Cloning and Expression of an Endo-1,6-β-D-glucanase Gene (neg1) from Neurospora crassa

A gene (neg1) encoding an endo-1,6-β-D-glucanase from Neurospora crassa was cloned. The putative neg1 was 1443-bp long and encoded a mature endo-1,6-β-D-glucanase protein of 463 amino acids and signal peptide of 17 amino acids. The purified recombinant protein (Neg1) obtained from Escherichia coli showed 1,6-β-D-glucanase activity. No genes similar in sequence were found in yeasts and fungi.     

荧光蛋白标签对gD囊膜蛋白在BHK-21细胞亚细胞定位的影响

【目的】探究荧光蛋白标签对马疱疹病毒I型(Equine herpes virus type 1,EHV-1)gD囊膜蛋白亚细胞定位的影响。【方法】以EHV-1基因组为模板利用PCR扩增gD全基因,分别克隆至pAcGFP1-C1和p Ds Red2-N1质粒,构建p Ac-GFP-gD(GFP-gD)和p Ds-gD-Red(gD-Red)重组质粒;将GFP基因插入gD基因信号肽序列之后并克隆至PVAX-1质粒,构建PVAX-S-GFP-gD’(S-GFP-gD’)重组质粒;将Flag标签序列与gD囊膜蛋白N端序列融合后并克隆至p VAX-1表达载体,构建p VAX-Flag-gD(Flag-gD)重组质粒。将4种不同重组真核表达质粒分别转染BHK-21细胞,通过激光共聚焦显微镜对不同融合蛋白gD进行亚细胞定位。【结果】成功构建4种不同的融合蛋白gD真核表达载体;在BHK-21细胞单独表达时,不同融合蛋白gD绝大部分都定位于高尔基体,极少量定位于细胞核内。【结论】不同插入位点的荧光蛋白标签对gD囊膜蛋白亚细胞定位无明显影响,这对今后研究其它蛋白亚细胞定位提供参考。     

<Emphasis Type="Italic">Escherichia coli</Emphasis> signal peptidase recognizes and cleaves the signal sequence of xylanase from a newly isolated <Emphasis Type="Italic">Bacillus subtilis</Emphasis> strain R5

A gene encoding the xylanase from Bacillus subtilis strain R5 containing the native signal sequence was cloned and expressed in Escherichia coli. The heterologous expression of the gene resulted in the production of the recombinant protein in the cytoplasm as well as its secretion into the culture medium. The xylanase activity in the culture medium increased with time after induction up to 90% of the total activity in 14 h. Molecular mass and N-terminal amino acid sequence determinations of the purified recombinant xylanase revealed that the native signal peptide was cleaved off by E. coli signal peptidases between Ala28 and Ala29.     

Cloning,Sequencing, and Expression of a β-Amylase Gene from Bacillus cereus var. mycoides and Characterization of Its Products

The cloned gene was composed of 1638 bp for coding plus promoter like and SD-like sequences ahead of it. The deduced amino acid sequence had high similarity with known β-amylases. The N-terminal sequence of the cloned β-amylase seemed to be a signal peptide. The gene was introduced into Bacillus subtilis 1A289 using pHY300PLK as a vector and the expressed protein was recovered from the culture media. The enzyme fraction produced was divided into two components upon the DEAE column chromatography. The amino acid sequence of one fraction (FrI) was the same as the mature enzyme, and the other (FrII) lacked the N-terminal amino acid residue (Ala) of the mature enzyme. The kinetic parameters of the hydrolysis catalyzed by the enzyme component FrI were measured, and the subsite affinities of the enzyme were evaluated. In conclusion, it was shown that the recombinant enzyme was the same as the mature enzyme functionally and proteochemically.     

Production of a recombinant chitin oligosaccharide deacetylase from Vibrio parahaemolyticus in the culture medium of Escherichia coli cells

An open reading frame (ORF) encoding chitin oligosaccharide deacetylase (Pa-COD) gene and its signal sequence was cloned from the Vibrio parahaemolyticus KN1699 genome and its sequence was analyzed. The ORF encoded a 427 amino acid protein, including the 22 amino acid signal sequence. The deduced amino acid sequence was highly similar to several bacterial chitin oligosaccharide deacetylases in carbohydrate esterase family 4. An expression plasmid containing the gene was constructed and inserted into Escherichia coli cells and the recombinant enzyme was secreted into the culture medium with the aid of the signal peptide. The concentration of the recombinant enzyme in the E. coli culture medium was 150 times larger than that of wild-type enzyme produced in the culture medium by V. parahaemolyticus KN1699. The recombinant enzyme was purified to homogeneity from culture supernatant in an overall yield of 16%. Substrate specificities of the wild-type and the recombinant enzymes were comparable.     

Cloning and expression of a toxin gene from Pseudomonas fluorescens GcM5-1A

Pseudomonas fluorescens GcM5-1A was isolated from the pine wood nematode (PWN), Bursaphelenchus xylophilus, obtained from wilted Japanese black pine, Pinus thumbergii, in China. In this paper, a genomic library of the GcM5-1A strain was constructed and a toxin–producing clone was isolated by bioassay. Nucleotide sequence analysis revealed an open reading frame of 1,290 bp encoding a protein of 429 amino acids with N-terminal putative signal peptide of 36 amino acids, which shared a similarity of 83, 82 and 80% identity with hypothetical protein PFLU2919 from P. fluorescens SBW25, Dyp-type peroxidase family protein from P. fluorescens Pf-5 and Tat-translocated enzyme from P. fluorescens Pf0-1, respectively. The gene encoding a full-length protein or without the putative signal peptide was cloned and expressed as a soluble protein in E. coli. The recombinant protein was purified to electrophoretic homogeneity by affinity chromatography using a Ni²⁺ matrix column. Its relative molecular weight was estimated to be 48.5 kDa by SDS-PAGE for full-length protein, and 45.0 kDa for the recombinant protein without putative signal peptide. Bioassay results showed that the recombinant protein with or without the putative signal peptide was toxic to both suspension cells and P. thunbergii seedlings. HPLC analysis demonstrated that components in branch extracts of P. thunbergii were significantly changed after addition of the recombinant full-length protein and hydrogen peroxide, which indicated that it is probably a peroxidase. This study offers information that can be used to determine the mechanism of pine wilt disease caused by the PWN.     

粘质沙雷氏菌几丁质酶基因ChiA克隆及生物信息学分析

通过生物信息学技术对Chi A基因序列进行分析预测,了解Chi A的基因结构及蛋白质性质。从自有菌株(粘质沙雷氏菌Serratia mareescens S68)中克隆到几丁质酶基因Chi A,利用相关软件对Chi A基因序列进行分析预测。Chi A基因全长1 714 bp,开放阅读框编码563个氨基酸,推测其编码的蛋白质分子量为60 983.8Da,等电点为6.35,是一种稳定的亲水性蛋白质。预测Chi A可能存在信号肽,切割位点在第23~24位氨基酸之间,1~23位氨基酸为其跨膜结构,其余肽链位于细胞外。Chi A主要存在3种二级结构元件,在二级、三级结构中都有体现。该Chi A是一种水溶性蛋白质,结构稳定且可以分泌到胞外。     

Recombinant Protein Secretion in Pseudozyma flocculosa and Pseudozyma antarctica with a Novel Signal Peptide

Secretion of recombinant proteins aims to reproduce the correct posttranslational modifications of the expressed protein while simplifying its recovery. In this study, secretion signal sequences from an abundantly secreted 34-kDa protein (P34) from Pseudozyma flocculosa were cloned. The efficiency of these sequences in the secretion of recombinant green fluorescent protein (GFP) was investigated in two Pseudozyma species and compared with other secretion signal sequences, from S. cerevisiae and Pseudozyma spp. The results indicate that various secretion signal sequences were functional and that the P34 signal peptide was the most effective secretion signal sequence in both P. flocculosa and P. antarctica. The cells correctly processed the secretion signal sequences, including P34 signal peptide, and mature GFP was recovered from the culture medium. This is the first report of functional secretion signal sequences in P. flocculosa. These sequences can be used to test the secretion of other recombinant proteins and for studying the secretion pathway in P. flocculosa and P. antarctica.     

Versatile signal peptide of Flavobacterium‐originated organophosphorus hydrolase for efficient periplasmic translocation of heterologous proteins in Escherichia coli

Organophosphorus hydrolase (OPH) from Flavobacterium species is a membrane‐associated homodimeric metalloenzyme and has its own signal peptide in its N‐terminus. We found that OPH was translocated into the periplasmic space when the original signal peptide‐containing OPH was expressed in recombinant Escherichia coli even though its translocation efficiency was relatively low. To investigate the usability of this OPH signal peptide for periplasmic expression of heterologous proteins in an E. coli system, we employed green fluorescent protein (GFP) as a cytoplasmic folding reporter and alkaline phosphatase (ALP) as a periplasmic folding reporter. We found that the OPH signal peptide was able to use both twin‐arginine translocation (Tat) and general secretory (Sec) machineries by switching translocation pathways according to the nature of target proteins in E. coli. These results might be due to the lack of Sec‐avoidance sequence in the c‐region and a moderate hydrophobicity of the OPH signal peptide. Interestingly, the OPH signal peptide considerably enhanced the translocation efficiencies for both GFP and ALP compared with commonly used TorA and PelB signal peptides that have Tat and Sec pathway dependences, respectively. Therefore, this OPH signal peptide could be successfully used in recombinant E. coli system for efficient periplasmic production of target protein regardless of the subcellular localization where functional folding of the protein occurs. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:848–854, 2016     

Activation of the PDGF β Receptor by a Persistent Artificial Signal Peptide

Most eukaryotic transmembrane and secreted proteins contain N-terminal signal peptides that mediate insertion of the nascent translation products into the membrane of the endoplasmic reticulum. After membrane insertion, signal peptides typically are cleaved from the mature protein and degraded. Here, we tested whether a small hydrophobic protein selected for growth promoting activity in mammalian cells retained transforming activity while also acting as a signal peptide. We replaced the signal peptide of the PDGF β receptor (PDGFβR) with a previously described 29-residue artificial transmembrane protein named 9C3 that can activate the PDGFβR in trans. We showed that a modified version of 9C3 at the N-terminus of the PDGFβR can function as a signal peptide, as assessed by its ability to support high level expression, glycosylation, and cell surface localization of the PDGFβR. The 9C3 signal peptide retains its ability to interact with the transmembrane domain of the PDGFβR and cause receptor activation and cell proliferation. Cleavage of the 9C3 signal peptide from the mature receptor is not required for these activities. However, signal peptide cleavage does occur in some molecules, and the cleaved signal peptide can persist in cells and activate a co-expressed PDGFβR in trans. Our finding that a hydrophobic sequence can display signal peptide and transforming activity suggest that some naturally occurring signal peptides may also display additional biological activities by interacting with the transmembrane domains of target proteins.     

Characterization of the cleavage of signal peptide at the C-terminus of hepatitis C virus core protein by signal peptide peptidase

Production of hepatitis C virus (HCV) core protein requires the cleavages of polyprotein by signal peptidase and signal peptide peptidase (SPP). Cleavage of signal peptide at the C-terminus of HCV core protein by SPP was characterized in this study. The spko mutant (mutate a.a. 189–193 from ASAYQ to PPFPF) is more efficient than the A/F mutant (mutate a.a 189 and 191 from A to F) in blocking the cleavage of signal peptide by signal peptidase. The cleavage efficiency of SPP is inversely proportional to the length of C-terminal extension of the signal peptide: the longer the extension, the less efficiency the cleavage is. Thus, reducing the length of C-terminal extension of signal peptide by signal peptidase cleavage could facilitate further cleavage by SPP. The recombinant core protein fused with signal peptide from the C-terminus of p7 protein, but not those from the C-termini of E1 and E2, could be cleaved by SPP. Therefore, the sequence of the signal peptide is important but not the sole determinant for its cleavage by SPP. Replacement of the HCV core protein E.R.-associated domain (a.a. 120–150) with the E.R.-associated domain (a.a.1–50) of SARS-CoV membrane protein results in the failure of cleavage of this recombinant protein by SPP, though this protein still is E.R.-associated. This result suggests that not only E.R.-association but also specific protein sequence is important for the HCV core protein signal peptide cleavage by SPP. Thus, our results suggest that both sequences of the signal peptide and the E.R.-associated domain are important for the signal peptide cleavage of HCV core protein by SPP. Electronic Supplementary MaterialThe online version of this article (doi: ) contains supplementary material, which is available to authorized users.     

Overproduction of Biologically-active Human Nerve Growth Factor in Escherichia coli

A gene coding for human nerve growth factor (hNGF) was constructed for expression under control of the trp promoter in E. coli. The plasmid pTRSNGF contained a synthetic hNGF gene fused, in frame, to the region encoding the β-lactamase signal peptide. The plasmid pTRLNGF contained the same coding sequence as hNGF attached downstream from the N-terminal fragment of the trp L gene. E. coli cells harboring pTRSNGF produced an amount of hNGF constituting 4% of the total cellular protein, and removed the β-lactamase signal peptide. The mature protein hNGF was biologically active in the PC12h bioassay for neurite outgrowth. This biological activity was comparable to that of authentic mouse NGF. E. coli cells harboring pTRLNGF produced an amount of fusion protein hNGF constituting 25% of the total cellular protein. Although the fusion protein hNGF formed inclusion bodies in cells, dissolved fusion protein hNGF was active in neurite outgrowth from PC12h cells.     

Activin A Binds to Perlecan through Its Pro-region That Has Heparin/Heparan Sulfate Binding Activity

Activin A, a member of the transforming growth factor-β family, plays important roles in hormonal homeostasis and embryogenesis. In this study, we produced recombinant human activin A and examined its abilities to bind to extracellular matrix proteins. Recombinant activin A expressed in 293-F cells was purified as complexes of mature dimeric activin A with its pro-region. Among a panel of extracellular matrix proteins tested, recombinant activin A bound to perlecan and agrin, but not to laminins, nidogens, collagens I and IV, fibronectin, and nephronectin. The binding of recombinant activin A to perlecan was inhibited by heparin and high concentrations of NaCl and abolished by heparitinase treatment of perlecan, suggesting that activin A binds to the heparan sulfate chains of perlecan. In support of this possibility, recombinant activin A was capable of directly binding to heparin and heparan sulfate chains. Site-directed mutagenesis of recombinant activin A revealed that clusters of basic amino acid residues, Lys²⁵⁹-Lys²⁶³ and Lys²⁷⁰-Lys²⁷², in the pro-region were required for binding to perlecan. Interestingly, deletion of the peptide segment Lys²⁵⁹-Gly²⁷⁷ containing both basic amino acid clusters from the pro-region did not impair the activity of activin A to stimulate Smad-dependent gene expressions, although it completely ablated the perlecan-binding activity. The binding of activin A to basement membrane heparan sulfate proteoglycans through the basic residues in the pro-region was further confirmed by in situ activin A overlay assays using frozen tissue sections. Taken together, the present results indicate that activin A binds to heparan sulfate proteoglycans through its pro-region and thereby regulates its localization within tissues.     

Preparation of recombinant human thymic stromal lymphopoietin protein

Human thymic stromal lymphopoietin (hTSLP) protein plays a central role in inflammation. Characterizing properties of hTSLP requires a recombinant overexpression system that produces correctly folded, active hTSLP. In this report, an efficient overexpression system for the production of hTSLP was developed. We constructed expression plasmids of the full-length hTslp gene with or without the signal peptide and transformed the plasmids into Escherichia coli. The design of the recombinant proteins included an N-terminal His-tag, which facilitated purification. An affinity gradient elution method was used to improve recovery and concentration levels of denatured hTSLP, with 90% purity observed following affinity chromatography. Refolding of the denatured hTSLP was tested using four different protein refolding approaches. The optimal refolding conditions involved stepwise buffer exchanges to reduce the urea concentration from 4 to 0?M in 50?mM Tris (pH 8.0), 1?mM EDTA, 50?mM NaCl, 10% glycerol, 400?mM L-Arg, 0.2?mM oxidized glutathione, and 2?mM reduced glutathione. The activity of the refolded recombinant hTSLP protein was measured by an ELISA assay. Interestingly, the presence of N-terminal signal peptide inhibited the overexpression of hTSLP in E. coli. The amount of recombinant hTSLP protein purified reached a level of 2.52?×?10^?3?mg/L.     

Expression cassette and plasmid construction for Yeast Surface Display in Saccharomyces cerevisiae

Objectives

Develop a Cell Surface Display system in Saccharomyces cerevisiae, based on the construction of an expression cassette for pYES2 plasmid.

Results

The construction of an expression cassette containing the α-factor signal peptide and the C-terminal portion of the α-agglutinin protein was made and its sequence inserted into a plasmid named pYES2/gDαAgglutinin. The construction allows surface display of bovine herpesvirus type 5 (BoHV-5) glycoprotein D (gD) on S. cerevisiae BY4741 strain. Recombinant protein expression was confirmed by dot blot, and indirect immunofluorescence using monoclonal anti-histidine antibodies and polyclonal antibodies from mice experimentally vaccinated with a recombinant gD.

Conclusions

These results demonstrate that the approach and plasmid used represent not only an effective system for immobilizing proteins on the yeast cell surface, as well as a platform for immunobiologicals development.

     

Acetyl-Ile-Gly-Leu protects neurons from Aβ1–42 induced toxicity in vitro and in V337M human tau-expressing mice

AimsWe previously reported that the neurotoxicity of amyloid β protein (Aβ_1–42, 10 nM) was blocked by an Aβ-derived tripeptide, Aβ_32–34 (Ile-Gly-Leu, IGL), suggesting that IGL may be a lead compound in the design of Aβ antagonists. In the present study, three stable forms of IGL peptide with acetylation of its N-terminal and/or amidation of its C-terminal (acetyl-IGL, IGL-NH₂ and acetyl-IGL-NH₂) were synthesized and examined for their effects on Aβ-induced neurotoxicity.Main methodsPhosphatidylinositol 4-kinase type II (PI4KII) activity was measured using recombinant human PI4KIIα kinase and cell viability was assessed in primary cultured hippocampal neurons. To test effects in vivo, 1.5 μl of 100 nM Aβ and/or 100 nM acetyl-IGL was injected into the hippocampal CA1 region of right hemisphere in transgenic mice expressing V337M human tau protein. Four weeks later, behavior performance in the Morris water maze was tested and after another 2 weeks, sections of brain were prepared for immunohistochemistry.Key findingsAmong the three modified tripeptides, acetyl-IGL attenuated the Aβ-induced inhibition of PI4KII activity as well as enhancement of glutamate neurotoxicity in primary cultured rat hippocampal neurons. Injection of Aβ into the hippocampus of mice impaired spatial memory and increased the number of degenerating neurons in bilateral hippocampal regions. Co-injection of acetyl-IGL prevented the learning impairment as well as the neuronal degeneration induced by Aβ.SignificanceThese results suggest that a modified tripeptide, acetyl-IGL, may be effective in the treatment of Alzheimer's disease.     

Secretion, purification, and characterisation of barley α-amylase produced by heterologous gene expression in Aspergillus niger

Efficient production of recombinant barley α-amylase has been achieved in Aspergillus niger. The cDNA encoding α-amylase isozyme 1 (AMY1) and its signal peptide was placed under the control of the Aspergillus nidulans glyceraldehyde-3-phosphate dehydrogenase (gpd) promoter and the A. nidulans trpC gene terminator. Secretion yields up to 60 mg/l were obtained in media optimised for α-amylase activity and low protease activity. The recombinant AMY1 (reAMY1) was purified to homogeneity and found to be identical to native barley AMY1 with respect to size, pI, and immunoreactivity. N-terminal sequence analysis of the recombinant protein indicated that the endogenous plant signal peptide is correctly processed in A. niger. Electrospray ionisation/mass spectrometry gave a molecular mass for the dominant form of 44 960 Da, in accordance with the loss of the LQRS C-terminal residues; glycosylation apparently did not occur. The activities of recombinant and native barley α-amylases are very similar towards insoluble and soluble starch as well as 2-chloro-4-nitrophenol β-d-maltoheptaoside and amylose (degree of polymerisation = 17). Barley α-amylase is the first plant protein efficiently secreted and correctly processed by A. niger using its own signal sequence. Received: 22 August 1997 / Received revision: 21 November 1997 / Accepted: 29 November 1997     

An antimicrobial peptide of the earthworm Pheretima tschiliensis: cDNA cloning, expression and immunolocalization

A cDNA encoding a putative antimicrobial peptide (named PP-1) was obtained using a rapid amplification of cDNA ends from the Asian earthworm, Pheretima tschiliensis. PP-1 showed 77.6% homology with the antimicrobial peptide lumbricin I isolated from the earthworm Lumbricus rubellus. PP-1 lacked an obvious signal peptide sequence. RT-PCR analysis demonstrated that this gene was expressed mainly in the body wall. PP-1 was expressed in Escherichia coli as a fusion protein with a maltoze-binding protein. A polyclonal antiserum was raised in mice using this recombinant fusion protein as antigen. Immunohistochemical studies showed that PP-1 was only in the mucus of the epidermis.     

Synthesis, purification and bioactivity of recombinant human activin A expressed in the yeast Pichia pastoris

The transforming growth factor-beta (TGF-β) superfamily member, activin A, plays a central role in the regulation of multiple physiological processes including cell differentiation, mitogenesis, embryogenesis, apoptosis and inflammation. In normal cells, activin A signalling is regulated to maintain cellular and tissue health and suppress tumour growth. Disruption of activin A signalling has been implicated in tumour formation and progression. Hence, the availability of activin A is an important target for the development of diagnostics and drugs for therapeutic intervention. To this end, we have expressed human activin A in Pichia pastoris, permitting its secretion into culture medium and purification as the mature homodimer. A construct was engineered encoding the monomeric precursor protein with a N-terminal FLAG affinity tag (DYKDDDDK) and a cleavage site (EKR) for Kex2p protease. Procedures for the two-step purification of human activin A by ion-exchange and anti-FLAG antibody affinity chromatography, and for the removal of the FLAG affinity tag from purified recombinant human activin A by enteropeptidase, are described. The molecular weights of the FLAG-tagged and de-tagged human activin A were confirmed by MALDI-TOF mass spectroscopy. The biological activity of these recombinant activins was assessed for their effects on modulating the secretion of Endothelin-1 (ET-1) by human umbilical vein endothelial cells (HUVECs). The recombinant human activin A containing the intact FLAG tag resulted in a reduced ET-1 secretion from HUVECs, whereas upon removal of this affinity purification tag the purified recombinant human activin A restored ET-1 secretion to levels comparable to the positive control. These results document an approach of considerable potential for the simple, large-scale expression and purification of this important human growth factor for use in diagnostic and therapeutic purposes.     

Site‐specific inhibition of integrin αvβ3‐vitronectin association by a ser‐asp‐val sequence through an Arg‐Gly‐Asp‐binding site of the integrin

A functional proteomic technology using protein chip and molecular simulation was used to demonstrate a novel biomolecular interaction between P11, a peptide containing the Ser‐Asp‐Val (SDV) sequence and integrin αvβ3. P11 (HSDVHK) is a novel antagonistic peptide of integrin αvβ3 screened from hexapeptide library through protein chip system. An in silico docking study and competitive protein chip assay revealed that the SDV sequence of P11 is able to create a stable inhibitory complex onto the vitronectin‐binding site of integrin αvβ3. The Arg‐Gly‐Asp (RGD)‐binding site recognition by P11 was site specific because the P11 was inactive for the complex formation of a denatured form of integrin–vitronectin. P11 showed a strong antagonism against αvβ3‐GRGDSP interaction with an IC₅₀ value of 25.72±3.34 nM, whereas the value of GRGDSP peptide was 1968.73±444.32 nM. The binding‐free energies calculated from the docking simulations for each P11 and RGD peptide were ?3.99 and ?3.10 kcal/mol, respectively. The free energy difference between P11 and RGD corresponds to approximately a 4.5‐fold lower K_i value for the P11 than the RGD peptide. The binding orientation of the docked P11 was similar to the crystal structure of the RGD in αvβ3. The analyzed docked poses suggest that a divalent metal–ion coordination was a common driving force for the formation of both SDV/αvβ3 and RGD/αvβ3 complexes. This is the first report on the specific recognition of the RGD‐binding site of αvβ3 by a non‐RGD containing peptide using a computer‐assisted proteomic approach.