The baculovirus expression system (BES) utilize the p10 or polyhedrin promoter, a very late promoter that exhibits strong transcriptional activity primarily at the end of viral infection, to produce useful recombinant proteins. The burst sequence of the very late promoter is essential for strong transcription, and VLF-1 is a transcription factor that binds specifically to the burst sequence, and it has been reported that it can regulate the amount and timing of expression of protein by the very late promoter. Recently, a VLF-1 constitutively expressing cell line was constructed to increase the production of the target protein, but the effect was minimal. In this study, to find the optimal VLF-1 expression conditions to increase target protein production efficiency, we controlled the expression of VLF-1 through various promoters and evaluated the target protein expression efficiency by the p10 promoter accordingly.
이산화염소는 살충효과를 지니며, 이는 이 물질이 발생시키는 활성산소에 기인된다. 살충효과를 주는 주요 원인으로 이산화염소의 세포독 성에 주목하고 있다. 본 연구는 이산화염소가 유발하는 세포독성이 활성산소에 기인한 아폽토시스 유발로 가설을 세우고 이를 검증하였다. 화랑 곡나방(Plodia interpunctella) 유충에 이산화염소를 주입한 결과 전체혈구수의 뚜렷한 감소를 보였고, 이후 처리 유충은 사망하였다. 아폽토시스 세포치사과정을 규명하기 위해 TUNEL (terminal deoxynucleotidyl transferase nick end translation) 분석법을 적용하였다. 곤충 세포주의 하나인 Sf9 세포에 서로 다른 이산화염소를 처리하고 TUNEL 분석법으로 관찰한 결과 처리 농도에 비례하여 아폽토시스 비율이 증가하였다. 다 음으로 서로 다른 농도의 이산화염소를 화랑곡나방 유충에 주입하고 혈구 세포를 TUNEL 분석법으로 관찰한 결과 이산화염소는 처리 농도에 비례하여 아폽토시스 유발을 나타냈다. 그러나 항산화제인 비타민 E를 이산화염소와 함께 처리하면 비타민 E의 농도에 비례하여 이산화염소의 아폽토시스 유발을 억제하고 이에 따라 살충률도 감소하였다. 이러한 결과는 이산화염소에 기인한 세포독성은 활성산소에 기인한 아폽토시스 유 발로 이뤄졌다는 것을 제시하고 있다.
A novel oxidant fumigation (NOF) has been considered as alternative fumigant to replace methyl bromide that is a serious ozone depleter. Its high oxidative activity has been used as a bleaching or sanitary agent. Though some reports an insecticidal activity of NOF, its insecticidal action is yet to be understood. This study was conducted with an observation of an insecticidal activity of NOF against Plodia interpunctella, which is a stored grain insect pest. Cytotoxicity test was performed by using MTT assay, NOF gave a significant cytotoxicity on both Sf9 cells and HiFive insect cell lines. Sf9 cells were higher susceptible (IC50 = 43.2+ 3.5 ppm) to chloride dioxide than HiFive cells (IC50 = 174.6 + 5.9 ppm). To understand its cytotoxic effect on P. interpunctella, the larval hemocytes were incubated in vitro with different doses of NOF for 40 min at room temperature. In a dose-dependent manner, NOF gave a significant toxicity to the hemocytes. When NOF was injected to larvae of P. interpunctella, it significantly reduced total hemocyte counts compared to control. These results indicate that NOF has cytotoxic effect against hemocytes of P. interpunctella. This hemolytic activity of NOF can be regarded as a lethal factor to the stored grain insect pest.
The antigen GA733 is a cell-surface highly expressed glycoprotein on most human colorectal carcinomas. GA733 can be characterized as a cancer vaccine. In this study, GA733 was fused to the human immunoglobulin IgG Fc fragment to become recombinant gene GA733-Fc. Based on this, 4 recombinant genes were constructed as follows: GA733-Fc with signal peptide sequence and fusion of ER retention sequence (KDEL) (spGA733-FcK), GA733-Fc with signal sequence (spGA733-Fc), GA733-Fc fused to ER retention sequence (GA733-FcK) without signal peptide and GA733-Fc without signal peptide. Baculovirus-insect cell expression system is widely used for the high level production of recombinant proteins especially for glycoproteins. Constructed 4 recombinant genes were cloned to baculovirus express vectors. DH10Bac E.coli.-mediated transformation was used to generate recombinant bacmid DNA. Recombinant DNA was confirmed by PCR. Insect cell was transfected by bacmid to produce the recombinant baculovirus infects insect cell to produce recombinant protein. Western blot and sandwich ELISA showed the expression of recombinant proteins. Each cell lines (sf9 and HighFive) differed in recombinant proteins production level and protein secretion capability. N-Glycosylation analysis showed the function of signal peptide and ER retention sequence (KDEL). Taken together, baculovirus-insect cell system can be used to express recombinant GA733-Fc glycoproteins.
This study was to examine expression of the recombinant full-length adiponectin (recombinant adiponectin) in insect ovarian cell culture system and to characterize structural properties of the recombinant adiponectin secreted in medium. Gene construct encoding the recombinant adiponectin contained N-terminal collagen-like domain (110 Amino Acids, AAs), C-terminal globular domain (137 AAs) and C-terminal peptides for detection with V5 antibody (26 AAs included adaptor peptide) and purification using the 6xHis tag (6 AAs). The approximate molecular weight of the product (monomer) was 35 kDa. Molecular mass species of the expressed recombinant adiponectin were monomer (~35 kDa), dimer (~70 kDa), trimer (~105 kDa) and hexamer (~210 kDa). The major secreted species were the LMW forms, such as monomer, dimer, and trimer. There was MMW of hexamer as minor form. HMW multimers (~300 kDa) were shown as a tracer or not detected on the SDS-PAGE in several experiments (data not shown). The multimer forms in this study were not compatible to those in animal or human serum and adipose tissue by other researcher’s study in which the major multimer forms were HMW. By protein denaturing experiments with reducing reagent (β- MeOH), anionic detergent (SDS) and heat (95℃) on the SDS-PAGE, not all adiponectin multimers seemed to have disulfide bond linked structure to form multimers. The recombinant adiponectin which expressed in insect ovarian cell culture system seemed to have the limitation as full physiological regulator for the application to animal and human study.
To determine the optimal concentration of fetal bovine serum (FBS) on the growth of insect cells and the multiplicity of viruses, the growth of cells (Sf21 and Bm5) and viruses were examined on the various concentrations of FBS. In view of the viability, growth speed, proliferation of cells and the amount of FBS, the most proper concentration for the cell culture were 7% and 5% for Sf21 and Bm5, respectively. The multiplicity of viruses at the various concentrations of FBS was similar in both cell lines at 5 days post-infection (p.i.). However, it differed significantly at 2 and 3 days p.i. The proper concentration of FBS were 10% and 3% for Sf21 at 2 and 3 days p.i., respectively, and 5% for Bm5 at both 2 and 3 days p. i. These results suggested that the optimal concentration of FBS should be determined according to the used cell lines and viruses for their optimum production.