to the GAL4 was designed expressing 6xHis and 6xHis–GST tag. Infection of silkworm larvae with recombinant virus, His-tagged human C3d gene was more efficiently produced transgenic silkworm than that of wild-type, but not His-GST tagged. We show the possibilityin use of HSPs transgenic silkworm system by GAL4/ UAS BmNPV that can generate the efficient production of foreign protein.