以核多角体病毒为载体在家蚕中生产外源蛋白

以家蚕核多角体病毒(BmNPV)为载体,在家蚕幼虫或家蚕培养细胞系中表达的外源基因越来越多,其表达的产物已涉及到医用药物、医疗诊断、疫苗生产、生物防治等诸多领域,文章就BmNPV的特性及其基因组构造,多角体蛋白基因的特性,重组BmNPV的构建及其在家蚕幼虫体内和细胞系中的表达,BmNPV-家蚕表达系统的外源蛋白生产效率及其应用等各个方面作了全面、系统的综述.     

High-level expression of orange fluorescent protein in the silkworm larvae by the Bac-to-Bac system

This novel orange fluorescent protein (OFP) emits brilliant orange fluorescent light. OFP has high fluorescence quantum yield, fast maturation rate, and stability, which imply this protein should be the most favorable biotechnological tools used to investigate the function of target gene by visualizing, monitoring, and quantifying in living cells. B. mori, silkworm has been used as an important bioreactor for the production of recombinant proteins through baculovirus expression system (BES). In this paper, we used infection technique which introduced the baculovirus DNA into silkworms using a cationic lipofectin reagent instead of directly injecting the virus, and demonstrated a high-level expression of the orange fluorescent protein (OFP) gene in the Bombyx mori, silkworm larvae. When recombinant rBacmid/BmNPV/OFP DNA ranging from 50–100 ng/larval was injected, a sufficient OFP expression in hemolymph was harvested. The recombinant viruses could be obtained from the hemolymph of infected larvae and stored as seed which could be used for the large-scale expression. This procedure omitted the costly and labor-consumed insect cell culture. Further investigation of OFP should provide us with more insight in unlocking the mystery of the mechanisms of autocatalytic bioluminescence and its utilization in biotechnology.     

High level expression of a frog α-amidating enzyme,AE-II,in cultured cells and silkworm larvae using aBombyx mori nuclear polyhedrosis virus expression vector

AXenopus laevis peptidyl C-terminal α-amidating enzyme (AE-II) gene, modified by deletion of a region encoding the putative membrane-spanning domain and the putative C-terminal cytosolic tail, was expressed in BoMo-15 AIIc insect cells and silkworm larvae using aBombyx mori baculovirus expression vector system. The expressed enzyme was identified predominantly in the culture medium and the hemolymph of silkworm larvae, indicating successful secretion of the expressed AE-II. The level of recombinant enzyme in the larval hemolymph at 4 days post-infection (40 μg/ml) was more than 100-fold the peak levels found in the culture medium (250 ng/ml). The enzyme activity in the larval hemolymph at 4 days post-infection was 3700 units/ml.     

Functional analysis of Dicer-2 gene in Bombyx mori resistance to BmNPV virus

Bombyx mori nucleopolyhedrovirus (BmNPV) is a primary pathogen in silkworm, and the molecular mechanism of B. mori defense to BmNPV infection is still unclear. RNA interference (RNAi) is well-known as an intracellular conserved mechanism that is critical in gene regulation and cell defense. The antiviral RNAi pathway processes viral double-stranded RNA (dsRNA) into viral small interfering RNAs that guide the recognition and cleavage of complementary viral target RNAs. In this study, a Dicer-2 (Dcr2) gene was identified in B. mori and its antiviral function was explored. Dcr2 messenger RNA (mRNA) expression was the highest in hemocytes and expressed in all stages of silkworm growth. After infection with BmNPV, the expression of Dcr2 mRNA was significantly increased after infection in midgut and hemocytes. The expression of Dcr2 was significantly upregulated by injecting dsRNA (dsBmSPH-1) into silkworm after 48 hr. Knocking down the expression level of Dcr2 using specific dsRNA in silkworm, which modestly enhanced the production of viral genomic DNA. Our results suggested that the Dcr2 gene in B. mori plays an important role in against BmNPV invasion.     

An inducible constitutive expression system in Bombyx mori mediated by phiC31 integrase

Inducible gene-expression systems play important roles in gene functional assays in the post-genome era. Streptomyces phage-derived phiC31 integrase, which mediates an irreversible site-specific cassette exchange between the phage attachment site (attP) and the bacterial attachment site (attB), provides a promising option for the construction of a controllable gene-expression system. Here, we report a phiC31 integrase-mediated promoter flip system (FLIP) for the inducible expression of target genes in silkworm (Bombyx mori). First, we constructed a FLIP reporter system, in which a BmAct4 promoter with enhanced translational efficiency was flanked by the attB and attP sites in a head-to-head orientation and further linked in a reverse orientation to a DsRed reporter gene. The coexpression of a C-terminal modified phiC31-NLS integrase carrying a simian virus 40 (SV40) nuclear localization signal (NLS) effectively flipped the BmAct4 promoter through an attB/attP exchange, thereby activating the downstream expression of DsRed in a silkworm embryo-derived cell line, BmE. Subsequently, the FLIP system, together with a system continuously expressing the phiC31-NLS integrase, was used to construct binary transgenic silkworm lines. Hybridization between FLIP and phiC31-NLS transgenic silkworm lines resulted in the successful flipping of the BmAct4 promoter, with an approximately 39% heritable transformation efficiency in silkworm offspring, leading to the constitutive and high-level expression of DsRed in silkworms, which accounted for approximately 0.81% of the silkworm pupal weight. Our successful development of the FLIP system offers an effective alternative for manipulating gene expression in silkworms and other lepidopteran species.     

Expression of <Emphasis Type="Italic">Trichoderma reesei</Emphasis> endo-β-glucanase II in silkworm, <Emphasis Type="Italic">Bombyx mori</Emphasis> L. by using BmNPV/Bac-to-Bac expression system and its bioactivity assay

The silkworm, Bombyx mori, was used to produce recombinant endo-β-glucanase II (rEGII). The EGII gene (egl2) was cloned from the cellulolytic fungus Trichoderma reesei and inserted into B. mori nucleopolyhedrovirus (BmNPV) genome using BmNPV/Bac-to-Bac expression vector. For expression of rEGII, both the BmN cells and B. mori larvae were infected with the recombinant virus. The putative rEGII yield was about 386 μg per larva and the enzyme activity of the purified rEGII was approx 352 U/mg of rEGII. The optimal activity of this purified protein was observed at 55°C and pH 4, respectively.     

中国产家蚕抗菌肽A基因部分序列的测定

从大肠杆菌感染的家蚕蛹提取RNA,用RT-PCR方法扩增未知抗菌肽基因片段,经过克隆测序,获得了蚕抗菌肽A基因的部分片段164 bp,为制备蚕抗菌肽A基因探针,筛选基因文库打下了基础.     

A digestive beta-glucosidase from the silkworm, Bombyx mori: cDNA cloning, expression and enzymatic characterization

A digestive β-glucosidase cDNA was cloned from the silkworm, Bombyx mori. The B. mori β-glucosidase cDNA contains an open reading frame of 1473 bp encoding 491 amino acid residues. The B. mori β-glucosidase possesses the amino acid residues involved in catalysis and substrate binding conserved in glycosyl hydrolase family 1. Southern blot analysis of genomic DNA suggested the B. mori β-glucosidase to be a single gene. Northern blot analysis of B. mori β-glucosidase gene confirmed larval midgut-specific expression. The B. mori β-glucosidase mRNA expression in larval midgut was detectable only during feeding period, whereas its expression was downregulated during starvation. The B. mori β-glucosidase cDNA was expressed as a 57-kDa polypeptide in baculovirus-infected insect Sf9 cells, and the recombinant β-glucosidase was active on cellobiose and lactose, but not active on salicin, indicating that the B. mori β-glucosidase possesses the characteristics of the Class 2 enzyme. The enzyme activity of the purified recombinant β-glucosidase expressed in baculovirus-infected insect cells was approximately 665 U per μg of recombinant B. mori β-glucosidase. The purified recombinant B. mori β-glucosidase showed the highest activity at 35 °C and pH 6.0, and were stable at 50 °C at least for 10 min. Treatment of recombinant virus-infected Sf9 cells with tunicamycin, a specific inhibitor of N-glycosylation, revealed that the recombinant B. mori β-glucosidase is N-glycosylated, but the carbohydrate moieties are not essential for enzyme activity.     

Germ line transformation of the silkworm, <Emphasis Type="Italic">Bombyx mori</Emphasis>, using the transposable element <Emphasis Type="Italic">Minos</Emphasis>

We investigated the use of Minos as a vector for transgenesis in the silkworm, Bombyx mori. We first constructed a vector plasmid with the green fluorescent protein (GFP) gene fused with the silkworm cytoplasmic actin gene (A3) promoter, and a helper plasmid with the Minos transposase gene controlled by the same A3 promoter. Injection of the vector and helper plasmid DNA into silkworm eggs produced transgenic animals in the following generation. The efficiency of transgenic silkworm production using this method was much lower than that obtained using piggyBac-mediated germ line transformation. However, >40-fold increase in the efficiency of producing transgenic silkworms was obtained using an in vitro synthesized source of Minos transposase mRNA. We conclude that the Minos transposon is a useful vector for construction of transgenic silkworms, particularly when in vitro synthesized mRNA is used. This is the first report showing that Minos can be used as a vector for germ-line transformation in lepidopteran insects.     

Expression of spider flagelliform silk protein in Bombyx mori cell line by a novel Bac-to-Bac/BmNPV baculovirus expression system

Bombyx mori nuclear polyhedrosis virus (BmNPV) baculovirus expression system (BES) has a lot of advantages such as high expression efficiency, convenience, and low feeding cost. In this report, we used a recently developed BmNPV bacmid, which could infect both B. mori cell lines and silkworm larvae. The results showed it takes only 7 to 10 days to generate recombinant baculovirus and permit the rapid isolation from small-scale cultures and then use it to transfect B. mori cell lines, compared to traditional homologous recombination method, which needs at least 40 days for multiple rounds of purification and amplification of viruses. Using this BES, we expressed a recombinant spider flagelliform protein in BmN cell line, which was around 37 kDa in sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE) and western blot analysis. The BmNPV bacmid system using silkworm would be very attractive for expression of target proteins.     

Molecular phylogeny of the domesticated silkworm,Bombyx mori, based on the sequences of mitochondrialcytochrome b genes

Pupae from the Chinese wild mulberry silkworm,Bombyx mandarina, and 11 representative strains of the domesticated silkworm,Bombyx mori were selected for preparation of mitochondrial DNA. The 5′-end fragments ofcytochrome b genes (Cytb) were generated by polymerase chain reaction products and sequenced directly. The homologous sequences of the JapaneseB. mandarina and three strains ofB. mori were from the GenBank database. The sequences of the 16 silkworm strains were analysed with DNASTAR software and a phylogenic tree was constructed using PHYLIP software. The result showed that: (i) The sequence divergence between the strains ofB. mori and the JapaneseB. mandarina was larger (5.4% ≈ 5.8%) compared with that between strains ofB. mori and the ChineseB. mandarina (0.8% ≈ 1.9%). Analysis of clustering also showed that the sequences ofB. mori strains and ChineseB. mandarina clustered into group (B group), while that of JapaneseB. mandarina (A group) was outside this cluster. This may be evidence for the hypothesis thatB. mori originated from ChineseB. mandarina. (ii) Among 14 strains ofB. mori, sequence divergence was small and the most divergence was seen between strains Yanhe-1 and Chuxiong, whose sequences branched off from those of the otherB. mori strains on the phylogenetic tree. From this and from historical records, we infer that the strains Yanhe-1 and Chuxiong originated independently from southwest China.     

Efficient Protein Expression in <Emphasis Type="Italic">Bombyx mori</Emphasis> Larvae of the Strain d17 Highly Sensitive to <Emphasis Type="Italic">B. mori</Emphasis> Nucleopolyhedrovirus

The recombinant protein expression by Bombyx mori nucleopolyhedrovirus (BmNPV) infecting silkworm larvae or pupae may endow us with a potent system for the production of large eukaryotic proteins. However, the screening of silkworm strains ideally suited to this method has scarcely been conducted. In the present study, we injected recombinant BmNPV containing a reporter gene, luciferase or DsRed, into hemocoel of fifth instar larvae of selected 12 silkworm strains. Among them, the strain d17 is found to be the highest in reporter expression from the intrinsic polyhedrin promoter of Autographa californica NPV or the silkworm actin A3 promoter. These results suggest that the d17 strain is highly permissive for BmNPV replication and is the most likely candidate of a “factory” for large-scale expression using the BmNPV bacmid system.     

Silkworm expression system as a platform technology in life science

Many recombinant proteins have been successfully produced in silkworm larvae or pupae and used for academic and industrial purposes. Several recombinant proteins produced by silkworms have already been commercialized. However, construction of a recombinant baculovirus containing a gene of interest requires tedious and troublesome steps and takes a long time (3–6 months). The recent development of a bacmid, Escherichia coli and Bombyx mori shuttle vector, has eliminated the conventional tedious procedures required to identify and isolate recombinant viruses. Several technical improvements, including a cysteine protease or chitinase deletion bacmid and chaperone-assisted expression and coexpression, have led to significantly increased protein yields and reduced costs for large-scale production. Terminal N-acetyl glucosamine and galactose residues were found in the N-glycan structures produced by silkworms, which are different from those generated by insect cells. Genomic elucidation of silkworm has opened a new chapter in utilization of silkworm. Transgenic silkworm technology provides a stable production of recombinant protein. Baculovirus surface display expression is one of the low-cost approaches toward silkworm larvae-derived recombinant subunit vaccines. The expression of pharmaceutically relevant proteins, including cell/viral surface proteins, membrane proteins, and guanine nucleotide-binding protein (G protein) coupled receptors, using silkworm larvae or cocoons has become very attractive. Silkworm biotechnology is an innovative and easy approach to achieve high protein expression levels and is a very promising platform technology in the field of life science. Like the “Silkroad,” we expect that the “Bioroad” from Asia to Europe will be established by the silkworm expression system.