Molecular characterization of calreticulin from Anopheles stephensi midgut cells and functional assay of the recombinant calreticulin with Plasmodium berghei ookinetes

Transmission blocking vaccines (TBVs) that target the antigens on the midgut epithelium of Anopheles mosquitoes are among the promising tools for the elimination of the malaria parasite. Characterization and analysis of effective antigens is the first step to design TBVs. Calreticulin (CRT), a lectin-like protein, from Anopheles albimanus midgut, has shown antigenic features, suggesting a promising and novel TBV target. CRT is a highly conserved protein with similar features in vertebrates and invertebrates including anopheline. We cloned the full-length crt gene from malaria vector, Anopheles stephensi (AsCrt) and explored the interaction of recombinant AsCrt protein, expressed in a prokaryotic system (pGEX-6p-1), with surface proteins of Plasmodium berghei ookinetes by immunofluorescence assay. The cellular localization of AsCrt was determined using the baculovirus expression system. Sequence analysis of the whole cDNA of AsCrt revealed that AsCrt contains an ORF of 1221 bp. The amino acid sequence of AsCrt protein obtained in this study showed 64% homology with similar protein in human. The AsCrt shares the most common features of CRTs from other species. This gene encodes a 406 amino-acid protein with a molecular mass of 46 kDa, which contains a predicted 16 amino-acid signal peptides, conserved cysteine residues, a proline-rich region, and highly acidic C-terminal domain with endoplasmic reticulum retrieval sequence HDEL. The production of GST-AsCrt recombinant protein was confirmed by Western blot analysis using an antibody against the GST protein. The FITC-labeled GST-AsCrt exhibited a significant interaction with P. berghei ookinete surface proteins. Purified recombinant GST-AsCrt, labeled with FITC, displayed specific binding to the surface of P. berghei ookinetes in comparison with control. Moreover, the expression of AsCrt in baculovirus expression system indicated that AsCrt was localized on the surface of Sf9 cells. Our results suggest that AsCrt could be utilized as a potential target for future studies in TBV area for malaria control.     

Studies on Plasmodium Ookinetes. 1. Isolation and Concentration from Mosquito Midguts*

SYNOPSIS. In a method for isolating a relatively clean suspension of concentrated Plasmodium berghei ookinetes from infected midguts of Anopheles stephensi at appropriate times after the infective blood meal, the ookinetes are freed from the midguts by enzymatic digestion, and then concentrated by means of a BSA/renografin gradient. The mean number of ookinetes recovered/midgut was 152. More than 95% of the recovered ookinetes were viable by the criteria of motility, incorporation of adenosine and leucine, and appearance on light and electron microscopic examination. Trypan blue exclusion was not a valid criterion for viability. These ookinetes were not useful for in vitro studies of further development due to the presence of contaminating microorganisms. Our attempts to determine their potential for further development in vivo have similarly not been successful. Nevertheless, our ability to obtain large numbers of ookinetes at defined times during development now permits further studies on their structure, biochemistry, and physiology, as well as comparison with ookinetes formed in vitro.     

Monoclonal antibodies AC-43 and AC-29 disrupt <Emphasis Type="Italic">Plasmodium vivax</Emphasis> development in the Indian malaria vector <Emphasis Type="Italic">Anopheles culicifacies</Emphasis> (Diptera: culicidae)

A repertoire of monoclonal antibodies (mAbs) was generated against the midgut proteins of Anopheles culicifacies mosquitoes. The mAbs AC-43 and AC-29 significantly inhibited Plasmodium vivax development inside the mosquito midgut. The number of oocysts that developed was reduced by 78.6% when mosquitoes ingested a combination of these two mAbs along with the blood meal. AC-43 mAb binds to the epitope common in 97, 80 and 43 kDa polypeptides from the midgut protein extract, as indicated by western blot analysis. Similarly, the mAb AC-29 recognized 52, 44, 40 and 29 kDa polypeptides. These female midgut-specific polypeptides are shared between An. culicifacies and An. stephensi, two major vectors of malaria in India. Deglycosylation assays revealed that O-linked carbohydrates are the major components in epitopes corresponding to AC-43 and AC-29. Gold particle labelling revealed that both these mAbs preferentially bind to glycoproteins at the apical microvilli and the microvillus-associated network present inside transverse sections of the gut epithelium. These regions are particularly known to have receptors for ookinetes, which enable them to cross this epithelial barrier and provide them with certain necessary chemicals or components for further development into oocysts. Therefore, these glycoproteins appear to be potential candidates for a vector-directed transmission-blocking vaccine (TBV).     

Molecular cloning and expression profiles of calreticulin gene from the diamondback moth,Plutella xylostella

Calreticulin (CRT) plays pivotal roles in Ca²⁺ homeostasis, molecular chaperoning, infection, inflammation and innate immunity. In an attempt to study the involvement of CRT in innate immunity, the full-length cDNA of calreticulin (PxCRT) was cloned from the diamondback moth, Plutella xylostella. It consists of 1674 bp (excluding poly-A tail) with a longest open reading frame (ORF) of 1197 bp encoding 398 amino acids. In silico analysis of PxCRT ORF reveals that it has various repeat motifs and endoplasmic reticulum retention signal found in all the calreticulin proteins. As expected, high amino acid sequence identities were found from other CRTs identified from Bombyx mori (87%), Galleria mellonella (87%), Apis mellifera (74%), Anopheles gambiae (74%), Tribolium castaneum (73%), Culex quinquefasciatus (73%), Rhodnius prolixus (72%), Nasonia vitripennis (71%), Drosophila melanogaster (71%) and Haemaphysalis qinghaiensis (68%). During development, P. xylostella expressed PxCRT predominantly in the pupal stage. In addition, spatial expression pattern analysis indicates that PxCRT was highly expressed in the silk gland. PxCRT mRNA, furthermore, was strongly induced 3 to 6 h after laminarin treatment, suggesting that PxCRT appears to be involved in immune responses and also plays an important role in the silk gland.     

Morphological evidence for proliferative regeneration of the Anopheles stephensi midgut epithelium following Plasmodium falciparum ookinete invasion

Ookinetes are motile invasive stages of the malaria parasite that enter the midgut epithelium of the mosquito vector via an intracellular route. Ookinetes often migrate through multiple adjacent midgut epithelial cells, which subsequently undergo apoptosis/necrosis and are extruded from the midgut epithelium into the midgut lumen. Hundreds of ookinetes may simultaneously invade the midgut epithelium, causing destruction of an appreciable proportion of the total number of midgut epithelial cells. However, there is little evidence that ookinete invasion of the midgut epithelium per se is detrimental to the survival of the mosquito vector implying that efficient mechanisms exist to restore the damaged midgut epithelium following malaria parasite infection. Proliferation and differentiation of precursor stem cells could replace the midgut epithelial cells destroyed and lost as a consequence of ookinete invasion. Although the existence of so-called “regenerative” cells within the mosquito midgut epithelium has long been recognized, there has been no previously published evidence for proliferation/differentiation of these putative precursor midgut epithelial cells in mature adult female mosquitoes. In the current study, examination of Giemsa-stained histological sections from Anopheles stephensi mosquito midguts infected with the human malaria parasite Plasmodium falciparum provided morphological evidence that regenerative cells undergo division and subsequent differentiation into normal columnar midgut epithelial cells. Furthermore, the number of these putatively proliferating/differentiating regenerative cells was significantly higher in P. falciparum-infected compared to uninfected mosquitoes, and was positively correlated with both the level of malaria parasite infection and midgut epithelial cell destruction. The loss of invaded midgut epithelial cells associated with intracellular migration by ookinetes, therefore, appears to trigger, and to be compensated by, proliferative regeneration of the mosquito midgut epithelium.     

Plasmodium berghei: mechanisms and sites of resistance to sporogonic development in different mosquitoes

An experimental study of the mechanisms and patterns of resistance to Plasmodium berghei in different mosquito species revealed a diversity of factors which prevent or inhibit sporogonic development in its different phases and in different sites in the mosquito vector. The experiments showed that Culex salinarius was a totally resistant species in which exflagellation and ookinete formation are prevented. In Aedes aegypti, ookinetes in small or moderate numbers are formed but penetration of the mosquito midgut wall is blocked and oocysts are not formed. In the three experimental vectors, Anopheles quadrimaculatus, Anopheles aztecus, and Anopheles stephensi grades of enhanced susceptibility are recognized. They are expressed in lesser numbers of abnormal and degenerative oocysts, in higher numbers of sporozoites in the salivary gland, and greater viability and invasiveness of these sporozoites. In Anopheles dureni, the natural vector of rodent malaria, one observes both in nature and under experimental conditions the highest adaptation and most pronounced grade of susceptibility to P. berghei.     

The role of programmed cell death in Plasmodium–mosquito interactions

Many host–parasite interactions are regulated in part by the programmed cell death of host cells or the parasite. Here we review evidence suggesting that programmed cell death occurs during the early stages of the development of the malaria parasite in its vector. Zygotes and ookinetes of Plasmodium berghei have been shown to die by programmed cell death (apoptosis) in the midgut lumen of the vector Anopheles stephensi, or whilst developing in vitro. Several morphological markers, indicative of apoptosis, are described and evidence for the involvement of a biochemical pathway involving cysteine proteases discussed in relationship to other protozoan parasites. Malaria infection induces apoptosis in the cells of two mosquito tissues, the midgut and the follicular epithelium. Observations on cell death in both these tissues are reviewed including the role of caspases as effector molecules and the rescue of resorbing follicles resulting from inhibition of caspases. Putative signal molecules that might induce parasite and vector apoptosis are suggested including nitric oxide, reactive nitrogen intermediates, oxygen radicals and endocrine balances. Finally, we suggest that programmed cell death may play a critical role in regulation of infection by the parasite and the host, and contribute to the success or not of parasite establishment and host survival.     

Dissecting focal adhesions in cells differentially expressing calreticulin: a microscopy study

Background information. Our previous studies have shown that calreticulin, a Ca²⁺‐binding chaperone located in the endoplasmic reticulum, affects cell—substratum adhesions via the induction of vinculin and N‐cadherin. Cells overexpressing calreticulin contain more vinculin than low expressers and make abundant contacts with the substratum. However, cells that express low levels of calreticulin exhibit a weak adhesive phenotype and make few, if any, focal adhesions. To date, the identity of the types of focal adhesions made by calreticulin overexpressing and low expressing cells has not been dissected. Results. The results of the present study show that calreticulin affects fibronectin matrix assembly in L fibroblast cell lines that differentially express the protein, and that these cells also differ profoundly in focal adhesion formation. Although the calreticulin overexpressing cells generate numerous interference‐reflection‐microscopy‐dark, vinculin‐ and paxillin‐containing classical focal contacts, as well as some fibrillar adhesions, the cells expressing low levels of calreticulin generate only a few weak focal adhesions. The fibronectin receptor was found to be clustered in calreticulin overexpressing cells, but diffusely distributed over the cell surface in low expressing cells. Plating L fibroblasts on fibronectin‐coated substrata induced extensive spreading in all cell lines tested. However, although calreticulin overexpressing cells were induced to form classical vinculin‐rich focal contacts, the low calreticulin expressing cells overcame their weak adhesive phenotype by induction of many tensin‐rich fibrillar adhesions, thus compensating for the low level of vinculin in these cells. Conclusions. We propose that calreticulin affects fibronectin production and, thereby, assembly, and it indirectly influences the formation and/or stability of focal contacts and fibrillar adhesions, both of which are instrumental in matrix assembly and remodelling.     

Endoplasmic Reticulum Stress Response of <Emphasis Type="Italic">Bombyx Mori</Emphasis> Calreticulin

We isolated a calreticulin cDNA from the silkworm, Bombyx mori. The cDNA encodes 398 amino acid residues of B. mori calreticulin, with an endoplasmic reticulum retentional HDEL motif at its C-terminus and a predicted molecular mass of 45,801 Da. The B. mori calreticulin shows high protein homology with calreticulin from G. mellonella (88%), A. aegypti (71%), D. melanogaster (69%) and H. sapiens (63%). The highest level of mRNA expression of B. mori calreticulin was exhibited in the fat body of this insect. Although expression of B. mori calreticulin was affected by disturbances in intracellular calcium levels, other ER stress conditions such as inhibition of intracellular protein transport, reduction of disulfide formation, glycosylation inhibition, heat shock and oxidative stress did not disrupt induction of B. mori calreticulin.     

Scanning electron microscope observations of Plasmodium berghei ookinetes in primary mosquito cell cultures

Plasmodium berghei-infected blood from mice was inoculated into primary cell cultures (PCC) obtained from the mosquito Anopheles stephensi. Immature and mature ookinetes of Plasmodium berghei, which developed in these cultures were studied with the scanning electron microscope. Immature ookinetes had a bulbous-like structure at the posterior end and a slightly wrinkled surface. Mature ookinetes were smoother in appearance and somewhat longer than immature forms. Shallow spiraling waves were observed on the surface of some ookinetes, especially in the anterior half of the body. Such waves may be involved in ookinete locomotion. Penetration of cultured cells by ookinetes was not observed. Infected red cells, which were present in the inoculum, had small depressions on the red cell surface, whereas some uninfected red cells had accentuated concavities. Mouse blood cells adhered closely to PCC cells; some attached red cells were irregular in shape.     

Calreticulin as a hydrophilic chimeric molecular adjuvant enhances IgG responses to the spike protein of severe acute respiratory syndrome coronavirus

Fragment 450-650 of the spike (S) protein (S450-650) of severe acute respiratory syndrome-associated coronavirus (SARS-CoV) contains epitopes capable of being recognized by convalescent sera of SARS patients. Vaccination of mice with recombinant S450-650 (rS450-650) can induce Abs against SARS-CoV, although the titer is relatively low. In the present study, a fusion protein linking a fragment (residues 39-272) of murine calreticulin (CRT) to S450-650 in a prokaryotic expression system was created. Compared with target antigen alone, the recombinant fusion product (rS450-650-CRT) has much improved hydrophilicity and immunogenicity. The S450-650-specific IgG Abs of BALB/c mice subcutaneously immunized with rS450-650-CRT were in substantially higher titer (approximately fivefold more). Furthermore, the fusion protein, but not rS450-650 alone, was able to elicit S450-650-specific IgG responses in T cell deficient nude mice. Given that rCRT/39-272 can drive the maturation of bone-marrow-derived dendritic cells, directly activate macrophages and B cells, and also elicit helper T cell responses in vivo, we propose that fragment 39-272 of CRT is an effective molecular adjuvant capable of enhancing target Ag-specific humoral responses in both a T cell-dependent and independent manner. Fusion protein rS450-650-CRT is a potential candidate vaccine against SARS-CoV infection.     

2,4,6-trinitrobenzenesulfonic acid modification of the carboxyl-terminal region (C-domain) of calreticulin

The role of the primary amino groups of lysine sidechains in Ca²⁺ binding to calreticulin was evaluated by chemical modification of the amino group with 2,4,6-trinitrobenzenesulfonic acid (TNBS). TNBS binding to calreticulin could be described by two steps: (i) a fast reaction, with low affinity, and (ii) a slow reaction with a relatively high affinity. Inclusion of Ca²⁺ and/or Mg²⁺ decreased both the amount of TNBS bound to calreticulin and the apparent affinity constant of the slower reaction. In contrast, the properties of the faster reaction for TNBS binding were not sensitive to Ca²⁺ and/or Mg²⁺. Analysis of TNBS binding to the carboxyl-terminal (C-domain) and aminoterminal (N-domain) of calreticulin revealed that theC-domain andN-domain are responsible for the slow and fast component of the TNBS binding, respectively. In keeping with this, in the presence of Ca²⁺, TNBS binding to theC-domain was significantly reduced, whereas modification of theN-domain was unaffected. TNBS modification of calreticulin significantly decreased Ca²⁺ binding to the low affinity/high capacity Ca²⁺ binding site(s) which are localized to theC-domain but had no effect on the high affinity/low capacity Ca²⁺ binding localized to theN-domain.In theC-domain of calreticulin, which contains the low affinity/high capacity Ca²⁺ binding sites, acidic residues are interspersed at regular intervals with one or more positively charged lysine and arginine residues. Our results indicate that the aminogroups of the lysine sidechains in theC-domain of calreticulin have a role in the low affinity/high capacity Ca²⁺ binding that is characteristic of this region of the protein and which is proposed to contribute significantly to the capacity of the endoplasmic reticulum Ca²⁺ store. (Mol Cell Biochem130: 19–28, 1994)Abbreviations TNBS 2,4,6-Trinitrobenzenesulfonic Acid - GST Glutathione S-Transferase - SDS-PAGE Sodium Dodecyl Sulfate-Polyacrylamide Gel Electrophoresis - EDTA Ethylenediaminetetraacetic Acid - EGTA Ethylene Glycol bis(-aminoethylether)-N,N,N,N-tetraacetic Acid - MOPS 4-Morpholinepropanesulfonic Acid     

Bacterial diversity analysis of larvae and adult midgut microflora using culture-dependent and culture-independent methods in lab-reared and field-collected Anopheles stephensi-an Asian malarial vector

Background  

Mosquitoes are intermediate hosts for numerous disease causing organisms. Vector control is one of the most investigated strategy for the suppression of mosquito-borne diseases. Anopheles stephensi is one of the vectors of malaria parasite Plasmodium vivax. The parasite undergoes major developmental and maturation steps within the mosquito midgut and little is known about Anopheles-associated midgut microbiota. Identification and characterization of the mosquito midgut flora is likely to contribute towards better understanding of mosquito biology including longevity, reproduction and mosquito-pathogen interactions that are important to evolve strategies for vector control mechanisms.     

Anopheles Midgut FREP1 Mediates Plasmodium Invasion

Malaria transmission depends on sexual stage Plasmodium parasites successfully invading Anopheline mosquito midguts following a blood meal. However, the molecular mechanisms of Plasmodium invasion of mosquito midguts have not been fully elucidated. Previously, we showed that genetic polymorphisms in the fibrinogen-related protein 1 (FREP1) gene are significantly associated with Plasmodium falciparum infection in Anopheles gambiae, and FREP1 is important for Plasmodium berghei infection of mosquitoes. Here we identify that the FREP1 protein is secreted from the mosquito midgut epithelium and integrated as tetramers into the peritrophic matrix, a chitinous matrix formed inside the midgut lumen after a blood meal feeding. Moreover, we show that the FREP1 can directly bind Plasmodia sexual stage gametocytes and ookinetes. Notably, ablating FREP1 expression or targeting FREP1 with antibodies significantly decreases P. falciparum infection in mosquito midguts. Our data support that the mosquito-expressed FREP1 mediates mosquito midgut invasion by multiple species of Plasmodium parasites via anchoring ookinetes to the peritrophic matrix and enabling parasites to penetrate the peritrophic matrix and the epithelium. Thus, targeting FREP1 can limit malaria transmission.     

Separation of hexahistidine fusion proteins with immobilized metal ion affinity chromatographic (IMAC) sorbents derived from MN+‐tacn and its derivatives

The capabilities of a new class of immobilized (im) metal ion chelate complexes (IMCCs), derived from 1,4,7‐triazacyclononane (tacn), bis(1,4,7‐triazacyclononyl) ethane (dtne) and bis(1,4,7‐triazacyclononyl)propane (dtnp) complexed with the borderline metal ions Cu²⁺, Ni²⁺, Zn²⁺, Mn²⁺, Co²⁺, and Cr³⁺, for the purification of proteins have been investigated. In particular, the binding behavior of a model protein, the C‐terminal hexahistidine tagged recombinant fusion protein Schistosoma japonicum glutathione S‐transferase‐Saccharomyces cerevisiae mitochondrial ATP synthase δ‐subunit (GST‐δATPase‐His₆), with these new immobilized metal ion affinity chromatographic (IMAC) sorbents was compared to the properties of a conventional sorbent, derived from immobilized Ni(II)‐nitrilotriacetic acid (im‐Ni²⁺‐NTA). Investigations using the recombinant GST‐δATPase‐His₆ and recombinant S. japonicum glutathione S‐transferase (GST) lacking a hexahistidine tag have confirmed that the C‐terminal tag hexahistidine residues were required for the binding process to occur with these IMAC systems. The results also confirm that recombinant fusion proteins such as GST‐δATPase‐His₆ can be isolated in high purity with these IMAC systems. Moreover, these new macrocyclic systems manifest different selectivity features as a function of pH or ionic strength when compared to the conventional, unconstrained iminodiacetic acid (IDA) or NTA chelating ligands, complexed with borderline metal ions such as Cu²⁺ or Ni²⁺, as IMAC systems. Biotechnol. Bioeng. 2009;103: 747–756. © 2009 Wiley Periodicals, Inc.     

重组人钙网蛋白的克隆与原核表达

［摘要］目的: 克隆人钙网蛋白（calreticulin,CRT）并在E.coli中原核表达和纯化。方法：采用RT-PCR 法从人非小细胞肺腺癌A549细胞总RNA中克隆人钙网蛋白cDNA,构建CRT原核表达质粒（pET-15b/CRT）并转化E.coli 的Rossetta菌株。IPTG诱导后,表达蛋白在变性条件下经Ni-NTA 树脂亲和层析纯化,然后透析复性。分别用SDS-PAGE和Western blotting法鉴定CRT表达和纯化状态。结果：从A549细胞总RNA中成功获得人CRT cDNA克隆,重组质粒pET-15b/CRT构建正确。转化pET-15b/CRT的E.coli Rossetta诱导性表达重组人CRT蛋白,该蛋白可经Ni-NTA树脂亲和层析高度纯化。结论：成功建立了CRT原核表达和纯化的实验方法,该方法为后续的CRT蛋白功能研究奠定了基础。     

Implications of Time Bomb model of ookinete invasion of midgut cells

In this review, we describe the experimental observations that led us to propose the Time Bomb model of ookinete midgut invasion and discuss potential implications of this model when considering malaria transmission-blocking strategies aimed at arresting parasite development within midgut cells. A detailed analysis of the molecular interactions between Anopheles stephensi midgut epithelial cells and Plasmodium berghei parasites, as they migrate through midgut cells, revealed that ookinetes induce nitric oxide synthase (NOS) expression, remodeling of the actin cytoskeleton and characteristic morphological changes in the invaded epithelial cells. Parasites inflict extensive damage that ultimately leads to genome fragmentation and cell death. During their migration through the cytoplasm, ookinetes release a subtilisin-like protease (PbSub2) and the surface protein (Pbs21). The model proposes that ookinetes must escape rapidly from the invaded cells, as the responses mediating cell death could be potentially lethal to the parasites. In other words, the physical and/or chemical damage triggered by the parasite can be thought of as a 'lethal bomb'. Once this cascade of events is initiated, the parasite must leave the cellular compartment within a limited time to escape unharmed from the 'bomb' it has activated. The midgut epithelium has the ability to heal rapidly by 'budding off' the damaged cells to the midgut lumen without losing its integrity.     

犬细小病毒VP2基因在大肠杆菌中的高效可溶性表达

目的:犬细小病毒VP2基因在大肠杆菌中高效可溶性表达,进而为其特异单克隆抗体的制备奠定基础。方法:以犬细小病毒VP2基因重组质粒为模板,通过蛋白质分析软件PROSPECT分析,根据VP2基因所编码的氨基酸的亲水性和抗原性,把VP2基因分成不同区段,设计相应引物并扩增出相应片段。按常规方法克隆入pGEX-4T-2载体谷光甘肽-S-转移酶(GST)基因的下游,获得的重组质粒转化大肠杆菌BL21,用IPTG诱导目的基因片段的表达,经超声处理后SDS-PAGE电泳。所得可溶性蛋白再经间接ELISA、western Blotting鉴定。结果:K2和K4片段获得了良好的可溶性表达,其表达的GST融合蛋白的分子质量分别为38.3 KD和41 KD,ELISA、Western Blotting结果表明所表达的融合蛋白具有与CPV阳性抗体特异结合的良好抗原性。结论:犬细小病毒VP2基因在大肠杆菌中的获得了高效可溶性表达。     

野桑蚕GST-Omega1基因在草地贪夜蛾Sf9细胞中的表达

谷胱甘肽 S-转移酶（glutathione S-transferases,GSTs）是昆虫的重要解毒酶之一。为了研究野桑蚕Bombyx mandarina中谷胱甘肽S-转移酶在真核表达系统中的表达情况。本研究通过RT-PCR从野桑蚕中肠中获得GST-Omega1基因的cDNA序列,该基因的开放读码框为771 bp,编码256 个氨基酸。对推导的氨基酸序列用NCBI的蛋白质Conserved Domains工具进行在线分析,结果显示GST-Omega1的氨基酸序列中具有Cys38和8个GSH结合位点的Omega类基因保守序列。对所获得的基因克隆进表达载体pFastBacHT b中获得pFast-GST-Omega1,将其转化DH10Bac感受态细胞,获得Bac-GST-Omega1重组病毒DNA,用脂质体法转染草地贪夜蛾Sf9细胞,获得重组病毒。对表达产物经SDS-PAGE和Western blotting分析,能检测到一条分子量约为33 kD的特异性条带,与推导的融合蛋白大小相符,该目的蛋白的表达量占总蛋白的14.4%。目的蛋白经His·Bind树脂纯化,用Lineweaver Burk作图法测定其K_m和V_max,结果显示其K_m为2.81 µmol/L,V_max为2.70 µmol/(mg·min）。