家蚕ADP/ATP转运酶(BmANT)抑制BmNPV增殖作用机制研究

【目的】家蚕核型多角体病毒(Bombyx mori nucleopolyhedrovirus,BmNPV)隶属于杆状病毒,需要借助宿主细胞能量代谢进行自身增殖复制。家蚕ADP/ATP转运酶(Bombyx mori ADP/ATP translocase,BmANT)是线粒体转运蛋白,在BmNPV感染条件下和家蚕热休克蛋白60(heatshockprotein60,BmHSP60)具有直接的相互作用。因此,鉴定Bmant基因在BmNPV感染过程中的功能特征,有助于解析杆状病毒劫持宿主细胞因子促进自身增殖复制机制,完善杆状病毒和宿主相互作用网络。【方法】通过结构域预测BmANT蛋白的结构特征,荧光定量PCR分析Bmant基因在BmNPV感染后的变化特征;并过表达BmANT检测其对病毒DNA复制和病毒蛋白表达变化影响;进一步在转录水平分析Bmant和Bmhsp60基因的调控关系;最后通过流式细胞术等技术鉴定Bmant和Bmhsp60基因共同调控BmNPV增殖复制的机制。【结果】SMART软件预测显示BmANT包含3个线粒体载体结构域,BmNPV感染24 h后Bmant基因持续下调表达。过表达Bmant基因能够显著抑制BmNPV DNA的复制和VP39蛋白表达。荧光定量PCR分析显示Bmant和Bmhsp60基因具有相互拮抗作用,能够相互抑制转录。Bmant和Bmhsp60共同过表达分析显示,BmANT和BmHSP60共同作用BmNPV能够抑制病毒的增殖复制。【结论】结果表明,BmANT是一个线粒体载体蛋白,具有显著的抗病毒作用,能够下调Bmhsp60基因表达,并抑制BmNPV增殖复制。     

家蚕核型多角体病毒BmNPV泛素基因缺失显著降低病毒增殖效率北大核心

【目的】泛素是一类进化上高度保守的、由76个氨基酸组成的多肽,是蛋白质泛素化修饰过程中所必需的底物分子,蛋白质泛素化修饰异常会影响宿主的生长和发育。家蚕核型多角体病毒(Bombyx mori nucleopolyhedrovirus,BmNPV)基因orf26是一个编码病毒泛素的基因,其在病毒增殖中的具体功能尚不清楚。【方法】本研究利用同源重组的方法将氯霉素(chloramphenicol)基因(Cm)表达盒替换家蚕杆状病毒泛素基因序列3’端的50个碱基对序列,构建携带Cm表达盒的重组BmNPV病毒基因组(Bm-Bacmid^(Ub-KO)),利用转座原理将绿色荧光蛋白基因(green fluorescent protein,gfp)表达盒插入Bm-Bacmid^(Ub-KO)和野生型Bm-Bacmid^(WT)转座位点,构建重组质粒Bm-Bacmid^(Ub-KO-GFP)和Bm-Bacmid^(WT-GFP),以及异位互补型的质粒Bm-Bacmid^(GFP-Ub Rep)。这些重组病毒分别转染家蚕卵巢细胞(Bombyx mori ovarian cell,BmN)后,对转染后的细胞进行绿色荧光观察。【结果】泛素基因缺失后不影响感染性病毒粒子的产生,但与野生型相比,泛素缺失型重组病毒明显降低了感染的细胞中产生的绿色荧光数量。免疫印迹分析表明,泛素缺失后降低重组病毒结构蛋白GP64和VP39在细胞中的表达水平,显著降低病毒增殖效率。生物分析表明,泛素缺失的重组病毒能延缓家蚕半致死时间15 h。【结论】BmNPV泛素基因缺失不影响感染性病毒粒子的产生,但显著降低病毒增殖效率。本研究为阐明泛素在BmNPV增殖中的具体作用提供了实验依据。     

家蚕核型多角体病毒同源重复区hr5的结构和功能

家蚕核型多角体病毒(BmNPV)和首蓿尺蠖核型多角体病毒(AcMNPV)是宿主不同的同类昆虫杆状病毒.AcMNPV有5个同源重复区,hr5具较强增强子功能,最近被发现可能参与病毒DNA复制.Maeda等曾将BmNPV hrs图谱定位,最近又报道了BmNPV hr s的结构,但功能研究至今未见报道.与Maeda等同时,从野生型BmNPV基因组中克隆了hr 5区,进行了全序列测定,与Maeda等的报道有一定差别.功能分析证实,含BmNPV hr 5的质粒在辅助病毒存在下,不仅在宿主细胞(BmN)中能进行复制,而且在非宿主细胞 Sf 21中亦能进行复制.此外,不仅完整的BmNPV hr 5(含 8个重复单位),而且部分序列(含6个重复单位)亦显示上述功能.以上研究结果,并对hr 5在病毒 DNA复制过程中可能有的功能进行了探讨.     

转座子介导的多角体基因表达及提高病毒粒子的感染效率

现行的杆状病毒表达外源基因的方法是将外源基因取代病毒中的多角体基因,因而得到的重组杆状病毒感染活体时不能经口感染,只能进行针刺注射,效率低且易引起活体感染其他疾病。将家蚕核型多角体病毒(Bombyx mor inucleopolyhedrovirus,BmNPV)中的多角体基因(polyhedrin,poly)及其启动子片段克隆到转座子载体pigA3GFP中,将其与辅助质粒pHA3PIG利用脂质体介导法导入家蚕细胞中,经过多次筛选获得稳定的转基因家蚕细胞。之后先将BmPAK6(含LacZ)及BmGFP(含GFP)重组病毒分别感染转基因细胞,再将得到的重组病毒经口感染5龄家蚕幼虫。结果显示,重组杆状病毒可以经口感染家蚕幼虫。这些研究表明来自于转基因家蚕细胞的poly基因表达产物可以提高重组杆状病毒经口感染家蚕率,为解决杆状病毒表达系统中重组病毒不能经口感染家蚕幼虫的问题提供新思路。     

家蚕中肠组织抗核型多角体病毒病的相关蛋白分析

家蚕中肠上皮是病毒经口侵入遇到的第一个组织。昆虫幼虫抵御杆状病毒的感染,可通过选择性的使感染的中肠上皮细胞发生调亡并在释放病毒粒子进入血淋巴之前使感染的细胞从中肠脱落。为研究家蚕抗核型多角体病毒(Bombyx mori nucleopolyhedrovirus, BmNPV)病的机制,通过对BmNPV高度抗性和高度敏感性的家蚕品系杂交和回交构建了近等基因系。本文对家蚕高抗,敏感及近等基因系5龄起蚕中肠组织的蛋白质表达谱进行了二维电泳 (two-dimensional gel electrophoresis,2-DE) 分析,并利用基质辅助激光解吸电离飞行时间 (matrix-assisted laser desorption/ionization-time of flight, MALDI-TOF) 质谱对差异蛋白进行鉴定。结果发现了5个差异表达的蛋白。推测这些蛋白可能与家蚕中肠对BmNPV的抗性或感性有关。     

家蚕核型多角体病毒的基因组结构及其表达模式

Bombyx mori nucleopolyhedrovirus（BmNPV）是家蚕（Bombyx mori）的重要病原,属于杆状病毒。20世纪80年代后期发展了基于杆状病毒作为载体的昆虫杆状病毒表达系统技术。由于家蚕可以规模化饲养,利用重组的BmNPV以家蚕作为“生物工厂”生产重组蛋白因具有低成本、适合产业化的优点而受到高度重视。BmNPV的分子生物学研究以及作为表达载体的应用在过去十几年间得到了较快发展,本文主要就近年来关于BmNPV的基因组结构及其基因表达模式的研究作一概述。     

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.     

家蚕核型多角体病毒的PCR检测及其部分序列分析

为研究应用PCR技术进行家蚕核型多角体病毒广东株的敏感性检验以及探讨不同地理株系的基因水平的相互关系,本文通过对家蚕核型多角体病毒BmNPV广东株的人工繁殖与纯化,引用了一对根据多角体蛋白基因设计的引物phy35/phy36,对BmNPV的基因组模板DNA进行了PCR扩增,并对其产物进行测序分析.结果显示,PCR技术均可扩增检测出3×108个/mL至3×102个/mL不同浓度的BmNPV模板DNA,特异目标片段大小约为680 bp,且扩增带的亮度随着病毒液浓度的降低而减弱,说明应用引物phy35/phy36进行PCR方法可以有效地应用于检测BmNPV病毒感染的家蚕.同时,测序获得了BmNPV广东株多角体蛋白polyhedrin基因674 bp大小的片段,GC含量为46.4%.经过BLAST比对分析,与BmNPV泰国株的相似性为99%,暗示家蚕BmNPV广东株与泰国株的BmNPV (登录号AY779044)亲缘关系非常相近,两者可能属于BmNPV的不同地理株系.通过系统发育树的进一步分析发现,家蚕核型多角体病毒广东株polyhedrin基因部分序列与家蚕NPV分离株S9多角体蛋白基因(DQ231336)关系很近.     

家蚕chi、gluE和fruA基因与微生物相应基因的同源性及基因水平转移初探

通过对家蚕(Bombyxm mori)大规模EST的分析,发现家蚕的chi、gluE和fruA基因分别与微生物的相应基因存在高度的氨基酸序列同源性,且进化关系很近,但与线虫(Caenorhabditis elegans)、果蝇(Drosophila melanogaster)、按蚊(Anopheles gamble)以及家蚕近缘昆虫的类似基因之间的相似性却非常低。这表明它们可能分别与微生物的同源基因具有共同的祖先,即微生物的基因水平转移给了家蚕,进化途径不属于垂直遗传。     

昆虫专性内共生细菌及其基因组研究进展

昆虫专性内共生细菌是一类与宿主昆虫长期协同进化的共生微生物,在许多昆虫体内均有发现,主要存在于昆虫特化的器官(含菌体)内,以垂直传播的方式由母系遗传。专性内共生细菌与昆虫的生存、繁殖以及进化等方面息息相关,其主要功能是为宿主提供必需氨基酸等营养物质。因其长期生活在宿主细胞内处于封闭的高营养的环境中,其基因组的特征与普通细菌基因组有很大区别,包括基因组大小、GC含量、基因缺失等方面。通过对共生细菌基因水平上的深入研究,有助于理解专性内共生细菌在宿主昆虫协同进化过程中的作用。目前,昆虫内共生细菌基因的生物学功能、内共生细菌之间以及内共生细菌与宿主之间的互作机制还不是很清楚,有待进一步的研究和探索。     

Evolutionary and functional analyses of the interaction between the Bombyx mori inhibitor of apoptosis (IAP) and nucleopolyhedrovirus IAPs

As an important insect immune response, apoptosis plays a critical role in the interaction between baculoviruses and insect hosts. Previous reports have identified inhibitor of apoptosis (IAP) proteins in both insects and baculoviruses, but the relationship between these proteins is still not clearly understood. Here, we found that insect IAP proteins were clustered with baculovirus IAP3, suggesting that the baculovirus iap3 gene might be derived from the Lepidoptera or Diptera. We demonstrated that Bombyx mori inhibitor of apoptosis (Bmiap) gene had an inhibitory effect on apoptosis in silkworm cells. Further analysis of the effects of Bmiap genes on the proliferation of B. mori nucleopolyhedrovirus (BmNPV) showed that both the Bmiap and BmNPV iap genes increased BmNPV proliferation after BmNPV infected silkworm cells. Our results also indicated that BmNPV IAP1 and IAP2 directly interacted with BmIAP in silkworm cells, implying that the Bmiap gene might be hijacked by BmNPV iap genes during BmNPV infection. Taken together, our results provide important insights into the functional relationships of iap genes, and improve our knowledge of apoptosis in baculoviruses and insect hosts.     

High-level expression of human acidic fibroblast growth factor and basic fibroblast growth factor in silkworm (Bombyx mori L.) using recombinant baculovirus

A hybrid of Autographa californica nuclear polyhedrosis virus and Bombyx mori nuclear polyhedrosis virus, which is infectious to both Spodoptera frugiperda and Bombyx mori, was prepared in our previous study. Two recombinant hybrid baculoviruses, carrying cDNAs of human acidic and basic fibroblast growth factors, respectively, were successfully constructed in this study, for the large-scale production of human aFGF and bFGF using silkworm as host. These recombinant viruses were used to inoculate silkworm larvae. After the infection, the recombinant proteins were not found in the hemolymph. Such nonsecretion from cells has also been observed in the established insect cell lines, Sf21 and Tn-5. Tissue distribution analysis indicated that the expressed products were mainly located in fat body and the production of the recombinant aFGF and bFGF was maximal at around 80 h postinfection. Therefore, silkworm larvae infected with recombinant viruses were dissected and fat bodies were collected for the purification of recombinant aFGF and bFGF. The expression levels in both cases were estimated to be as high as approximately 600-700 microg per larva. Furthermore, the recombinant proteins were characterized and their biological activities were evaluated by in vitro bioassay using cell culture.     

A genome-wide analysis of genes and gene families involved in innate immunity of Bombyx mori

A genome-wide analysis of innate immunity-related genes and gene families was conducted using the silkworm, Bombyx mori. We identified orthologs for a large number of genes involved in insect immunity that have been reported from Drosophila melanogaster (Diptera), Anopheles gambiae (Diptera), Apis mellifera (Hymenoptera) and Tribolium castaneum (Coleoptera). B. mori has a unique recognition gene and antimicrobial peptide genes that are not present in the Drosophila, Anopheles, Apis and Tribolium genomes, suggesting a lineage-specific gene evolution for lepidopteran insects. The comparative analysis of the insect immune repertoires indicated a dynamic and flexible gene expansion in recognition, modulation and effector mechanisms due to different selection pressures. Differential gene regulation by different bacterial species was found in PGRP and Serpin genes, suggesting that Bombyx has a highly selective gene regulation system depending on bacterial species.     

N-Linked glycosylation of a baculovirus-expressed recombinant glycoprotein in insect larvae and tissue culture cells

The potential of insect cell cultures and larvae infected with recombinant baculoviruses to produce authentic recombinant glycoproteins cloned from mammalian sources was investigated. A comparison was made of the N-linked glycans attached to secreted alkaline phosphatase (SEAP) produced in four species of insect larvae and their derived cell lines plus one additional insect cell line and larvae of one additional species. These data survey N-linked oligosaccharides produced in four families and six genera of the order Lepidoptera. Recombinant SEAP expressed by recombinant isolates of Autographa californica and Bombyx mori nucleopolyhedroviruses was purified from cell culture medium, larval hemolymph or larval homogenates by phosphate affinity chromatography. The N-linked oligosaccharides were released with PNGase-F, labeled with 8- aminonaphthalene-1-3-6-trisulfonic acid, fractionated by polyacrylamide gel electrophoresis, and analyzed by fluorescence imaging. The oligosaccharide structures were confirmed with exoglycosidase digestions. Recombinant SEAP produced in cell lines of Lymantria dispar (IPLB-LdEIta), Heliothis virescens (IPLB-HvT1), and Bombyx mori (BmN) and larvae of Spodoptera frugiperda, Trichoplusia ni , H.virescens , B.mori , and Danaus plexippus contained oligosaccharides that were structurally identical to the 10 oligosaccharides attached to SEAP produced in T.ni cell lines. The oligosaccharide structures were all mannose-terminated. Structures containing two or three mannose residues, with and without core fucosylation, constituted more than 75% of the oligosaccharides from the cell culture and larval samples.      

Baculovirus studies in new,indigenous lepidopteran cell lines

Eight lepidopteran cell lines were established recently and their susceptibility to different insect viruses was studied. Two Spodoptera litura cell lines from the larval and pupal ovaries, were found highly susceptible to S. litura nuclear polyhedrosis virus (SLNPV, 5-6 x 10(6) NPV/ml). The Helicoverpa armigera cell line from the embryonic tissue was highly susceptible to H. armigera NPV (HaNPV, 6.3 x 10(6) NPV/ml). These in vitro grown SLNPV and HaNPV caused 100% mortality to respective 2nd instar larvae. The susceptibility of the cryo-preserved cell lines to respective baculoviruses (SLNPV/HaNPV) was studied and no significant difference in their susceptibility status was observed. The cultures could grow as suspension culture on shakers and may find application for in vitro production of wild type/recombinant baculoviruses as bio-insecticides. S. litura and Bombyx mori cell lines from larval ovaries, were highly susceptible to Autographa californica NPV (5.5 x 10(6) NPV/ml) and Bombyx mori NPV (BmNPV, 6.1 x 10(6) NPV/ml) respectively. These cell lines may find application in baculovirus expression vector studies for the production of recombinant proteins, useful in the development of diagnostic kits or as vaccines.     

A baculovirus-encoded MicroRNA (miRNA) suppresses its host miRNA biogenesis by regulating the exportin-5 cofactor Ran

MicroRNAs have emerged as key players in the regulation of various biological processes in eukaryotes, including host-pathogen interactions. Recent studies suggest that viruses encode miRNAs to manipulate their host gene expression to ensure their effective proliferation, whereas the host limits virus infection by differentially expressing miRNAs that target essential viral genes. Here, we demonstrate that an insect virus, Bombyx mori nucleopolyhedrosis virus (BmNPV), modulates the small-RNA-mediated defense of its host, B. mori, by encoding an miRNA (bmnpv-miR-1) that downregulates the expression of the host GTP-binding nuclear protein Ran, an essential component of the exportin-5-mediated nucleocytoplasmic transport machinery mainly involved in small-RNA transport from the nucleus to the cytoplasm. We demonstrate the sequence-dependent interaction of bmnpv-miR-1 with Ran mRNA using cell culture and in vivo assays, including RNA interference (RNAi) of Ran. Our results clearly show that bmnpv-miR-1 represses Ran, leading to reduction in the host small-RNA population, and consequently, the BmNPV load increases in the infected larvae. Blocking of bmnpv-miR-1 resulted in higher expression levels of Ran and a decrease in BmNPV proliferation. In contrast, blockage of host miRNA, bmo-miR-8, which targets the immediate-early gene of the virus and whose production was repressed upon bmnpv-miR-1 and Ran dsRNA administration, resulted in a significant increase in the virus load in the infected B. mori larvae. The present study provides an insight into one of the evasion strategies used by the virus to counter the host defense for its effective proliferation and has relevance to the development of insect virus control strategies.