Disulfide bond formation, reduction and isomerization are important posttranslational modification in proteins that occur in most, if not all, living organisms. In eukatoyes, disulfide bond in substrate proteins are primarily formes by ERO1 and PDI. ERO1, oxidized by molecular oxygen, acts as a specific oxidant of PDI, which then makes disulfide bonds in folding proteins oxidized directly. It means that ERO1 plays an essential role in setting the redox potential in the ER, and the regulation of Ero1p activity is critical to maintain redox homeostasis and proper ER folding activity. We have isolated and analysed a endoplasmic reticulum oxidoreductase (ERO1) from Bombye mori. It apperas that both an N-terminal CxxxxC motif and a C-terminl CxxCxxC motif are necessary for Ero1p fuction. In vivo, the result of the 5day of 5th instar larvae by RT-PCR and Real-Time PCR shows that posterior silkgland, skin and mid silkgland are revealed more than rhose of other tissues. The same result for tissue distribution of transcripts is appeared about ERO1 and PDI. In Bombyx mori, ERO1 is also supposed to correlate with PDI. Afterwards, more experiments are needed to figure out accurate interrelation between ERO1 and PDI.

Recently Transgenesis was achieved in Bombix mori. For stable and effective transgenesis in B.mori, B.mori cytoplasmic actin gene (BmA3) promoter was used to expression of marker gene, the green fluorescent protein(GFP). Green fluorescent protein expression for selection of transformants was visible in all larval, pupal, and adult tissues but, unexpectdly, was not detectable in embryos. So, it spend times and money on rearing of silkworm. Furthermore, the BmA3 promoter is predominantly active in the midgut, which makes it difficult to reliably identify transformants since autofluorescence of many insect foods can mask low-level fluorescence and only allows the detection of strongly expressing individuals with potentially multiple insertions. Therefore, we need more intensely promoter than BmA3 promoter for selected by expression of GFP in embryos and selected by reliable expression of GFP in larvae. We performed dot blot hybridization to develop strong promoter. Nine differentially expressed clones were isolated and we focused one clone of them which has high similarity with heat shock protein 70 gene from D.melanogaster. We named it as bHSP70 (Bombyx mori heat shock protein 70). Expression from the hsp70 promoter was strong and heat shock-dependent. And Drosophila hsp70 promoter appears useful for regulating expression of Exogenous DNA. So, we analyzed transcriptional activity of promoter with bHSP70 gene by using dual luciferase assay system. bHSP70 promoter has about 264 folds more intensely than BmA3 promoter. Also, when bHSP70 promoter treated heat shock(42℃), transcriptional activity incresed 2 times more than normal condition. Therefore, we suggest that bHSP70 promoter is more effective candidate for stable transformation and selection of transformants.