拟南芥生长素结合蛋白ABP1 的原核表达及蛋白纯化

目的:鉴于生长素结合蛋白(Auxin Binding Protein,ABP)能与生长素特异性结合,因而探讨研究其直接用于生长素信号转导机理和生物传感器的可能性与可行性。方法:通过RT-PCR获得拟南芥生长素结合蛋白1(Auxin bing protein 1,ABP1)的全长CDS,将其克隆到原核表达载体pGEX4T-1中,成功构建pGEX4T-1-ABP1重组表达载体。经酶切、PCR及DNA测序鉴定后,将阳性质粒转化表达受体菌BL21(DE3)。加入异丙基-β-D-硫代半乳糖苷(IPTG)进行诱导后,取样进行SDS-PAGE分析。结果:成功表达出一个分子量约为43 kD的可溶性融合蛋白,并利用GST亲和柱纯化方式得到了ABPl。结论:通过原核表达并经GST柱纯化后获得ABP1,为生长素生物传感器的研制开辟新的途径。同时为进一步研究ABP1与生长素的信号转导机制和生长素在生物传感测定技术中的研究和应用奠定基础。     

人GST-AWP1融合蛋白的原核表达及其抗体制备

为进一步研究人的一新蛋白———蛋白激酶C相关激酶 1相关蛋白 (AWP1)的结构、功能及与其相互作用的蛋白而进行GST AWP融合蛋白表达载体的构建、原核表达、纯化及其抗体的制备 .采用逆转录PCR(RT PCR)法从人ECV30 4内皮细胞中扩增AWP1cDNA编码区 ,并将其重组于谷胱甘肽硫转移酶 (GST)融合蛋白表达质粒pGEX KG中 .经酶切、序列鉴定分析后 ,用该重组质粒转化大肠杆菌BL2 1,并经异丙基 β D 硫代半乳糖苷 (IPTG)诱导产生GST AWP1融合蛋白 ,继而纯化获得了分子量约 5 6kD的融合蛋白 .将此融合蛋白免疫新西兰兔 ,经ELISA和Western印迹检测获得了效价高、免疫活性强的兔抗人多克隆抗体 .结果表明成功构建了GST AWP1融合蛋白表达载体 ,在大肠杆菌高效表达了GST AWP1融合蛋白 ,并获得高效多抗 ,为下阶段深入AWP1功能研究提供了重要的基础     

人乳头瘤病毒18型L1蛋白在大肠埃希菌中的可溶性表达及病毒样颗粒的形成

目的利用大肠埃希菌系统可溶性表达人乳头瘤病毒18型(HPV18)L1蛋白,纯化和重组装获得HPV18病毒样颗粒(VLPs),为进一步研制HPV18基因工程疫苗奠定基础。方法首先按大肠埃希菌密码子偏好进行HPV18L1全基因合成,经PCR扩增出截短的HPV18L1基因,构建重组表达载体PET30a-L1,通过优化表达在大肠埃希菌BL21中可溶性表达L1蛋白,其次采用硫酸铵沉淀、离子交换层析、疏水层析后,获得高纯度的的L1蛋白,再通过解聚和重聚获得VLPs。结果全基因优化并截短的HPV18L1蛋白在大肠埃希菌系统中以可溶形式表达,纯化后的蛋白纯度达到90%以上,电镜下观察到直径为60 nm的VLPs颗粒。结论利用大肠埃希菌系统可溶性表达非融合HPV18L1蛋白,并获得均一的VLPs颗粒,为疫苗的开发奠定基础。     

The protein phosphatases involved in cellular regulation. Purification and characterisation of the glycogen-bound form of protein phosphatase-1 from rabbit skeletal muscle

A type-1 protein phosphatase (protein phosphatase-1G) was purified to homogeneity from the glycogen-protein particle of rabbit skeletal muscle. Approximately 3 mg of enzyme were isolated within 4 days from 5000 g of muscle. Protein phosphatase-1G had a molecular mass of 137 kDa and was composed of two subunits G (103 kDa) and C (37 kDa) in a 1:1 molar ratio. The subunits could be dissociated by incubation in the presence of 2 M NaCl, separated by gel-filtration on Sephadex G-100, and recombined at low ionic strength. The C component was the catalytic subunit, and was identical to the 37-kDa type-1 protein phosphatase catalytic subunit (protein phosphatase-1C) isolated from ethanol-treated muscle extracts, as judged by peptide mapping. The G component was the glycogen-binding subunit. It was very asymmetric, extremely sensitive to proteolytic degradation, and failed to silver stain on SDS/polyacrylamide gels. Protein phosphatase-1G was inhibited by inhibitor-1 and inhibitor-2, but unlike protein phosphatase-1C, the rate of inactivation was critically dependent on the ionic strength, temperature and time of preincubation with the inhibitor protein. At near physiological temperature and ionic strength, protein phosphatase-1G was inactivated very rapidly by inhibitor-1. Protein phosphatase-1G interacted with inhibitor-2 (I-2) to form an inactive species, with the structure GCI-2. This form could be activated by preincubation with Mg-ATP and glycogen synthase kinase-3. The G subunit could be phosphorylated on a serine residue(s) by cyclic-AMP-dependent protein kinase, but not by phosphorylase kinase or glycogen synthase kinase-3. Phosphorylation was rapid and stoichiometric, and increased the rate of inactivation of protein phosphatase-1G by inhibitor-1. The relationship of the G subunit to the 'deinhibitor protein' is discussed.     

Induction of S100 protein in 3T3-L1 cells during differentiation to adipocytes and its liberating by lipolytic hormones

When confluent cultures of cloned mouse 3T3-L1 cells were differentiated to adipocytes by three days of treatment with a combination of 0.5 microM dexamethasone and 0.5 mM 1-methyl-3-isobutylxanthine, the S100 protein content in the cells increased markedly, as determined by a sensitive immunoassay system. The S100 protein induced in the cell was the alpha alpha form (S100ao), which is the predominant form of S100 protein in mouse adipose tissue. The S100ao concentration in preadipocytes was about 1-3 ng/mg protein, while the concentration in differentiated adipocytes was 60-200 ng/mg protein. The immunoblotting test of the crude extract of adipocytes confirmed that the immunoreactive substance in the cells was the alpha subunit of S100 protein. The treatment with 1-methyl-3-isobutylxanthine or dexamethasone alone neither elicited the S100 protein induction nor triacylglycerols accumulation in the cells. The accumulation of triacyglycerols in the cells was always preceded by the induction of S100ao protein under conditions where the differentiation to adipocytes was elicited. The induction of S100ao protein and accumulation of triacylglycerols in the cells treated with dexamethasone and 1-methyl-3-isobutylxanthine were inhibited by the addition of antimicrotubular drugs, colchicine and vinblastine, but not by cytochalasin B, an antimicrofilament drug. S100ao protein in 3T3-L1 adipocytes was released by incubation with a lipolytic hormone, adrenocorticotropic hormone or catecholamines, in a cyclic-AMP-dependent manner as observed with rat epididymal fat pads [Biochim. Biophys. Acta (1986) 889, 84-90]. These results also suggest that S100 protein may participate in the function of adipocytes.     

冠状病毒HcoV-229E S1蛋白的原核表达及鉴定

目的克隆表达冠状病毒HcoV-229E S1基因片段,表达S1蛋白。方法合成冠状病毒HcoV-229ES1蛋白特异性基因片段并克隆入pET21a原核表达载体,转化BL21（DE3）菌,经IPTG高效诱导表达得到重组蛋白,用金属螯合亲和层析纯化,并通过Western blot对表达的重组蛋白进行鉴定。结果获得了主要以包涵体形式存在的目的蛋白,Western blot鉴定其为S1基因片段蛋白。结论成功构建了HcoV-229E S1蛋白的表达载体,并在BL21（DE3）中得到了高效表达,为下一步表达蛋白免疫原性及疫苗抗病毒保护性测定打下了基础。     

Rap1A is a substrate for cyclic AMP-dependent protein kinase in human neutrophils

The Ras-related protein, Rap1B, has previously been shown to serve as a PKA substrate in vitro and to be phosphorylated by cAMP elevating agents in human platelets. We have purified a Rap1 protein that serves as a PKA substrate from human neutrophils, and we now identify this protein as Rap1A. A 23-kDa protein that co-migrated with recombinant Rap1A was phosphorylated in electroporated human neutrophils upon stimulation by cAMP in the presence of [gamma-32P]ATP. This protein could be immunoprecipitated by the Rap1A/B-specific antibody, R61. The 23-kDa phosphoprotein was monitored during the purification of Rap1 from neutrophil membrane extracts and was shown to copurify with Rap1 during the DEAE Sephacel, heptylamine Sepharose, and MonoQ chromatography steps utilized. The purified protein was phosphorylated to an extent of 1 mol phosphate/mol GTP gamma S bound. This protein was identified as Rap1A by: 1) amino acid sequence analysis; and 2) immunoblotting with a Rap1A-specific antibody. The amino acid phosphorylated on Rap1A by PKA was a serine residue. The site of phosphorylation was indicated by carboxypeptidase digestion and confirmed using a mutant recombinant Rap1A lacking the relevant serine (serine-180). Rap1A, not Rap1B, appears to be the major 23-kDa PKA substrate in human neutrophils. It is possible that Rap1A plays a role in human neutrophils in mediating the inhibitory effects of cAMP-elevating agents upon chemoattractant-stimulated cell activation.     

Phosphorylation of the yeast phospholipid synthesis regulatory protein Opi1p by protein kinase C

Opi1p is a negative regulator of expression of phospholipid-synthesizing enzymes in the yeast Saccharomyces cerevisiae. In this work, we examined the phosphorylation of Opi1p by protein kinase C. Using a purified maltose-binding protein-Opi1p fusion protein as a substrate, protein kinase C activity was time- and dose-dependent, and dependent on the concentrations of Opi1p and ATP. Protein kinase C phosphorylated Opi1p on a serine residue. The Opi1p synthetic peptide GVLKQSCRQK, which contained a protein kinase C sequence motif at Ser(26), was a substrate for protein kinase C. Phosphorylation of a purified S26A mutant maltose-binding protein-Opi1p fusion protein by the kinase was reduced when compared with the wild-type protein. A major phosphopeptide present in purified wild-type Opi1p was absent from the purified S26A mutant protein. In vivo labeling experiments showed that the phosphorylation of Opi1p was physiologically relevant, and that the extent of phosphorylation of the S26A mutant protein was reduced by 50% when compared with the wild-type protein. The physiological consequence of the phosphorylation of Opi1p at Ser(26) was examined by measuring the effect of the S26A mutation on the expression of the phospholipid synthesis gene INO1. The beta-galactosidase activity driven by an INO1-CYC-lacI'Z reporter gene in opi1Delta mutant cells expressing the S26A mutant Opi1p was about 50% lower than that of cells expressing the wild-type Opi1p protein. These data supported the conclusion that phosphorylation of Opi1p at Ser(26) mediated the attenuation of the negative regulatory function of Opi1p on the expression of the INO1 gene.     

The amino acid sequence of ribonuclease U1, a guanine-specific ribonuclease from the fungus Ustilago sphaerogena

The complete amino acid sequence of ribonuclease U1 (RNase U1), a guanine-specific ribonuclease from a fungus, Ustilago sphaerogena, was determined by conventional protein sequencing, using peptide fragments obtained by several enzymatic cleavages of the performic acid-oxidized protein. The oxidized protein was first cleaved by trypsin and the resulting peptides were purified and their amino acid sequences were determined. These tryptic peptides were aligned with the aid of overlapping peptides isolated from a chymotryptic digest of the oxidized protein. The amino acid sequence thus deduced was further confirmed by isolation and analysis of peptides obtained by digestion of the oxidized protein with lysyl endopeptidase. The location of the disulfide bonds was deduced by isolation and analysis of cystine-containing peptides from a chymotryptic digest of heat-denatured RNase U1. These results showed that the protein is composed of a single polypeptide chain of 105 amino acid residues cross-linked by two disulfide bonds, having a molecular weight of 11,235, and that the NH2-terminus is blocked by a pyroglutamate residue. It has an overall homology with other guanine-specific or related ribonucleases, and shows 48% identity with RNase T1 and 38% identity with RNase U2.     

Purification and characterization of the penicillin-binding protein that is the lethal target of penicillin in Bacillus megaterium and Bacillus licheniformis. Protein exchange and complex stability.

The penicillin-binding protein that is thought to be the lethal target of penicillin in Bacillus megaterium (protein 1) has been purified to greater than 95% homogeneity. The membrane-bound penicillin-binding proteins were solubilized with a non-ionic detergent and partially separated from each other by ion-exchange chromatography on DEAE-Sepharose CL-6B. Protein 1 was subsequently purified by covalent affinity chromatography on ampicillin-affinose. Bacillus licheniformis contains an equivalent penicillin-binding protein (protein 1) that can be more readily purified to virtual homogeneity in a one-step procedure. It was separated from the other penicillin-binding proteins by utilizing the observation that in this organism, this particular protein is the only one whose covalent complex with benzylpenicillin subsequently breaks down. Membranes were treated with saturating concentrations of benzylpenicillin followed by the removal of free penicillin and further incubation to allow the complex between benzylpenicillin and protein 1 to break down. The penicillin-binding proteins were then solubilized and applied to a column of ampicillin-affinose to which only protein 1 was bound as the other penicillin-binding proteins still had benzylpenicillin bound to them. Pure protein 1 was eluted from the affinity resin with hydroxylamine. The interaction of benzylpenicillin with purified protein 1 has been studied by separating unbound antibiotic from the benzylpenicillin . protein complex by paper electrophoresis. Benzylpenicillin reacts with the protein rapidly to form a covalent complex and the fully saturated complex has a molar ratio of bound [14C] benzylpenicillin: protein of 0.7:1. The complex breaks down, obeying first-order kinetics, with a half-life of 16 min at 35 degrees C, a value identical to that obtained with the membrane-bound protein. The concentration of benzylpenicillin that results in the formation of 50% of the maximum amount of benzylpenicillin . protein complex is that at which the molar amount of benzylpenicillin present is equal to 50% of the molar amount of penicillin-binding protein, rather than being a measure of any of the kinetic parameters of the binding reaction. This observation may be significant in the interpretation of previous results where the amounts of penicillins needed to kill cells or to inhibit penicillin-sensitive reactions have been expressed as concentrations. The possible importance of the breakdown of beta-lactam . protein complexes in the clinical use of these antibiotics is discussed.     

Flotillin 2 is distinct from epidermal surface antigen (ESA) and is associated with filopodia formation.

ECS-1, a monoclonal antibody (MoAb) raised to cultured human keratinocytes, stains the intercellular glycocalyx with a pemphigus-like pattern and recognizes a 35-kDa epidermal surface antigen (ESA) on Western blotting of keratinocyte extracts. When ECS-1 MoAb was used to screen a keratinocyte expression library, a unique cDNA was identified that predicted a 42-kDa globular protein of unknown function. This putative ESA was conserved between mice and humans and was encoded by a gene on chromosome 17q11-12 in linkage with neurofibromin. Homology between the cDNA sequence has been reported with flotillin 1, a caveolae associated protein, as well as Reggie 1 and 2, neuronal proteins expressed during axonal regeneration present in activated GPI-anchored cell adhesion molecules in non-caveolar-associated micropatches. In order to determine whether the cDNA predicted protein and ECS-1 antigen were identical, we compared ECS-1 with the immunoreactivity of a new antibody raised to the cDNA fusion protein in epidermis and cultured cells. The cDNA fusion protein was expressed in bacteria and in cos cells with his, FLAG, and EGFP reporter tags and by stable transfection as an EGFP fusion protein. The fusion protein and native protein of 42 kDa were detected by the new antibody, but not by the original ECS-1. Thus, the ECS-1 antigen, ESA (35 kDa), is clearly distinct from the protein predicted by the cDNA (renamed flotillin 2). Stable transfection of ESA/flotillin 2 fusion protein in cos cells induced filopodia formation and changed epithelial cells to a neuronal appearance. Thus, the function of flotillin 2 may resemble that of the goldfish optic nerve neuronal regeneration proteins, Reggie 1 and 2.     

Identification of the Plasmodium falciparum rhoptry neck protein 5 (PfRON5)

In this study a gene for a drought stress-inducible putative membrane protein was cloned and characterised from root tissue of wild emmer wheat. Sequence analysis indicated that the protein is a member of the widespread but hitherto uncharacterised TMPIT (transmembrane protein inducible by TNF-α) family, so it was labelled TdicTMPIT1. Real-time RT-PCR showed that the TdicTMPIT1 gene is upregulated on drought stress in drought-tolerant wild emmer wheat, but not in a drought-sensitive accession or in cultivated durum wheat. The TdicTMPIT1 product was predicted to be a membrane protein with four transmembrane helices. The protein was expressed and analysed in Escherichia coli and Saccharomyces cerevisiae. Cellular localisation of the protein in the cell was also investigated using an eGFP-tagged form of the protein in S. cerevisiae. Results obtained by confocal laser microscopy indicated that the TdicTMPIT1 tagged with GFP was localised in a membraneous compartment. It is concluded that TdicTMPIT1 is a membrane protein associated with the drought stress response in wild emmer wheat, and so it may be useful for the improvement of modern wheat genotypes. Members of this protein family in other organisms are proposed also to be involved in stress responses.     

Studies on Protein Metabolism in Higher Plants

Changes in ribulose diphosphate (RuDP) carboxylase activity and the content of fraction 1 protein, which had been elucidated to be identical with protein of RuDP carboxylase, in tobacco leaves were examined with age, comparing with change in total protein content. Fraction 1 protein was determined by an immunological precipitin method developed in this experiment. Fraction 1 protein decreased with age and the rate was similar or a little larger than those of total protein and total chlorophyll. The carboxylase activity decreased more rapidly than fraction 1 protein during the senescent process. In a plant, upper leaves showed higher values of the carboxylase activity and fraction 1 protein content than lower leaves. The specific activity, RuDP carboxylase activity per unit fraction 1 protein, in upper leaves was higher than that in lower leaves.     

可调控表达人博卡病毒1型非结构蛋白NS1稳定细胞系的建立及其反式转录激活作用初探

人博卡病毒1型(Human bocavirus 1,HBoV1)非结构蛋白NS1是多功能蛋白,对病毒复制有重要作用,同时可诱导宿主细胞凋亡。在研究NS1蛋白功能时,降低NS1蛋白对宿主细胞的毒性作用是急需解决的问题。基于此,文中建立了可调控表达HBoV1非结构蛋白NS1的稳定细胞系。构建NS1重组慢病毒质粒(含可调控启动子),应用转染试剂将NS1重组慢病毒质粒转染至HEK293T细胞。通过嘌呤霉素筛选抗性细胞、多西环素诱导NS1表达,建立可稳定表达NS1-100、NS1-70蛋白的HEK 293T细胞系,利用荧光标记蛋白和Western blotting检测,确定NS1蛋白的表达。并在稳定表达NS1细胞系中转染HBoV1启动子-荧光素酶基因的质粒,分析NS1的反式转录激活活性。结果表明NS1蛋白可在建立的细胞系中稳定表达,且稳定表达NS1蛋白对HBoV1启动子有较强的激活活性,为进一步研究非结构蛋白NS1的功能及人博卡病毒致病机理奠定了良好的基础。     

Characterisation of an evolutionary conserved protein interacting with the putative guanine nucleotide exchange factor DelGEF and modulating secretion

A human cDNA library was screened for proteins interacting with the deafness locus putative guanine nucleotide exchange factor (DelGEF) using a yeast two-hybrid system. A protein with a predicted size of 9 kDa was identified as a binding partner, this protein was designated DelGEF interacting protein 1 (DelGIP1). The interaction between DelGEF and DelGIP1 was verified by co-immunoprecipitation of a DelGEF-DelGIP1 complex from cell lysates. Highly conserved homologues of DelGIP1 were identified in higher and lower eukaryotes by database searching. The human DelGIP1 gene is ubiquitously expressed as judged by human multiple tissue Northern blot analysis. DelGEF was recently shown to interact with Sec5, a protein involved in secretion, and to regulate secretion of proteoglycans. Downregulation of endogenous DelGIP1 in HeLa cells induced increased extracellular secretion of proteoglycans indicating a possible role for DelGIP1 in the secretion process.     

Vimentin is hyperphosphorylated in primary human fibroblasts treated with okadaic acid.

Okadaic acid and dinophysistoxin-1 (35-methylokadaic acid) induced hyperphosphorylation of a 58 kDa protein in primary human fibroblasts, due to inhibition of protein phosphatase 1 and 2A activities. The protein was present in the nuclear and cytosolic fractions. Its pI was 5.3. The hyperphosphorylated protein reacted with monoclonal and polyclonal anti-vimentin antibodies, but not with anti-nucleolin antibody. Phosphorylation of vimentin was stimulated in vitro by dinophysistoxin-1 dose-dependently in the presence of protein phosphatase 2A and protein kinases.