Inductive expression and characterization analysis of Paralichthys olivaceus pigment epithelium-derived factor in a virally infected cell line

Pigment epithelium-derived factor (PEDF) is acknowledged to be a non-inhibitory member of the serine protease inhibitor (serpin) superfamily, with antiangiogenesis, and neuroprotective and immumoregulatory function, mainly in the tissues of nervous system. Here, A PEDF gene homolog, Paralichthys olivaceus PEDF (PoPEDF), was isolated from flounder embryonic cells (FEC) treated with UV-inactivated Grass carp hemorrhage virus (GCHV) and subsequently identified as a differentially expressed gene. The full length of PoPEDF cDNA is 1803 bp with an open reading frame of 1212 bp encoding a 403-amino-acid protein. This deduced protein contains an N-terminal signal peptide, a glycosylation site, a consensus serpin motif, and a 34-mer and a 44-mer fragment, all of which are very conserved in the PEDF family. PoPEDF gene exhibits a conserved exon-intron arrangement with 8 exons and 7 introns. This conserved evolutionary relationship was further confirmed by a phylogenetic analysis, where fish PEDFs and mammalian members formed a well-supported clade. Constitutive expression of PoPEDF was widely detected in many tissues. In response to UV-inactivated GCHV or poly(I:C), PEDF mRNA was upregulated in FEC cells with time. This is the first report on the transcriptional induction of PEDF in virally infected cells. (C) 2005 Elsevier Inc. All rights reserved.

De novo RNA synthesis and homology modeling of the classical swine fever virus RNA polymerase

Classical swine fever virus (CSFV) non-structural protein 5B (NS5B) encodes an RNA-dependent RNA polymerase (RdRp), a key enzyme which initiates RNA replication by a de novo mechanism without a primer and is a potential target for anti-virus therapy. We expressed the NS5B protein in Escherichia coli. The rGTP can stimulate de novo initiation of RNA synthesis and mutation of the GDD motif to Gly-Asp-Asp (GAA) abolishes the RNA synthesis. To better understand the mechanism of viral RNA synthesis in CSFV, a three-dimensional model was built by homology modeling based on the alignment with several virus RdRps. The model contains 605 residues folded in the characteristic fingers, palm and thumb domains. The fingers domain contains an N-terminal region that plays an important role in conformational change. We propose that the experimentally observed promotion of polymerase efficiency by rGTP is probably due to the conformational changes of the polymerase caused by binding the rGTP. Mutation of the GDD to GAA interferes with the interaction between the residues at the polymerase active site and metal ions, and thus renders the polymerase inactive. (c) 2005 Elsevier B.V. All rights reserved.

Identification, cloning, and characterization of microsatellite DNA in Euglena gracilis

Microsatellite DNA has been developed into one of the most popular genetic markers. We have identified and cloned microsatellite loci in the genome of a free-living protozoan Euglena gracilis FACHB-848, using the random amplified microsatellites method (RAMS). The digoxigenin-labelled oligonucleotides(CT)(10) and (GT)(10) served as probes to detect complementary sequences in the randomly amplified polymorphic DNA (RAPD) fingerprints produced by means of Southern blotting. Subsequently, positive RAPD fragments were cloned. From a total of 31 RAPD primer profiles, eight microsatellite loci of E. gracilis were detected and characterized. Further, six sites (i.e. EGMS1, EGMS3, EGMS4, EGMS5, EGMS6, and EGMS7) showed polymorphisms. We found a GT or CT microsatellite every 10.5 kb in the genome of E. gracilis, and similar to animal genomes, the (GT)(n) motif was much more abundant than the (CT)(n) motif. These polymorphic microsatellite DNA will serve as advantageous molecular markers for studying the genetic diversity and molecular ecology of Euglena.

Molecular cloning of TRAF2 binding protein gene and its promoter region from the grass carp Ctenopharyngodon idellus

A tumor necrosis factor receptor-associated factor 2 binding protein (T2BP) gene was isolated from the grass carp (Ctenopharyngodon idellus) by utilizing suppression subtractive hybridization (SSH) and rapid amplification of cDNA ends (RACE). The grass carp T2BP (GT2BP) gene contains an open reading frame of 579 nucleotide(s) (nt), encoding 193 amino acids, with 23 nt 5'-untranslated region and a long 3'-untranslated region of 434 nt including poly (A), 1 AUUUA motif and 4 AUUUUA motifs. No signal peptide has been detected in the predicted GT2BP, but a characteristic forkhead associated domain is present. The GT2BP mRNA shares 83% identity with the zebrafish DNA sequence, and they both have no introns in the genomic DNA. The putative transcription factor binding sites of GT2BP include two C/EBP alpha binding sites, and one c-Jun binding, one AP-1 binding, and one nuclear factor kappa B (NF kappa B) binding sites. Southern blot analysis revealed that the GT2BP was a single-copy gene. Individual difference was observed in GT2BP expression in examined organs of healthy grass carp. However, the expression of GT2BP in all examined organs in a fish with the highest copepod infection level and the significantly higher expression level in spleen and liver in infected fish may indicate its up-regulation with the parasite infection. (c) 2005 Elsevier B.V. All rights reserved.

Complex mutation at a microsatellite locus in sturgeons: Acipenser sinensis, A-schrenckii, A-gueldenstaedtii and A-baerii

Cross-species amplifications of microsatellite locus Spl-106, which was originally screened from the genome of shovelnose sturgeon (Scaphirhynchus platorynchus) with a perfect TAGA repeat motif, were carried out in four other species of the genera Acipenser. A total of 34 polymerase chain reaction (PCR) products representing 16 different alleles of this locus was sequenced. Sequence analysis results showed that besides the number changes of repeat units, many mutational events, such as single-base substitutions and various insertion/deletion (indels) occurred not only at species level but also at individual level, even among the different alleles within the same individual. The repeat motifs varied from perfect (TAGA)n array to perfect compound (TAAA)m (GAAA)n and perfect or imperfect compound (TAAA)m (TAGA)n (TAAA)x arrays in different species and different individuals. The evolution dynamics of this locus in sturgeons was inferred in that it may evolve from a single perfect to different perfect or imperfect compounds.

Characterization of two membrane-associated protease genes obtained from screening out-membrane protein genes of Flavobacterium columnare G(4)

In order to identify genes encoding the outer membrane proteins (OMPs) of the myxobacter Flavobacterium columnare G(4), the expression library of the bacterium was screened by using rabbit antisera developed against its OMPs. Positive colonies of Escherichia coli M15 containing fragments encoding the bacterial OMPs were selected for cloning the relevant genes by genomic walking methods. Two genes encoding a membrane-associated zinc metalloprotease and prolyl oligopeptidase are reported in this paper. The membrane-associated zinc metalloprotease gene (map) is 1800 bp in length, coding for 449 amino acids (aa). Despite the presence of a conserved motif HEXXH for all metalloproteases, the special HEXXH similar to 32 aa similar to E motif of the F. columnare G(4) Map and its low level of identity with other reported zinc-containing metalloproteases may imply that the membrane-associated zinc metalloprotease of F. columnare G(4) represents a new family of zincins. The gene encoding prolyl oligopeptidase (Pop), a serine proteinase, is 2352 bp in length, coding for 649 aa. Sequence homology analysis revealed that the Pop is also novel as it has <50% identity with other reported prolyl oligopeptidase family proteins. The present study represents the first to employ anti-fish bacterial OMP sera to screen genes of membrane-associated proteases of fish pathogenic bacteria, and to provide necessary information for the examination of the role of the two genes in the infection and pathogenesis of F. columnare.

Differential expression of two Carassius auratus Mx genes in cultured CAB cells induced by grass carp hemorrhage virus and interferon

UV-inactivated GCHV (grass carp hemorrhage virus) is able to induce an antiviral state in cultured CAB cells (crucian carp Carassius auratus blastulae embryonic cells) via the production of interferon (IFN). In the current work, the full-length cDNAs of two Mx genes, termed CaMx1 and CaMx2, have been cloned and sequenced from UV-inactivated GCHV-infected and still IFN-producing CAB cells by suppression subtractive hybridization. Their putative proteins show the characteristically structural features of mammalian IFN-induced Mx proteins, including GTP-binding motif, dynamin family signature and leucine zipper motif. CaMx1 exhibits 85% sequence identity to zebrafish MxA and 72-74% to three Atlantic salmon Mx proteins. CaMx2 is most similar to zebrafish MxE, with 80% identity, and then rainbow trout Mx3, with 52%. Constitutive expression was detected by RT-PCR for CaMx1, but not for CaMx2, in normal CAB cells, but their up-regulations could be induced after treatment with active GCHV, UV-inactivated GCHV and CAB IFN. Distinct kinetics of expression was observed for either CaMx1 or CaMx2 corresponding to the three stimuli, and even between CaMx1 and CaMx2, corresponding to the same stimulus. Upon virus infection, the transcriptional induction was strongly blocked for CaMx2 by cycloheximide (CHX), whereas almost nothing was observed for CaMx1. By contrast, following treatment with CAB IFN, CHX did not inhibit either gene transcription. Collectively, these results suggest that there are very distinct mechanisms for modulating the expression of both CaMx1 and CaMx2 in normal and GCHV-infected CAB cells.

Molecular cloning and characterization of crucian carp (Carassius auratus L.) interferon regulatory factor 7

Interferon (IFN) can induce an antiviral state via interferon-regulatory transcription factors (IRFs), which bind to and control genes directed by the interferon-stimulated response element (ISRE). Here we describe a fish IRF, termed CaIRF7, cloned from a subtractive cDNA library which is constructed with mRNAs obtained from crucian carp (Carassius auratus L.) blastulae embryonic (CAB) cells infected by UV-inactivated GCHV and mock-infected cells. CaIRF7 cDNA was found to be 1816 bp in length, with a 42 bp 5' UTR and a 508 bp 3' UTR. The open reading frame translates into 421 amino acids in which a DNA-binding domain (DBD) containing the repeated tryptophan motif and IRFs association domain have been identified. Like chicken GgIRF3, CaIRF7 was most similar to mammalian IRF7 with 27 to 30% identity overall and some 37% identity in their DBDs. A single transcript of 1.9 kb was detected in virally induced CAB cells by virtual Northern blotting. RT-PCR analysis revealed a wide tissue distribution of CaIRF7 constitutive expression, with detectable transcript in non-infected CAB cells and various tissues of healthy crucian carp. In addition, CaIRF7 expression was differentially increased by stimulation of the CAB cells with active GCHV, UV-inactivated GCHV or CAB IFN, indicating that the activation of CaIRF7 was directly regulated by IFN. (C) 2003 Published by Elsevier Ltd.

Structure-function analysis of the inverted terminal repeats of the Sleeping Beauty transposon

Translocation of Sleeping Beauty (SB) transposon requires specific binding of SB transposase to inverted terminal repeats (ITRs) of about 230 bp at each end of the transposon, which is followed by a cut-and-paste transfer of the transposon into a target DNA sequence. The ITRs contain two imperfect direct repeats (DRs) of about 32 bp. The outer DRs are at the extreme ends of the transposon whereas the inner DRs are located inside the transposon, 165-166 bp from the outer DRs. Here we investigated the roles of the DR elements in transposition. Although there is a core transposase-binding sequence common to all of the DRs, additional adjacent sequences are required for transposition and these sequences vary in the different DRs. As a result, SB transposase binds less tightly to the outer DRs than to the inner DRs. Two DRs are required in each ITR for transposition but they are not interchangeable for efficient transposition. Each DR appears to have a distinctive role in transposition. The spacing and sequence between the DR elements in an ITR affect transposition rates, suggesting a constrained geometry is involved in the interactions of SB transposase molecules in order to achieve precise mobilization. Transposons are flanked by TA dinucleotide base-pairs that are important for excision; elimination of the TA motif on one side of the transposon significantly reduces transposition while loss of TAs on both flanks of the transposon abolishes transposition. These findings have led to the construction of a more advanced transposon that should be useful in gene transfer and insertional mutagenesis in vertebrates. (C) 2002 Elsevier Science Ltd. All rights reserved.

基因电路研究综述

基因网络相关的研究是生物信息学的重要研究领域．基因电路方法是目前基因网络研究的一种重要方法，本文从以下角度介绍基因电路研究的进展情况及相关研究成果；构成基因电路的基本模块；基因电路的设计与实现；人工基因电路的应用．

基于核酸特殊结构的分子识别及核酸相关纳米结构的设计应用

核酸为生命的最基本物质之一，是生物体遗传信息的携带者，在生长、遗传、变异等一系列重大生命现象中起决定性的作用。以核酸作为新药设计的靶分子，越来越受到人们的广泛重视。然而，不像其它靶分子如蛋白质、受体等具有特定的结构和功能，核酸结构在很多情况下是同源的，而且联系到很多人体正常的生理功能；能够与核酸结合的药物又往往不具有序列选择性，这就带来明显的毒副作用。因此，寻找和发现一些与疾病相关的核酸的特殊结构，并筛选对其有特异性结合能力的小分子，是以核酸为靶的药物研究的一个重要课题。 近年来，随着纳米科学技术的兴起，以核酸作为纳米体系的结构材料开始受到人们的广泛关注。作为一类特殊的线性高分子，核酸具有化学性质稳定，结构丰富且可控，良好的刚性和柔性，精确识别，高度生物相容性，合成方便等诸多优点，是一类优良的结构材料。目前核酸相关的纳米组装结构和器件研究还处于起步阶段，但是已经呈现出良好的发展前景。 本论文主要针对核酸特殊结构的分子识别及核酸相关功能纳米结构的设计这两方面展开了研究，全文由以下两大部分组成： 第一部分通过光谱学和生物化学等手段，研究了小分子对不同核酸结构的识别作用。借助于竞争平衡透析技术，发现一类恶嗪染料(oxazine dyes)能够与多种结构核酸结合。热变性及光谱实验结果表明，oxazine染料能够诱导杂合体三链核酸poly(rA):2poly(dT)的形成，并强烈地稳定其结构，其中以cresyl violet作用最强，是迄今发现的化合物中最强的。进一步研究发现，此类化合物以嵌插方式与杂合体三链核酸结合。RNase H酶切实验表明，杂合体三链核酸的形成能够强烈地抑制RNase H核酸酶的活性。研究了oxazine-170与三链核酸poly(dA):2poly(dT)及poly(rA):2poly(rU)的相互作用，发现oxazine-170能够强烈稳定三链DNA poly(dA):2poly(dT)的结构，而对相应双链DNA不具稳定作用；对三链RNA poly(rA):2poly(rU)及相应的双链RNA都有一定稳定作用，但作用不强。进一步研究发现，oxazine-170能够以两种结合方式与核酸结合：嵌插方式和外部静电堆积作用。研究了oxazine-170及cresyl violet与单链核酸的相互作用。研究发现oxazine-170能够序列特异性地与单链核酸poly(rA) 结合，CD光谱及AFM研究发现oxazine-170诱导poly(rA)形成新的二级结构。UV光谱、FL光谱及RLS研究发现poly(rA)促使oxazine 170形成H-aggregate，并以poly(rA)为模板自组装。而cresyl violet能够与单链核酸poly(rA)及poly(dA)结合，且采用不同的结合方式： cresyl violet能够与oxazine-170 类似地以poly(rA)为模板自组装；以嵌插方式与poly(dA)结合，并诱导其单链碱基堆积方式的改变。通过以上实验结果，我们进一步揭示了oxazine染料作为肿瘤细胞染色及光动力学治疗试剂的结构基础，对进一步设计、合成更加高效的抗肿瘤药物具有一定的指导意义。 第二部分中，我们尝试设计了几种基于核酸的纳米结构功能体系，并讨论了其相关应用。利用有机小分子coralyne能够诱导聚腺嘌呤序列反平行双链结构的形成，实现了一类新型的小分子诱导的纳米金组装结构。并以(dA)16功能化的金纳米粒子作为新型纳米探针，发展了一种简单的筛选单链核酸聚腺嘌呤序列结合分子的筛选方法。利用核酸限制性内切酶酶切位点回文序列的结构特点，设计了一种以DNA功能化的金纳米粒子组装体为酶切底物的比较通用的核酸限制性内切酶活力检测方法，并进一步用于甲基化酶活性检测及其抑制剂的筛选。基于单链DNA富胞嘧啶i-motif结构在不同pH值条件下的形成与解离，设计了一类质子驱动的DNA分子镊子，与基于链交换反应的DNA分子镊子相比，该体系更加简单，工作效率更高。随后，我们又通过合理设计，得到了两种分别能够结合与释放DNA和蛋白的分子镊子，为其应用做了一些探索。

非洲爪蟾Brunol1 基因的功能以及文昌鱼肌动蛋白基因家族扩增的研究

BRUNOL 蛋白又称CELF（CUG-BP and ETR3 like factor）是一种典型的RNA 结合蛋白，它的N 端含有两个连续的RNA 识别结构域（RNA recognition motif，RRM)， C 端有一个RRM 结构域。主要参与对可变剪切、翻译、降解和编辑等基因表达转录后水平的调节。迄今在人类中已发现6 个Brunol 基因家族成员，即Brunol1-6；在非洲爪蟾中已发现了5 个：Brunol1-5。近期，我们克隆了爪蟾的Brunol1-5 并研究了它们在非洲爪蟾早期胚胎发育过程中的时空表达图式。结果显示，与以往研究结果一致， Brunol1 基因高量、特异地在神经管中表达，提示Brunol1 基因可能对于爪蟾的神经系统的发生和发育发挥着重要的作用。本实验利用Morpholino 和过表达等手段研究了爪蟾Brunol1 基因对于爪蟾早期胚胎发育的影响。结果显示，在下调和过表达Brunol 1 基因的情况下都会导致胚胎出现体轴弯曲，眼睛和头部发育不全等表型。而将 Brunol1 基因特异的Morpholino 与它的mRNA 共注射时可以明显挽救这一表型。我们通过原位杂交实验，检测了一些爪蟾神经系统的标记基因在Brunol1 过表达胚胎中的表达情况，结果发现过表达Brunol1 基因能显著地下调Krox-20, N-tubulin, Lhx2, Pax6 等的表达，而Sox2 和Otx2 的表达却未受影响。这说明Brunol1 的异常表达确实影响到了神经系统发育过程的信号调控网络，导致胚胎发育的畸形。该结果将有助于阐述Brunol1 基因对于脊椎动物神经系统发生的意义。肌动蛋白是一种分布广泛而且在进化上十分保守的蛋白，它是构成细胞骨架的关键组分。通常人们将肌动蛋白分成肌肉型和胞质型两种类型，它们各自行使着不同的功能。在此，我们通过对古老的脊索动物文昌鱼的肌动蛋白基因家族进行系统的分析发现，文昌鱼中该基因家族成员多达30 多个，而且它们中很多都有连锁现象；进化分析的结果显示，文昌鱼的肌动蛋白基因家族通过串联重复序列的复制发生扩增；从结构上看，它们的基因结构多样化, 包含2-7 个外显子；同时，我们还克隆了两个不同的文昌鱼肌肉型的肌动蛋白基因，并进一步比较了它们在文昌鱼早期胚胎中的表达图式。结果显示，这两个基因在表达上有着细微的差别，这提示文昌鱼肌动蛋白基因家族成员在功能上的分化。该结论将有助于阐述肌动蛋白基因家族的进化以及它们在脊索动物发育的中所扮演的功能。

恒河猴TRIM5α 的组织分布及TRIMCyp 限制HIV-1 病毒颗粒产生的初步研究

三重基序蛋白TRIM5α(Tripartite motif protein 5 alpha)是哺乳动物细胞中一种重要的限制因子，广泛分布于各种哺乳动物细胞中。人类TRIM5α mRNA 广泛表达于人类各个组织中，并且I 型干扰素IFN-α/β/γ 均能与TRIM5α 基因启动子的ISRE 元件结合，上调TRIM5α mRNA 的表达。恒河猴(Macaca mulatta)TRIM5α 是恒河猴体内重要的限制因子。目前对恒河猴尤其是中国恒河猴TRIM5α 的组织分布以及在受到外界刺激时TRIM5α mRNA 表达量的变化研究还未见报道。本论文通过从中国恒河猴各组织中提取总RNA，以β-actin 基因作为内参照，通过逆转录PCR 检测各组织中TRIM5α mRNA 的表达。我们选择用HIV-GFP-VSVG 感染、用佛波脂(Phorbol myfismte acetate, PMA)+离子霉素(Ionomycin, Ion)，CD28 抗体+CD49d 抗体分别共刺激恒河猴PBMC，研究不同刺激对中国恒河猴TRIM5α mRNA 表达量的影响。研究发现：TRIM5α mRNA 广泛表达于恒河猴各组织中，在免疫系统和泌尿生殖系统各组织，如腹淋巴结、睾丸和附睾中表达量最高，而在神经系统各组织如大脑、脊髓中表达量比较少，在其他各组织中未见明显的表达差异。此外HIV-GFP-VSVG 感染、PMA+ Ion 与CD28 抗体+CD49d 抗体分别共刺激PBMC 均能促进PBMC TRIM5α mRNA 表达量的上调。 TRIM5α 作为恒河猴体内的最主要的限制HIV-1 感染的限制因子，除了可能通过促进HIV-1 的脱壳和阻止整合前复合物PIC(pre-integration complex)入核，恒河猴TRIM5α 还能限制HIV-1 病毒颗粒的产生。在这个过程中B30.2 结构域是非必需的，而B-box2 和Coiled-Coil 结构域起着决定性的作用。因为鹰猴(Aotes trivirgatus)TRIMCyp(omTRIMCyp) 蛋白和北平顶猴(Macaca leouina) TRIMCyp(npmTRIMCyp）蛋白的B-box2 和Coiled-Coil 结构域与恒河猴TRIM5α 的B-box2 和Coiled-Coil 具有很高的同源性，我们希望了解鹰猴TRIMCyp 蛋白和北平顶猴TRIMCyp 蛋白对HIV-1 病毒颗粒的产生是否有限制作用。本论文主要通过将质粒pNL4.3 分别与质粒pLPCX 、pLPCX-npmTRIMCyp-HA 、 pLPCX-omTRIMCyp-HA和pLPCX-rhTRIM5α-HA共转染293T细胞，通过western blot 检测细胞内Gag 蛋白和TRIM5 蛋白的表达情况，研究omTRIMCyp 蛋白和 npmTRIMCyp 蛋白对HIV-1 病毒颗粒产生的限制作用。结果表明：北平顶猴 TRIMCyp 蛋白、鹰猴TRIMCyp 蛋白都能不同程度的促进HIV-1 病毒Gag 蛋白的降解。

TRIM5-CypA融合基因与北平顶猴易感HIV-1的机制研究

天然免疫分子TRIM5α（tripartite motif protein 5α）是近年来发现的一种重要的宿主细胞内逆转录病毒限制因子。在灵长类动物细胞中，TRIM5α蛋白可以在病毒进入细胞后、逆转录前的阶段抑制HIV-1、N-MLV和EIAV等逆转录病毒的复制。由于TRIM5α分子的作用，绝大部分旧大陆猴（Old World monkey）都不能感染HIV-1。而在新大陆猴（New World monkey）中，鹰猴是唯一不感染HIV-1的灵长类动物。研究证明，鹰猴细胞中存在的TRIM5-CypA融合蛋白（owl monkey TRIM5-CypA，omTRIMCyp）介导了抗HIV-1的作用，从而使鹰猴不能感染HIV-1。研究证明，平顶猴是旧大陆猴中唯一报道可以感染HIV-1的灵长类动物，但是其感染HIV-1的机制并不清楚。根据现行的灵长类动物分类学，原属平顶猴群体（M. nemestrina group）的三个亚种分为猕猴属的三个不同种：巽他平顶猴（Sunda pig-tailed macaque，M. nemestrina），北平顶猴（Northern pig-tailed macaque，M. leonina）和明打威猴（Mentawai macaque，M. pagensis）。本论文对中国云南境内北平顶猴TRIM5基因座和感染HIV-1的相关性进行了研究。通过PCR和测序对北平顶猴基因组TRIM5基因座进行分析，发现一个CypA假基因的cDNA通过逆转座机制插入至TRIM5基因座的3’-UTR区域，形成了一个不同于鹰猴TRIM5-CypA的新型融合基因npmTRIMCyp（northern pig-tailed macaque TRIM5-CypA）。通过RT-PCR对npmTRIMCyp融合基因的转录本进行分析，我们鉴定出npmTRIMCyp共有3种不同的选择性剪接产物，分别为npmTRIMCypV1-V3。进一步克隆和测序这3种不同选择性剪接体，通过丰度和序列分析证实：npmTRIMCypV2是优势剪接体，可能在该融合基因产物的功能中发挥作用。研究发现北平顶猴npmTRIMCyp融合基因主要转录本中外显子7和8均被剪切掉。外显子7剪接丢失机制源于TRIM5第6内含子内 3’剪接位点的G/T突变。我们克隆了npmTRIMCyp融合基因cDNA的蛋白编码区ORF，并构建了重组表达npmTRIMCyp的载体，转染HeLa和HeLa-T4细胞并获得稳定表达的细胞株。通过感染HIV-1证实，npmTRIMCyp融合蛋白不能够限制HIV-1的感染和复制，这可能是北平顶猴作为旧大陆猴中唯一对HIV-1易感的灵长类动物的重要分子机制之一。通过HIV-1感染灵长类动物PBMCs实验证实，北平顶猴可以感染HIV-1。npmTRIMCyp可以有效地限制HIV-2ROD的复制，但对SIVmac239只有十分微弱的限制活性。通过构建鹰猴omTRIMCyp和北平顶猴npmTRIMCyp的置换剪接体（SWAP-1和SWAP-2），转染融合基因及其置换剪接体的CRFK细胞激光共聚焦实验证明，npmTRIMCyp、SWAP1和SWAP2在细胞内主要存在于胞浆中。稳定表达融合蛋白和置换剪接体的CRFK细胞感染HIV-1-GFP-VSVG分析表明，含omTRIMCyp外显子7的SWAP-1和SWAP-2均具有限制HIV-1活性，但SWAP-1的活性更强一些，这表明TRIM5结构域的外显子7可能在介导对HIV-1的限制活性中发挥了协同辅助作用。免疫共沉淀研究表明，npmTRIMCyp不能识别和结合HIV-1的衣壳蛋白。对北平顶猴中介导识别逆转录病毒区域的基因组部分进行了测序，共鉴定出46个多态性位点，表明在北平顶猴识别逆转录病毒衣壳区域存在较高的多态性。

真核生物FBPase和SBPase的进化研究

迄今为止，卡尔文循环是真核生物中唯一的二氧化碳固定途径。卡尔文循环利用NADPH和ATP将CO2转变成有机物，是自然界中有机物的主要来源。虽然，卡尔文循环中的酶促反应过程早在1956年就已经阐明，多数参与光合真核生物卡尔文循环的酶/基因的起源也有了较多的研究。但是，循环的5个关键酶中FBPase和SBPase的起源问题依然存在争议。本文首先对处于光合真核生物进化的关键地位的两种绿藻——衣藻和团藻中的FBPase进行了研究，进而对真核FBPase和SBPase进行了分子系统分析，以探讨光合真核生物中卡尔文循环的起源。 本研究发现：不同于一般光合真核生物中FBPase具有“胞质型”和“叶绿体型”两种亚型（分别参与糖异生途径和卡尔文循环），衣藻和团藻的基因组中只有一个编码叶绿体定位的FBPase （FBPase1）基因；多序列比对结果显示，FBPase1具有叶绿体型FBPase特有的参与光调节的氨基酸片段插入。再结合别人的“衣藻中的FBPase1的酶活性受光调节”的实验证据，本文认为该FBPase1为叶绿体型FBPase。有意思的是，通过搜索衣藻和团藻的基因组，本文发现了一个新型的FBPase酶基因（fbp2）。RT-PCR结果和EST数据均显示该基因在这两种绿藻中具转录活性。通过组装EST序列，获得了衣藻fbp2的cDNA和相应的蛋白序列。分析显示两种绿藻fbp2编码的氨基酸序列包含Li+-敏感磷酸酶基序（motif）和II类FBPase特有的FBPase_glpX结构域（domain）。这表明，该基因编码的蛋白（FBPase2）是II类FBPase。这是第一次在真核生物中鉴定得到这种原核型II类FBPase。分子系统分析进一步揭示了衣藻和团藻的共同祖先可能通过一次古老的水平基因转移事件，从放线杆菌亚纲的共同祖先中获得了该基因。由于放线杆菌亚纲II类FBPase具有胞质型FBPase的重要特征，因此推测所发现的FBPase2具有胞质型FBPase的特征。软件预测该FBPase2具有约20aa的信号肽，为叶绿体定位。再加上有研究表明衣藻的糖异生途径主要发生在叶绿体中。因此本文认为衣藻和团藻中也有两个FBPase同功酶；但与其它光合真核生物不同的是，胞质型FBPase发生了丢失，取而代之的是原核型II类FBPase参与其叶绿体中的糖异生途径。这种FBPase的不同情形很可能与这两种绿藻中独特的代谢途径区室化有关。 I 在细菌中，果糖-1，6-二磷酸和景天庚酮糖-1，7-二磷酸的去磷酸化是由果糖-1，6-/景天庚酮糖-1，7-二磷酸酶（F/SBPase）双功能酶催化的；但是，在光合真核生物中却是由底物特异的叶绿体型FBPase和SBPase分别催化的。通过结构域分析，本文发现细菌F/SBPase双功能酶可以划分为进化关系很远的两类（I类和II类）。通过选取来自更多细菌类群的代表序列，与真核FBPase和SBPase一起进行分子系统分析。结果显示，FBPase和SBPase既不是起源于I类F/SBPase双功能酶，也不是起源于II类F/SBPase双功能酶；而是分别起源于不同的真细菌I类FBPase。真核FBPase并没有与α-变形菌或蓝细菌FBPase聚在一起，却与不同类群细菌FBPase形成的clade形成姐妹枝。因此，尚不能明确真核FBPase起源于那类真细菌。真核SBPase形成的clade与ε-变形菌FBPase形成的clade在一起形成姐妹枝，表明SBPase很可能是通过一种未知机制起源于ε-变形菌的FBPase。 最后，基于上述研究结果并结合其它研究事实，本文还对光合真核生物中卡尔文循环的起源进行了探讨。