Biochemical characterization of C4 protein of Cotton Leaf Curl Kokhran Virus-Dabawali

Background

Cotton leaf curl Kokhran Virus-Dabawali (CLCuKV-Dab) is a monopartite begomovirus encoding two proteins V1 and V2 in the virion sense and four proteins C1, C2, C3 and C4 in the complementary sense. The C4 protein of monopartite begomoviruses has been implicated to play a role in symptom determination and virus movement. The present work aims at the biochemical characterization of this protein.

Methods

The C4 protein of CLCuKV-Dab was purified in fusion with GST and tested for the ability to hydrolyze ATP and other phosphate containing compounds. ATPase activity was assayed by using radiolabeled γ-[32P]-ATP and separating the product of reaction by thin layer chromatography. The hydrolysis of other compounds was monitored by the formation of a blue colored phosphomolybdate complex which was estimated by measuring the absorbance at 655 nm.

Results

The purified GST-C4 protein exhibited metal ion dependent ATPase and inorganic pyrophosphatase activities. Deletion of a sequence resembling the catalytic motif present in phosphotyrosine phosphatases resulted in 70% reduction in both the activities. Mutational analysis suggested arginine 13 to be catalytically important for the ATPase and cysteine 8 for the pyrophosphatase activity of GST-C4. Interaction of V2 with GST-C4 resulted in an increase in both the enzymatic activities of GST-C4.

Conclusions

The residues important for the enzymatic activities of GST-C4 are present in a motif different from the classical Walker motifs and the non-classical ATP binding motifs reported so far.

General significance

The C4 protein of CLCuKV-Dab, a putative natively unfolded protein, exhibits enzymatic activities.     

小鼠RHOX5蛋白两种截短型突变体的原核表达及其与MDFIC互作的鉴定

目的：表达和纯化两种小鼠RHOX5蛋白的截短型突变体,确定完整的RHOX5蛋白及其两种截短型突变体与MDFIC蛋白结合的能力。方法：生物信息学分析小鼠同源异型框蛋白RHOX5的cDNA序列,分别对RHOX5的两种截短型片段RHOX5 N和RHOX5 C进行PCR、分别扩增RHOX5的两种截短型片段RHOX5 N和RHOX5 C并将其克隆至pGEX4T3原核表达载体,构建重组表达质粒。用重组表达质粒分别转化大肠杆菌RosettaTM2(DE3)菌株,经IPTG诱导后,使用Glutathione-Sepherase 4B颗粒对融合蛋白进行小批量亲和纯化,通过SDS-PAGE电泳分离目标蛋白,确定融合蛋白的表达。进行GST-pull down实验,检测完整的RHOX5蛋白及其两种截短型突变体与MDFIC蛋白结合的能力。 结果：在大肠杆菌RosettaTM2(DE3)中有效地实现了GST-RHOX5、GST-RHOX5 N和GST-RHOX5-C-3种融合蛋白的可溶性表达;经Glutathione Sepherase 4B颗粒亲和纯化后,获得了纯化后GST融合蛋白;GST-pull down实验证实,含有homeodomain的RHOX5蛋白和RHOX5C截短型突变体可以与MDFIC蛋白相结合,而RHOX5N截短型突变体则丧失了与MDFIC蛋白结合的能力。 结论：实现了RHOX5及其两种截短型突变体的原核表达和纯化,证实RHOX5蛋白的homeodomain结构域是其与MDFIC结合的关键部位。     

HIV-1型核衣壳蛋白P24截短体在大肠杆菌中的表达,纯化和鉴定

用聚合酶链式反应（ＰＣＲ）从ＨＩＶ １ｇａｇ基因中扩增出衣壳蛋白Ｐ２４截短体（ｔＰ２４）基因,插入质粒ｐＧＥＸ ４Ｔ３中构成重组表达质粒ｐＧＥＸ ｔｐ２４,将ｐＧＥＸ ｔｐ２４转化大肠杆菌ＢＬ２１后获得了高效表达,表达量占菌体总蛋白量的３４３８％。经Ｇｌｕｔａｔｈｉｏｎｅ－Ｓｅｐｈａｒｏｓｅ４Ｂ亲和层析纯化的截短体Ｐ２４纯度为９２７７％。纯化的截短体Ｐ２４在间接ＥＬＩＳＡ和免疫印迹检测ＨＩＶ抗体阳性血清和正常人血清中,具有很高的抗原特异性和免疫反应性。     

The processive endocellulase CelF, a major component of the Clostridium cellulolyticum cellulosome: purification and characterization of the recombinant form.

The recombinant form of the cellulase CelF of Clostridium cellulolyticum, tagged by a C-terminal histine tail, was overproduced in Escherichia coli. The fusion protein was purified by affinity chromatography on a Ni-nitrilotriacetic acid column. The intact form of CelF (Mr, 79,000) was rapidly degraded at the C terminus, giving a shorter stable form, called truncated CelF (Mr, 71,000). Both the entire and the truncated purified forms degraded amorphous cellulose (kcat = 42 and 30 min(-1), respectively) and microcrystalline cellulose (kcat = 13 and 10 min(-1), respectively). The high ratio of soluble reducing ends to insoluble reducing ends released by truncated CelF from amorphous cellulose showed that CelF is a processive enzyme. Nevertheless, the diversity of the cellodextrins released by truncated CelF from phosphoric acid-swollen cellulose at the beginning of the reaction indicated that the enzyme might randomly hydrolyze beta-1,4 bonds. This hypothesis was supported by viscosimetric measurements and by the finding that CelF and the endoglucanase CelA are able to degrade some of the same cellulose sites. CelF was therefore called a processive endocellulase. The results of immunoblotting analysis showed that CelF was associated with the cellulosome of C. cellulolyticum. It was identified as one of the three major components of cellulosomes. The ability of the entire form of CelF to interact with CipC, the cellulosome integrating protein, or mini-CipC1, a recombinant truncated form of CipC, was monitored by interaction Western blotting (immunoblotting) and by binding assays using a BIAcore biosensor-based analytical system.     

力生长因子在大肠杆菌中的表达及活性分析

MGF(Mechano-growth factor)是一种IGF-1变体形式, 研究发现该因子具有应力敏感性, 并且具有促进肌肉肥大、再生以及神经损伤修复的功能。通过RT-PCR从拉伸刺激的人成骨细胞中克隆MGF cDNA序列, 并去除5'端9 bp的序列, 使N端缺少对肠激酶(Enterokinase, EK)具有抑制作用的脯氨酸, 将截短型MGF (des(1-3) MGF) cDNA序列克隆入pET32a(+)质粒, 构建重组表达质粒。重组质粒转化E. coli BL21(DE3), 在30oC培养下以可溶形式表达融合蛋白Trx/ des(1-3)MGF, 采用离子交换层析和Ni2+金属亲和层析, 获得纯度95%以上的融合蛋白。再对融合蛋白EK酶切, rpHPLC分离获得纯度达98%的des(1-3)MGF, SDS-PAGE电泳及质谱分析蛋白分子量与理论值相符。生物活性实验显示, 所制备的des(1-3)MGF比des(1-3)IGF-1更显著的促进MC3T3-E1细胞的增值和迁移。     

Characterization of the bacterially expressed Drosophila engrailed homeodomain.

To investigate the mechanism of DNA recognition by the homeodomain, truncated proteins containing the entire homeodomain encoded by the Drosophila engrailed gene were expressed in Escherichia coli. Each protein was accumulated to an amount representing more than 40% of the total bacterial protein and recovered in the soluble fraction. Of the three truncated proteins, the shortest one (71 amino acid residues) was further purified by conventional chromatography. The purified engrailed homeodomain (En-HD) protected a DNA sequence, TTAATT, the core element of consensus sequences recognized by many other homeodomain proteins, from DNase I digestion. UV-CD spectra of the En-HD showed that it mainly consisted of alpha-helix. Based on one-dimensional 1H-NMR spectra, the tertiary structure of the En-HD was shown to be stable against temperature up to 50 degrees C and low pH. The low pH resistance of the protein was also demonstrated by UV-CD measurement. Thus, the current over-production system provides an active and stable homeodomain, which is suitable for structure-function analysis.     

Properties and crystallization of a genetically engineered, water-soluble derivative of penicillin-binding protein 5 of Escherichia coli K12

Derivatives of the Escherichia coli penicillin-binding protein 5 (PBP5) with truncated carboxyl terminals were obtained by altering the carboxyl-coding end of the dacA gene. After cloning the modified dacA gene into a runaway-replication-control plasmid, one clone that overproduced and excreted the desired protein into the periplasm was used as a source for the isolation of a water-soluble PBP5 (i.e. PBP5S). In PBP5S the carboxyl-terminal 21-amino-acid region of the wild-type protein was replaced by a short 9-amino-acid segment. Milligram amounts of PBP5S were purified by penicillin affinity chromatography in the absence of detergents or of chaotropic agents. PBP5S was stable and possessed DD-carboxypeptidase activity without added Triton X-100. Upon reaction with [14C]benzylpenicillin it was converted into a rather short-lived acyl-enzyme complex, as observed with PBP5. Both PBP5 and PBP5S were crystallized. In contrast to PBP5, PBP5S yielded enzymatically active, well-formed prismatic crystals suitable for X-ray analysis.     

Isolation of two forms of decay-accelerating factor (DAF) from human urine.

Decay-accelerating factor (DAF) was purified from human pooled urine by conventional techniques. The urine DAF was separated into two peaks, pool I and pool II, by gel chromatography. DAF-U1 was isolated from pool I by hydrophobic chromatography, and DAF-U2 from pool II by anti-DAF IgG column. The specific activities of DAF-U1 and DAF-U2 to decay membrane-phase C5 convertase were about 3% and 70% of membrane form DAF, respectively. However, both urine DAFs revealed a similar activity to each other and slightly higher activity than that of membrane form DAF in decay-accelerating fluid-phase C3 convertase of the alternative pathway.     

中国红豆杉细胞色素P450还原酶的基因克隆、表达与活性分析

细胞色素P450还原酶(Cytochrome P450 reductase,CPR)是细胞色素P450羟基化酶电子传递链的组成部分,在生物体内起着重要的电子传递作用。文章从中国红豆杉(Taxuswallichiana var. Chinensis)愈伤组织细胞中克隆CPR基因(TchCPR),TchCPR含有一个2154bp碱基的阅读框,编码717个氨基酸残基;在氨基酸水平上它与裸子植物细胞色素P450还原酶的同源性(82%)高于其他被子植物的细胞色素P450还原酶(74%)。在大肠杆菌BL21(DE3)中诱导表达了全长和从N-端截短不同数目氨基酸残基的6个融合肽段,经亲和层析纯化,分析了表达的不同长度融合蛋白的电子传递效率。结果表明截短长度大于61个氨基酸残基肽段的胞色素P450还原酶都能够诱导表达,在表达水平上无显著差异,而截短61个氨基酸的CPR融合蛋白电子传递的催化活性(1.6057nmol Cyt Cred/min/μg TchCPR融合蛋白)高于其他4个融合蛋白。     

A large-scale purification of beta-glucuronidase from human liver by immunoaffinity chromatography.

We intend to purify beta-glucuronidase from human liver in a large quantity in order to facilitate the study of its biochemical structure and pathophysiologic roles in cholelithiasis and carcinogenesis. The initial purification procedure involved: (1) liver homogenization, (2) 25-45% saturated ammonium sulfate fractionation, (3) heat denaturation of protein at 56 degrees C, (4) gel filtration with Bio-Gel P-300 gel, (5) anion exchange chromatography with DEAE agarose, (6) cation exchange chromatography with CM agarose, and (7) hydroxyapatite chromatography (overall yield, 1%; overall purification, 169X). The final product was used to immunize rabbits and BALB/c mice for production of polyclonal and monoclonal antibodies, respectively. The antibodies, mainly IgG, were purified by using gamma-Protein A agarose column chromatography. The purified IgG, after periodate oxidation, was coupled to hydrazide gel by formation of a stable covalent hydrazone bond linkage. The new purification procedure involved the initial first three steps, followed by (4) polyclonal IgG immunoaffinity chromatography and (5) monoclonal IgG immunoaffinity chromatography (overall yield, 6.1%; overall purification, 3720X). Polyacrylamide gel electrophoresis indicated minor contaminants in the final product which could be further purified by electroelution. It is concluded that beta-glucuronidase constitutes 0.016 mg per gram of wet liver tissue and can be obtained on a large scale in a highly purified form within a 2-day cycle.     

Recombinant soluble human complement receptor type 1 inhibits inflammation in the reversed passive arthus reaction in rats.

The human CR1 was genetically engineered by site directed mutagenesis into a truncated form which was secreted from transfected Chinese hamster ovary cells. This soluble recombinant CR1 (sCR1) was purified from the supernatants of the Chinese hamster ovary cells cultured in a hollow fiber bioreactor. sCR1 inhibits the C3 and C5 convertases of the classical and the alternative pathways in vitro. The ability of sCR1 to inhibit the immune complex-mediated inflammation in vivo was tested in a rat reversed passive Arthus reaction model. Administration of sCR1 at the dermal sites reduced the Arthus vasculitis in a dose-dependent manner as judged by both gross and microscopic examination, as well as by immunohistologic localization of C3 and C5b-9 neoantigen deposits. These data suggest that sCR1 inhibits the Arthus reaction by interrupting the activation of the C cascade, hence limiting the detrimental immune complex-induced tissue damage in vivo.     

A structural basis for cellular uptake of GST-fold proteins

It has recently emerged that glutathione transferase enzymes (GSTs) and other structurally related molecules can be translocated from the external medium into many different cell types. In this study we aim to explore in detail, the structural features that govern cell translocation and by dissecting the human GST enzyme GSTM2-2 we quantatively demonstrate that the α-helical C-terminal domain (GST-C) is responsible for this property. Attempts to further examine the constituent helices within GST-C resulted in a reduction in cell translocation efficiency, indicating that the intrinsic GST-C domain structure is necessary for maximal cell translocation capacity. In particular, it was noted that the α-6 helix of GST-C plays a stabilising role in the fold of this domain. By destabilising the conformation of GST-C, an increase in cell translocation efficiency of up to ～2-fold was observed. The structural stability profiles of these protein constructs have been investigated by circular dichroism and differential scanning fluorimetry measurements and found to impact upon their cell translocation efficiency. These experiments suggest that the globular, helical domain in the 'GST-fold' structural motif plays a role in influencing cellular uptake, and that changes that affect the conformational stability of GST-C can significantly influence cell translocation efficiency.     

The binary Clostridium botulinum C2 toxin as a protein delivery system: identification of the minimal protein region necessary for interaction of toxin components.

The binary Clostridium botulinum C2 toxin is composed of the enzyme component C2I and the binding component C2II, which are individual and non-linked proteins. Activated C2IIa mediates cell binding and translocation of C2I into the cytoplasm. C2I ADP-ribosylates G-actin at Arg-177 to depolymerize actin filaments. A fusion toxin containing the N-terminal domain of C2I (residues 1-225) transports C3 ADP-ribosyltransferase from Clostridium limosum into cells (Barth, H., Hofmann, F., Olenik, C., Just, I., and Aktories, K. (1998) Infect. Immun. 66, 1364-1369). We characterized the adaptor function of C2I and its interaction with C2IIa. The fusion toxin GST-C2I(1-225)-C3 was efficiently transported by C2IIa, indicating that C2IIa translocates proteins into the cytosol even when the C2I(1-225) adaptor was positioned in the middle of a fusion protein. Amino acid residues 1-87 of C2I were sufficient for interaction with C2IIa and for translocation of C2I fusion toxins into HeLa cells. Residues 1-87 were the minimal part of C2I to bind to C2IIa on the cell surface, as detected by fluorescence-activated cytometry. An excess of C2I(1-87) (but not of further truncated C2I fragments) competed with Alexa488-labeled C2I for binding to C2IIa. Also, the fragment C2I(30-431) and the fusion toxin C2I(30-225)-C3 competed with C2I-Alexa488 for binding to C2IIa. C2I(30-225)-C3 did not induce cytotoxic effects on cells when applied together with C2IIa, indicating that amino acid residues 1-29 are involved in translocation of C2I but are not absolutely essential for binding to C2IIa.     

Expression and purification of recombinant polyomavirus VP2 protein and its interactions with polyomavirus proteins.

Recombinant polyomavirus VP2 protein was expressed in Escherichia coli (RK1448), using the recombinant expression system pFPYV2. Recombinant VP2 was purified to near homogeneity by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, electroelution, and Extracti-Gel chromatography. Polyclonal serum to this protein which reacted specifically with recombinant VP2 as well as polyomavirus virion VP2 and VP3 on Western blots (immunoblots) was produced. Purified VP2 was used to establish an in vitro protein-protein interaction assay with polyomavirus structural proteins and purified recombinant VP1. Recombinant VP2 interacted with recombinant VP1, virion VP1, and the four virion histones. Recombinant VP1 coimmunoprecipitated with recombinant VP2 or truncated VP2 (delta C12VP2), which lacked the carboxy-terminal 12 amino acids. These experiments confirmed the interaction between VP1 and VP2 and revealed that the carboxyterminal 12 amino acids of VP2 and VP3 were not necessary for formation of this interaction. In vivo VP1-VP2 interaction study accomplished by cotransfection of COS-7 cells with VP2 and truncated VP1 (delta N11VP1) lacking the nuclear localization signal demonstrated that VP2 was capable of translocating delta N11VP1 into the nucleus. These studies suggest that complexes of VP1 and VP2 may be formed in the cytoplasm and cotransported to the nucleus for virion assembly to occur.     

Properties of delta5-3beta-hydroxysteroid oxidoreductase isolated from Streptomyces griseocarneus.

Delta5-3beta-hydroxysteroid oxidoreductase was extracted in magnesium-containing Tris buffer from sonicated Streptomyces griseocarneus cells. The enzyme was partially purified (150 X) by ion exchange chromatography and gel filtration following (NH4)2SO4 fractionation. Upon gel filtration on Sephadex G-75 to G-200, the greatest part of the activity gave a peak in the fractionation range. The enzyme obtained from the gel yielded small enzyme molecules on repeated chromatography. A molecular weight of 32 to 36 000 was calculated for the activity appearing in the fractionation range of Sephadex G-75 to G-200. The enzyme is highly specific for the irreversible oxidation of the 3beta-hydroxyl group in steroids with a trans-anellated A : B ring system with either C5 or C6 double bond. Delta5-3-ketosteroids are converted into delta5-3-ketosteroids at a high rate, but the isomerase activity cannot be separated from the oxidoreductase activity either by chromatography or by selective heat inactivation. NAD, NADP, FMN or FAD did not influence the activity, but the enzyme is inactive in the absence of molecular oxygen.     

A novel fusion partner for enhanced secretion of recombinant proteins in <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

Expressing proteins with fusion partners improves yield and simplifies the purification process. We developed a novel fusion partner to improve the secretion of heterologous proteins that are otherwise poorly excreted in yeast. The VOA1 (YGR106C) gene of Saccharomyces cerevisiae encodes a subunit of vacuolar ATPase. We found that C-terminally truncated Voa1p was highly secreted into the culture medium, even when fused with rarely secreted heterologous proteins such as human interleukin-2 (hIL-2). Deletion mapping of C-terminally truncated Voa1p, identified a hydrophilic 28-amino acid peptide (HL peptide) that was responsible for the enhanced secretion of target protein. A purification tag and a protease cleavage site were added to use HL peptide as a multi-purpose fusion partner. The utility of this system was tested via the expression and purification of various heterologous proteins. In many cases, the yield of target proteins fused with the peptide was significantly increased, and fusion proteins could be directly purified with affinity chromatography. The fusion partner was removed by in vitro processing, and intact proteins were purified by re-application of samples to affinity chromatography.     

Characterization of a dockerin-based affinity tag: application for purification of a broad variety of target proteins

Cellulose, a major component of plant matter, is degraded by a cell surface multiprotein complex called the cellulosome produced by several anaerobic bacteria. This complex coordinates the assembly of different glycoside hydrolases, via a high-affinity Ca(2+)-dependent interaction between the enzyme-borne dockerin and the scaffoldin-borne cohesin modules. In this study, we characterized a new protein affinity tag, ΔDoc, a truncated version (48 residues) of the Clostridium thermocellum Cel48S dockerin. The truncated dockerin tag has a binding affinity (K(A)) of 7.7 × 10(8)M(-1), calculated by a competitive enzyme-linked assay system. In order to examine whether the tag can be used for general application in affinity chromatography, it was fused to a range of target proteins, including Aequorea victoria green fluorescent protein (GFP), C. thermocellum β-glucosidase, Escherichia coli thioesterase/protease I (TEP1), and the antibody-binding ZZ-domain from Staphylococcus aureus protein A. The results of this study significantly extend initial studies performed using the Geobacillus stearothermophilus xylanase T-6 as a model system. In addition, the enzymatic activity of a C. thermocellum β-glucosidase, purified using this approach, was tested and found to be similar to that of a β-glucosidase preparation (without the ΔDoc tag) purified using the standard His-tag. The truncated dockerin derivative functioned as an effective affinity tag through specific interaction with a cognate cohesin, and highly purified target proteins were obtained in a single step directly from crude cell extracts. The relatively inexpensive beaded cellulose-based affinity column was reusable and maintained high capacity after each cycle. This study demonstrates that deletion into the first Ca(2+)-binding loop of the dockerin module results in an efficient and robust affinity tag that can be generally applied for protein purification.     

丙型肝炎病毒核心区优势抗原表位基因的化学合成及其表达产物的抗原性分析

依据丙型肝炎病毒（ＨＣＶ）多蛋白核心区Ｎ端氨基酸序列和密码子简并性,人为设计并采用半化学半酶促的方法合成了一个ＤＮＡ片段。经核酸杂交检测以及ＤＮＡ序列分析证实,该片段的核苷酸序列与设计完全一致。将合成的ＤＮＡ片段插入融合表达载体ｐＧＥＸ－２Ｔ中,表达产物经亲和层析纯化后进行Ｗｅｓｔｅｒｎ免疫印迹实验和间接ＥＬＩＳＡ分析,结果表明,融合蛋白具有ＨＣＶ核心区抗原的免疫反应性,可望用于ＨＣＶ抗体的检测．此外,编码ＨＣＶ优势抗原表位的化学合成基因有可能为ＨＣＶ嵌合抗原的研究提供一条捷径。     

Specific binding of lactoferrin to Aeromonas hydrophila

The subunit S1 of pertussis toxin (PT) was purified as the recombinant product BacS1 from the culture supernatant of a Bacillus subtilis strain containing a secretion vector with a DNA fragment coding for the mature subunit S1 inserted downstream of the signal sequence of the alpha-amylase gene. The method of purification was successive ion exchange and adsorption chromatography. BacS1 occurred in two forms (28 and 20 kDa) of which the truncated 20-kDa peptide was the main one in the supernatant. The truncated BacS1 was purified and shown to have the same NH2-terminus as the full-size (28 kDa) BacS1. It was also enzymatically active indicating correct conformation. The truncated BacS1 was also shown to elicit neutralizing and protective antibodies when injected into mice or rabbits.     

Large-scale expression, refolding, and purification of the catalytic domain of human macrophage metalloelastase (MMP-12) in Escherichia coli

We have cloned, overexpressed, and purified the catalytic domain (residues Gly106 to Asn268) of human macrophage metalloelastase (MMP-12) in Escherichia coli. This construct represents a truncated form of the enzyme, lacking the N-terminal propeptide domain and the C-terminal hemopexin-like domain. The overexpressed protein was localized exclusively to insoluble inclusion bodies, in which it was present as both an intact form and an N-terminally truncated form. Inclusion bodies were solubilized in an 8 M guanidine-HCl buffer and purified by gel filtration chromatography under denaturing conditions. Partial refolding of the protein by dialysis into a 3 M urea buffer caused selective degradation of the truncated form of the protein, while the intact catalytic domain was unaffected by proteolysis. An SP-Sepharose chromatography step purified the protein to homogeneity and served also to complete the refolding. The purified protein was homogeneous by mass spectrometry and had an activity similar to that of the recombinant enzyme purified from mammalian cells. The protein was both soluble and monodisperse at a concentration of 9 mg/ml. This purification procedure enables the production of 23 mg of protein per liter of E. coli culture and is amenable to large-scale protein production for structural studies.