Expression of Rice Gall Dwarf Virus Outer Coat Protein Gene (S8) in Insect Cells

To obtain the P8 protein of Rice gall dwarf virus (RGDV) with biological activity,its outer coat protein gene S8 was expressed in Spodoptera frugiperda (Sf9) insect cells using the baculovirus expression system.The S8 gene was subcloned into the pFastBacTM1 vector,to produce the recombinant baculovirus transfer vector pFB-S8.After transformation,pFB-S8 was introduced into the competent cells (E.coli DH10Bac) containing a shuttle vector,Bacmid,generating the recombinant bacmid rbpFB-S8.After being infected b...     

Construction and co-expression of grass carp reovirus VP6 protein and enhanced green fluorescence protein in the insect cells

Grass carp reovirus (GCRV), a disaster agent to aquatic animals, belongs to Genus Aquareovirus of family Reoviridea. Sequence analysis revealed GCRV genome segment 8 (s8) was 1 296 bp nucleotides in length encoding an inner capsid protein VP6 of about 43kDa. To obtain in vitro non-fusion expression of a GCRV VP6 protein containing a molecular of fluorescence reporter, the recombinant baculovirus, which contained the GCRVs8 and eGFP (enhanced green fluorescence protein) genes, was constructed by using the Bac-to-Bac insect expression system. In this study, the whole GCRVs8 and eGFP genes, amplified by PCR, were constructed into a pFastBacDual vector under polyhedron (PH) and p10 promoters, respectively. The constructed dual recombinant plasmid (pFbDGCRVs8/eGFP) was transformed into DH10Bac cells to obtain recombinant Bacmid (AcGCRVs8/eGFP) by transposition. Finally, the recombinant bacluovirus (vAcGCRVs8/eGFP) was obtained from transfected Sf9 insect cells. The green fluorescence that was expressed by transfected Sf9 cells was initially observed 3 days post transfection, and gradually enhanced and extended around 5 days culture in P1(Passage1) stock. The stable high level expression of recombinant protein was observed in P2 and subsequent passage budding virus (BV) stock. Additionally, PCR amplification from P1 and amplified P2 BV stock further confirmed the validity of the dual-recombinant baculovirus. Our results provide a foundation for expression and assembly of the GCRV structural protein in vitro. Undergraduate training student from College of Life Sciences, Wuhan University.     

Bruton酪氨酸激酶在昆虫细胞中表达的初步研究

用杆状病毒表达载体系统表达小鼠Ｂｒｕｔｏｎ酪氨酸激酶（Ｂｒｕｔｏｎｔｙｒｏｓｉｎｅｋｉｎａｓｅ,Ｂｔｋ）．构建重组转染载体时,于Ｂｔｋ起始码的上游插入了一段Ｈ９０２序列．用重组转染载体、苜蓿夜蛾核型多角体病毒线性ＤＮＡ和质脂体共转染Ｓｆ９昆虫细胞,经过对重组杆状病毒三轮扩增后,用Ｈ９０２抗体检测表明,昆虫细胞中Ｂｔｋ的表达已达最高水平．对表达后Ｂｔｋ自身磷酸化检测表明,该激酶具有自身磷酸化活性．从而证实Ｂｔｋ在昆虫细胞中的表达获得了成功     

Improving the baculovirus expression vector system with vankyrin‐enhanced technology

The baculovirus expression vector system (BEVS) is a widely used platform for the production of recombinant eukaryotic proteins. However, the BEVS has limitations in comparison to other higher eukaryotic expression systems. First, the insect cell lines used in the BEVS cannot produce glycoproteins with complex‐type N‐glycosylation patterns. Second, protein production is limited as cells die and lyse in response to baculovirus infection. To delay cell death and lysis, we transformed several insect cell lines with an expression plasmid harboring a vankyrin gene (P‐vank‐1), which encodes an anti‐apoptotic protein. Specifically, we transformed Sf9 cells, Trichoplusia ni High Five^TM cells, and SfSWT‐4 cells, which can produce glycoproteins with complex‐type N‐glycosylation patterns. The latter was included with the aim to increase production of glycoproteins with complex N‐glycans, thereby overcoming the two aforementioned limitations of the BEVS. To further increase vankyrin expression levels and further delay cell death, we also modified baculovirus vectors with the P‐vank‐1 gene. We found that cell lysis was delayed and recombinant glycoprotein yield increased when SfSWT‐4 cells were infected with a vankyrin‐encoding baculovirus. A synergistic effect in elevated levels of recombinant protein production was observed when vankyrin‐expressing cells were combined with a vankyrin‐encoding baculovirus. These effects were observed with various model proteins including medically relevant therapeutic proteins. In summary, we found that cell lysis could be delayed and recombinant protein yields could be increased by using cell lines constitutively expressing vankyrin or vankyrin‐encoding baculovirus vectors. © 2017 American Institute of Chemical Engineers Biotechnol. Prog., 33:1496–1507, 2017     

Expression of SLAM (CDw150) on Sf9 cell surface using recombinant baculovirus mediates measles virus infection in the nonpermissive cells

Signaling lymphocytic activation molecule (SLAM; also known as CDw150) has been reported as the receptor of measles virus (MV) interacting with MV hemagglutinin (MVH). In this study, we developed a baculovirus-derived vector, the Bacmid-egfp, containing a reporter gene encoding the enhanced green fluorescent protein (EGFP) under the control of the promoter of very late polyhedrin gene from Autographa californica multiple nucleopolyhedrovirus (AcMNPV), and employed the recombinant baculovirus to express SLAM in Sf9 (Spodoptera frugiperda) cells and investigate SLAM function. The result showed that the integration of the EGFP expression cassette in the Bac-to-Bac system facilitated research with the system without introducing compromises due to its use. SLAM protein fused to His-tag was expressed in Sf9 cells through the modified Bac-to-Bac system. The expressed SLAM was identified as approximately 46 kDa, and it presented on the cell surface, as revealed by fluorescent immunochemical staining and confocal microscopic analysis. The pull-down assay proved that SLAM protein expressed in this system could interact with MVH protein. After incubating with MV vaccine strain S191, cell fusion was only observed in the Sf9 cells expressing both EGFP and SLAM from recombinant baculovirus rather than those expressing EGFP only from the modified viral vector. Furthermore, MV replicated and induced apoptosis in the Sf9 cells with SLAM expression.     

利用杆状病毒Bac-to-Bac系统在Sf9细胞中表达真菌细胞色素P450nor

利用BactoBac杆状病毒载体表达系统将真菌细胞色素P450nor基因克隆至转移载体pFastBac1中, 得到重组质粒pFastBacP450nor, 再将其转化进入含穿梭载体Bacmid的受体菌DH10Bac中发生转座作用, 得到含P450nor基因的重组穿梭载体rBacmid pAcP450nor。分离提取重组Bacmid DNA, 并转染培养的昆虫细胞Sf9, 得到重组病毒rAcp450nor。经酶切和PCR 鉴定, 细胞色素P450nor基因正确地插入到病毒基因组的多角体蛋白基因启动子下, SDSPAGE分析证明：表达蛋白的分子量为43kD左右。Western blotting分析结果表明：有一条特定的杂交带存在, 且分子量相同（约43kD）。进一步证明了含有真菌细胞色素P450nor基因的重组表达载体和重组病毒构建成功,并在昆虫细胞Sf9中实现了高效表达, 经MTT法测定表达的细胞色素P450nor具有还原NO的生物学活性。     

SARS冠状病毒S蛋白在昆虫细胞中的表达和纯化

导致严重急性呼吸综合征(sevcre acute rcspiratory syndrome,SARS)的元凶是一种新型的冠状病毒(SARS coronavirus,SARS-CoV)。SARS-CoV感染入侵宿主细胞关键的一环是病毒自身的棘突蛋白(spike protein,S-protein)与细胞受体的相互作用,故而S蛋白己成为SARS研究的主要热点。     

Stable cell lines expressing baculovirus P35: resistance to apoptosis and nutrient stress, and increased glycoprotein secretion

Summary The baculovirus P35 protein is a caspase inhibitor that prevents the induction of apoptosis during infection of Sf21 cells byAutographa californica multicapsid nucleopolyhedrovirus (AcMNPV). P35 inhibits the induction of apoptosis in a broad range of cells and circumstances. In this study, we examined the effects of constitutive cellular P35 expression on the response of cells to stressful culture conditions and on protein production in AcMNPV infected cells. Sf9 cell lines expressing AcMNPV P35 or an epitope-tagged P35 protein were generated using a double selection technique, involving selection in the antibiotic G418, followed by a second round of selection by exposure to actinomycin D, a potent inducer of apoptosis in Sf9 cells. Clonal cell lines were generated and examined for (1) resistance to actinomycin D induced apoptosis, (2) resistance to nutrient deprivation, and (3) baculovirus expression of intracellular and secreted proteins. When compared with Sf9 cells, two P35-expressing cell lines (Sf9^P35AcV5-1 and Sf9^P35AcV5-3) showed increased resistance to actinomycin D-induced apoptosis and a profound resistance to nutrient deprivation. When these cell lines were infected with a recombinant baculovirus expressing a secreted glycoprotein (secreted alkaline phosphatase), expression of the glycoprotein from these cells exceeded that from the parental Sf9 cells and was comparable to expression levels obtained from Tn5B1-4 cells, the best available cell line for high-level expression. Increased levels of protein secretion in Sf9^P35AcV5-1 and Sf9^P35AcV5-3 cells appear to result from a prolonged infection cycle and accumulation of the secreted glycoprotein.     

苜蓿丫纹夜蛾核型多角体病毒fp25k基因的改造及用于稳定转化Sf9昆虫细胞系

【目的】苜蓿丫纹夜蛾核型多角体病毒(Autographa californica multicapsid nucleopolyhedrovirus, AcMNPV)在昆虫细胞中连续传代以后,会出现从多多角体表型到少多角体表型的转变,这种转变与一个编码25 kDa蛋白的基因（few polyhedra, fp25k）突变失活有关。杆状病毒的fp25k基因突变后产生的包涵体（多角体）衍生病毒粒子变少而出芽型病毒粒子增加,会降低外源基因在杆状病毒表达系统中的表达。本研究拟改造fp25k并构建能持续表达FP25K蛋白的转基因昆虫细胞,以克服杆状病毒, fp25k基因易突变导致的表达系统缺陷。【方法】本实验通过改造杆状病毒, fp25k基因在细胞传代过程中容易产生突变的位点,得到 mfp25k,并将mfp25k构建到pIZT/V5-His载体上,重组载体转染Sf9细胞,通过Zeocin抗性筛选逐步淘汰未成功转化的Sf9细胞。【结果】成功改造AcMNPV的, fp25k基因的TTAA位点,得到pIZT-mfp25k重组载体。重组载体成功转染Sf9细胞,通过Zeocin抗性筛选后获得基因组中带有mfp25k的Sf9-mfp25k稳定的转基因细胞系。用AcMNPV的fp25k突变型病毒AcP2感染转基因Sf9-mfp25k昆虫细胞系与正常Sf9细胞,发现转基因Sf9-mfp25k昆虫细胞系表达的FP25K蛋白可弥补病毒, fp25k基因突变的缺陷。【结论】建立的Sf9-mfp25k转基因昆虫细胞系通过细胞表达FP25K蛋白,可以弥补因杆状病毒fp25k基因突变产生的缺陷。研究结果为构建稳定的杆状病毒 昆虫细胞表达系统提供了新途径。     

人视黄醇结合蛋白4在杆状病毒系统中的表达及其多克隆抗体制备

旨在利用杆状病毒系统表达、制备人视黄醇结合蛋白(RBP4)并检测其免疫原性。将人RBP4基因片段及信号肽SS64片段亚克隆到杆状病毒转移载体pFastBac-dual(pFBd)中,获得相应的重组转移质粒;转化大肠杆菌菌株DH10bac,转座后经筛选获得重组穿梭质粒rbacmid,将重组穿梭质粒转染孔板培养的Sf9细胞,获得含人RBP4表达框的重组杆状病毒,经过扩增获得毒种。毒种感染对数生长期的Sf9细胞并表达人RBP4蛋白(I-RBP4),通过SDS-PAGE和Western blotting对表达蛋白进行检测和鉴定。用毒种感染悬浮培养的Sf9细胞制备一批RBP4蛋白,完成SDS、Western blotting的检测及少量的多抗制备。纯化重组蛋白并与E.coli重组人RBP4(E-RBP4)分别免疫家兔。实验结果,酶切鉴定及测序证实重组转移质粒构建正确;成功构建重组RBP4-bacmid;人RBP4蛋白在昆虫细胞获得高效表达。表达的RBP4蛋白可以分泌到培养基中,分子量约为23 kDa,经过计算表达量为100 mg/L;纯化蛋白免疫兔子制备了多抗血清,血清滴度为1∶100 000,高于原核表达的抗体滴度(1∶10 000),与人体提纯蛋白制备的抗体滴度相近。杆状病毒系统高效表达了人的RBP4蛋白,具有较好的抗原性,并获得高亲和力的抗血清,为下一步的人血RBP4检测试剂盒的制备打下了坚实的基础。     

Expression of Functional Human Muscarinic M2 Receptors in Different Insect Cell Lines

Abstract

Human M2 receptors were expressed using the baculovirus expression system in three different insect cell lines: Sf9, Sf21 and High5. The level of expression was slightly increased in Sf21 cells versus Sf9 cells. In contrast, High5 cells were not able to produce more recombinant protein than Sf9. We also show that in both Spodoptera frugiperda cell lines a peak of expression was reached after 6 days of infection, whereas in High5 cells, the maximum of expression occurred after 3 days. Immunodetection of m2 muscarinic receptor clearly shows that the expressed protein undergoes significant proteolysis in both the Sf9 and High5 cells, whereas in the Sf21 cells this phenomenon was less detectable. Additionally, we show that in all three cell lines, the expressed recombinant receptor was functional in that it was able to stimulate GTPγS binding in the presence of exogenous G-proteins. Analysis of the population of G-proteins (Gαi₁ Gα_o and Gβcommon) in Sf21 and High5 cells is provided.     

重组人可溶性PDGFRβ/Fc在昆虫细胞Sf9中的表达

【目的】利用昆虫细胞Bac-to-Bac杆状病毒表达系统表达血小板源性生长因子受体β (PDGFRβ)链膜外区与人IgG Fc片段的可溶性受体融合蛋白sPDGFRβ/Fc,并检测重组蛋白的特异性和生物活性。【方法】采用Bac-to-Bac系统,构建重组转移质粒pFastbac-sPDGFRβ/Fc,转化到含穿梭载体Bacmid的感受态细胞DH10Bac中,使目的基因与杆状病毒基因组DNA发生位点特异性重组,获得重组病毒DNA,将其通过脂质体转染昆虫细胞Sf9获得重组病毒。将该重组病毒感染Sf9无血清细胞系,在Sf9细胞中表达sPDGFRβ/Fc,对表达产物进行Western blotting检测和Protein A亲合层析纯化,并进一步通过MTT法检测获得的重组蛋白生物学活性。【结果】重组病毒感染Sf9细胞后,经Western blotting分析,能检测到一条分子量约为97 kDa的特异性条带,与目的蛋白大小相符。通过Protein A亲和层析,获得了纯度达75％以上,表达量为1 μg/mL细胞培养上清的重组融合蛋白,MTT结果显示该重组融合蛋白sPDGFRβ/Fc具有抑制PDGF刺激的Balb/c 3T3细胞增殖的能力。【结论】具有生物活性的重组可溶性受体融合蛋白sPDGFRβ/Fc可在昆虫细胞中成功地得到表达。     

Construction and Co-expression of Grass Carp Reovirus VP6 Protein and Enhanced Green Fluorescence Protein in the Insect Cells

Grass carp reovirus(GCRV),a disaster agent to aquatic animals,belongs to Genus Aquareovirus of family Reoviridea.Sequence analysis revealed GCRV genome segment 8(s8) was 1 296 bp nucleotides in length encoding an inner capsid protein VP6 of about 43kDa.To obtain in vitro non-fusion expression of a GCRV VP6 protein containing a molecular of fluorescence reporter,the recombinant baculovirus,which contained the GCRVs8 and eGFP(enhanced green fluorescence protein) genes,was constructed by using the Bac-to-Bac insect expression system.In this study,the whole GCRVs8 and eGFP genes,amplified by PCR,were constructed into a pFastBacDual vector under polyhedron(PH) and p10 promoters,respectively.The constructed dual recombinant plasmid(pFbDGCRVs8/eGFP) was transformed into DH10Bac cells to obtain recombinant Bacmid(AcGCRVs8/eGFP) by transposition.Finally,the recombinant bacluovirus(vAcGCRVs8/eGFP) was obtained from transfected Sf9 insect cells.The green fluorescence that was expressed by transfected Sf9 cells was initially observed 3 days post transfection,and gradually enhanced and extended around 5 days culture in P1(Passage1) stock.The stable high level expression of recombinant protein was observed in P2 and subsequent passage budding virus(BV) stock.Additionally,PCR amplification from P1 and amplified P2 BV stock further confirmed the validity of the dual-recombinant baculovirus.Our results provide a foundation for expression and assembly of the GCRV structural protein in vitro.     

丙型肝炎病毒RNA多聚酶在昆虫细胞中的表达

ＨＣＶ ＮＳ５Ｂ基因片段克隆入ＢＡＣ－ＴＯ－ＢＡＣ＾ＴＭ重组杆状病毒表达系统的ｐＦＡＳＴＨＴｃ载体质粒,转化ＤＨ１０ＢＡＣ＾ＴＭ感受态细菌获得重组的Ｂａｃｍｉｄ质粒,将重组Ｂａｃｍｉｄ质粒转染Ｓｆ细胞,获得的重组杆状病毒可表达目的蛋白。免疫印迹和体外活性检测表明,所表达蛋白为ＨＣＶ ＮＳ５Ｂ蛋白,具有多聚酶活性。     

汉坦病毒H8205株G1P基因片段重组杆状病毒表达载体的构建及表达

将汉坦病毒H8205株G1P基因的保守序列(约1000bp)作为目的基因插入到BactoBac杆状病毒表达系统的pFastBacHTb供体质粒中,利用Tn7转座子同BacmidDNA同源重组,获得了含目的基因片段的重组杆状病毒DNA,并利用其转染Sf9昆虫细胞,72h后收集细胞悬液,再用该悬液侵染Sf9昆虫细胞,48h后收获病毒.采用IFA分析收获的产物,观察到了特异性的荧光,并且采用SDSPAGE和Western印迹也获得了与预期一致的结果.证明感染后的Sf9昆虫细胞所表达的蛋白中含有能与抗汉坦病毒H8205株多克隆抗体特异性结合目的蛋白.研究表明,采用杆状病毒表达系统可以成功表达出汉坦病毒H8205株包膜糖蛋白G1基因片段,为开发适合的以G1P为抗原的汉坦病毒诊断试剂进行了前期的探索.     

Recombinant protein expression in aDrosophila cell line: comparison with the baculovirus system

In this report, we compare two different expression systems: baculovirus/Sf9 and stable recombinantDrosophila Schneider 2 (S2) cell lines. The construction of a recombinant S2 cell line is simple and quick, and in batch fermentations the cells have a doubling time of 20 hours until reaching a plateau density of 20 million cells/ml. Protein expression is driven by theDrosophila Metallothionein promoter which is tightly regulated. When expressed in S2 cells, the extracellular domain of human VCAM, an adhesion molecule, is indistinguishable from the same protein produced by baculovirus-infected Sf9 cells. Additionally, we present data on the expression of a seven trans-membrane protein, the dopamine D4 receptor, which has been successfully expressed in both systems. The receptor integrates correctly in the S2 membrane, binds [³H]spiperone with high affinity and exhibits pharmacological characteristics identical to that of the receptor expressed in Sf9 and mammalian cells. The general implications for large scale production of recombinant proteins are discussed.     

HCV核心蛋白在昆虫细胞中的表达及其免疫学特性的初步评价

通过逆转录－聚合酶链反应（ＲＴ－ＰＣＲ）从丙肝患者的血清中分离出编码完整ＨＣＶ核心蛋白（Ｃ区）的ｃＤＮＡ片段,并将其克隆到杆状病毒转移质粒中。重组转移质粒ＤＮＡ与线性的杆状病毒ＤＮＡ共转染Ｓｆ９昆虫细胞,经蚀斑筛选获得了带编码全部核心蛋白基因的重组杆状病毒。重组病毒感染细胞后表达ＨＣＶ核心蛋白,其分子量的为２０ｋＤ。免疫印染和酶联免疫实验表明,此重组蛋白能被人ＨＣＶ阳性血清所识别。动物实验表明此重组蛋白能诱导小鼠产生特异性抗体。     

庚型肝炎病毒包膜糖蛋白E2基因在昆虫细胞中的表达

用ＰＣＲ扩增出ＨＧＶＥ２全基因,克隆进杆状病毒表达载体ｐＦＡＳＴＢＡＣＨＴａ中,构建成重组转座载体ｐＦＡＳＴＢＡＣＥ２,转化ＤＨ１０ＢＡＣ大肠杆菌感受态细胞,筛选阳性菌落,抽提大分子质粒ＤＮＡ,获得含ＨＧＶＥ２基因的重组杆状病毒穿梭载体,转染昆虫草地夜蛾Ｓｆ９细胞,出现细胞病变后,收集含有重组病毒颗粒的培养上清,重新感染草地夜蛾Ｓｆ９单层细胞及甜菜夜蛾幼虫,分别收集Ｓｆ９细胞和甜菜夜蛾幼虫体内的血淋巴细胞,进行１２％ＳＤＳ聚丙烯酰胺凝胶电泳,可见表达的融合蛋白带,经亲和层析进行蛋白纯化,用ＥＬＩＳＡ方法检测各类血清标本,初步研究ＨＧＶＥ２糖蛋白的抗原性     

Stabilized baculovirus vector expressing a heterologous gene and GP64 from a single bicistronic transcript

The efficient scale-up of recombinant protein production in insect-cell bioreactors using baculovirus expression vectors is hampered by reductions in yield with increasing viral passage, the so-called passage effect. This phenomenon is characterized by the generation and subsequent accumulation of defective interfering baculoviruses (DIs), which interfere with the replication of genomically intact virus. A novel baculovirus expression vector is presented equipped with a bicistronic expression cassette that allows the simultaneous expression of the recombinant gene (GFP, first cistron) and an essential baculovirus gene (GP64, second cistron) from a single messenger RNA (mRNA). The translation of GP64 is mediated by an internal ribosome entry site (IRES) element from Rhopalosiphum padi virus (RhPV) while the native GP64 gene is deleted. In this way, a dominant selection pressure is placed on the entire bicistronic mRNA and hence on the maintenance of the foreign gene. The bicistronic expression vector was superior to the control baculovirus vector in that GFP expression remained at much higher levels upon continued virus passage. The versatility of this stabilized vector was demonstrated by its ability to propagate in a number of cell lines including Sf21, Sf9 and High Five cells. This novel baculovirus vector is especially valuable for large-scale recombinant protein production in insect-cell bioreactors where the number of viral passages is high.     

BJ46a基因在昆虫细胞的转染、蛋白表达及超微结构观察

目的研究蛇毒金属蛋白酶抑制剂BJ46a在杆状病毒表达系统的表达及宿主细胞Sf9超微结构的变化。方法将构建的杆状病毒重组穿梭载体Bacmid BJ46a,经Cellfectin脂质体介导转染Sf9昆虫细胞,获重组杆状病毒颗粒;以高滴度病毒感染Sf9昆虫细胞,行Western blot观察BJ46a融合蛋白的表达。在病毒扩增、蛋白表达过程应用透射电镜和超薄切片技术观察Sf9细胞超微结构的变化。结果Western blot分析表明：在转染病毒的Sf9细胞出现BJ46a融合蛋白表达条带。电镜观察表明：Sf9细胞在病毒扩增过程,细胞核增大,病毒发生基质形成,杆状病毒在其周围装配。蛋白表达期间,杆状病毒量剧增,细胞核内外存在大量丝状纤维。结论BJ46a基因可在杆状病毒表达系统成功表达,并伴随着宿主细胞超微结构的显著变化,其结果为杆状病毒表达系统的研究奠定坚实的基础。