Expression of functional recombinant mussel adhesive protein Mgfp-5 in Escherichia coli

Mussel adhesive proteins have been suggested as a basis for environmentally friendly adhesives for use in aqueous conditions and in medicine. However, attempts to produce functional and economical recombinant mussel adhesive proteins (mainly foot protein type 1) in several systems have failed. Here, the cDNA coding for Mytilus galloprovincialis foot protein type 5 (Mgfp-5) was isolated for the first time. Using this cDNA, we produced a recombinant Mgfp-5 fused with a hexahistidine affinity ligand, which was expressed in a soluble form in Escherichia coli and was highly purified using affinity chromatography. The adhesive properties of purified recombinant Mgfp-5 were compared with the commercial extracted mussel adhesive Cell-Tak by investigating adhesion force using atomic force microscopy, material surface coating, and quartz crystal microbalance. Even though further macroscale assays are needed, these microscale assays showed that recombinant Mgfp-5 has significant adhesive ability and may be useful as a bioadhesive in medical or underwater environments.     

Expression of functional recombinant mussel adhesive protein type 3A in Escherichia coli

Mussel adhesive proteins, including the 20-plus variants of foot protein type 3 (fp-3), have been suggested as potential environmentally friendly adhesives for use in aqueous conditions and in medicine. Here we report the novel production of a recombinant Mytilus galloprovincialis foot protein type 3 variant A (Mgfp-3A) fused with a hexahistidine affinity ligand in Escherichia coli and its approximately 99% purification with affinity chromatography. Recombinant Mgfp-3A showed a superior purification yield and better apparent solubility in 5% acetic acid (prerequisites for large-scale production and practical use) compared to those of the previously reported recombinant M. galloprovincialis foot protein type 5 (Mgfp-5). The adsorption abilities and adhesion forces of purified recombinant Mgfp-3A were compared with those of Cell-Tak (a commercial mussel extract adhesive) and recombinant Mgfp-5 using quartz crystal microbalance analysis and modified atomic force microscopy, respectively. These assays showed that the adhesive ability of recombinant Mgfp-3A was comparable to that of Cell-Tak but lower than that of recombinant Mgfp-5. Collectively, these results indicate that recombinant Mgfp-3A may be useful as a commercial bioadhesive or an adhesive ingredient in medical or underwater environments.     

Recombinant mussel adhesive protein Mgfp-5 as cell adhesion biomaterial

Mytilus galloprovincialis foot protein type-5 (Mgfp-5) is one of the mussel adhesive proteins that participate in adhesion with the substratum. We previously reported the production of recombinant Mgfp-5 in Escherichia coli and showed that the recombinant protein had superior adhesion abilities versus those of Cell-Tak, a commercially available mussel adhesive protein mixture. In the present work, we investigated the feasibility of using recombinant Mgfp-5 as a cell adhesion agent. Purified and tyrosinase-modified recombinant Mgfp-5 was used to adhere living anchorage-independent cells such as insect Drosophila S2 cells and human MOLT-4 cells onto glass slides. Our results revealed that these cell lines efficiently attached to recombinant Mgfp-5-coated glass surfaces, and that surface-immobilized S2 cells were viable and able to undergo cell division for up to 1 week. Cytochemical studies with 4',6-diamidino-2-phenylindole (DAPI) staining of nuclei and immunofluorescence for secreted foreign human erythropoietin (hEPO) from recombinant S2 cells and quantitative comparative analyses of S2 cell binding ability with Cell-Tak and poly-L-lysine, the main cell adhesion agent, were performed to demonstrate successful usage of recombinant Mgfp-5 for cell biological applications. Collectively, these results indicate that recombinant Mgfp-5 may be a useful new cell adhesion biomaterial for anchorage-independent cells.     

Purification, cDNA clone and recombinant expression of foot protein-3 from Mytilus coruscus

Mussels Mytilus coruscus can adhere to various solid surface in the presence of moisture. Mussel foot protein-3 (mfp-3) has been suggested as the main adhesive protein in the plaques closest to the adhesion interface and been the focus of substantial biomaterials development research within the last decade. The byssal plaques of M. coruscus were accumulated and variants of a family known as mcofp3 (Mytilus coruscus foot protein 3) were purified from acetic acid/urea extracts of plaques, with their N-terminal sequences determined thereafter. The cDNA sequence coding for the mcofp3 precursor was obtained from M. coruscus foot cDNA library. These precursors contain a putative signal peptide of 24 residues, a mature peptide sequence of 41-56 amino acids rich in Tyr, Gly, Pro, and Asn. The recombinant mcofp3 fused with a hexa-histidine affinity ligand was successfully expressed through an Escherichia coli expression system, and the recombinant mcofp3 was purified using affinity chromatography followed by reverse phase high performance liquid chromatography (HPLC). The DOPA content and adhesive properties of purified recombinant mcofp3 with or without tyrosinase modification were compared with the native mcofp3. These assays showed that recombinant mcofp3 has significant adhesive ability and may be useful as a bioadhesive in medical or underwater environments.     

Recombinant mussel adhesive protein fp-5 (MAP fp-5) as a bulk bioadhesive and surface coating material

Mussel adhesive proteins (MAPs) attach to all types of inorganic and organic surfaces, even in wet environments. MAP of type 5 (fp-5), in particular, has been considered as a key adhesive material. However, the low availability of fp-5 has hampered its biochemical characterization and practical applications. Here, soluble recombinant fp-5 is mass-produced in Escherichia coli. Tyrosinase-modified recombinant fp-5 showed ～1.11 MPa adhesive shear strength, which is the first report of a bulk-scale adhesive force measurement for purified recombinant of natural MAP type. Surface coatings were also performed through simple dip-coating of various objects. In addition, complex coacervate using recombinant fp-5 and hyaluronic acid was prepared as an efficient adhesive formulation, which greatly improved the bulk adhesive strength. Collectively, it is expected that this work will enhance basic understanding of mussel adhesion and that recombinant fp-5 can be successfully used as a realistic bulk-scale bioadhesive and an efficient surface coating material.     

Byssal proteins of the freshwater zebra mussel,Dreissena polymorpha

The freshwater zebra mussel (Dreissena polymorpha) is a notorious biofouling organism. It adheres to a variety of substrata underwater by means of a proteinaceous structure called the byssus, which consists of a number of threads with adhesive plaques at the tips. The byssal proteins are difficult to characterize due to extensive cross-linking of 3,4-dihydroxyphenylalanine (DOPA), which renders the mature structure largely resistant to protein extraction and immunolocalization. By inducing secretion of fresh threads and plaques in which cross-linking is minimized, three novel zebra mussel byssal proteins were identified following extraction and separation by gel electrophoresis. Peptide fragment fingerprinting was used to match tryptic digests of several gel bands against a cDNA library of genes expressed uniquely in the mussel foot, the organ which secretes the byssus. This allowed identification of a more complete sequence of Dpfp2 (D. polymorpha foot protein 2), a known DOPA-containing byssal protein, and a partial sequence of Dpfp5, a novel protein with several typical characteristics of mussel adhesive proteins.     

Novel Proteins Identified in the Insoluble Byssal Matrix of the Freshwater Zebra Mussel

The freshwater zebra mussel, Dreissena polymorpha, is an invasive, biofouling species that adheres to a variety of substrates underwater, using a proteinaceous anchor called the byssus. The byssus consists of a number of threads with adhesive plaques at the tips. It contains the unusual amino acid 3, 4-dihydroxyphenylalanine (DOPA), which is believed to play an important role in adhesion, in addition to providing structural integrity to the byssus through cross-linking. Extensive DOPA cross-linking, however, renders the zebra mussel byssus highly resistant to protein extraction, and therefore limits byssal protein identification. We report here on the identification of seven novel byssal proteins in the insoluble byssal matrix following protein extraction from induced, freshly secreted byssal threads with minimal cross-linking. These proteins were identified by LC-MS/MS analysis of tryptic digests of the matrix proteins by spectrum matching against a zebra mussel cDNA library of genes unique to the mussel foot, the organ that secretes the byssus. All seven proteins were present in both the plaque and thread. Comparisons of the protein sequences revealed common features of zebra mussel byssal proteins, and several recurring sequence motifs. Although their sequences are unique, many of the proteins display similarities to marine mussel byssal proteins, as well as to adhesive and structural proteins from other species. The large expansion of the byssal proteome reported here represents an important step towards understanding zebra mussel adhesion.     

一种新型贻贝足丝抗氧化蛋白的原核重组表达及功能

贻贝足丝及其足丝蛋白相关研究对于开发新型水下生物粘附剂具有重要的仿生学意义。足丝蛋白在其粘附过程中需要维持一定的还原态,而目前已报道的足丝抗氧化蛋白仅有MFP-6。此前在厚壳贻贝足丝中鉴定到一种新型的富含半胱氨酸和甘氨酸的足丝蛋白质,该蛋白质被命名为Cys/Gly-Rich-Protein（CGRP）,但是CGRP蛋白在足丝中的作用及机制尚不明确。为此,针对CGRP蛋白,在序列分析基础上,利用原核重组表达手段获得其重组蛋白质,采用2,2-联苯基-1-苦基肼基（2,2-diphenyl-1-picryl hydrazyl radical,DPPH）法检测CGRP重组蛋白经不同条件处理后的抗氧化活性。序列分析结果表明,CGRP蛋白含16.5%的半胱氨酸和10%的甘氨酸,其序列中含有两段半胱氨酸位置保守的重复序列,结构预测表明,其优势构象以无规卷曲为主。同源蛋白质搜索结果表明,CGRP蛋白在数据库中尚无高同源性蛋白质存在。通过密码子优化结合原核重组表达策略成功表达出CGRP重组蛋白,所获得的CGRP重组蛋白具有明显的抗氧化活性,且该活性在其半胱氨酸还原后显著增强(0.91±0.05 vs 0.71±0.11, P<0.01)而在半胱氨酸烷基化之后显著下降(0.08±0.03 vs 0.71±0.11, P<0.01),表明CGRP蛋白的抗氧化活性与其序列中半胱氨酸的自由巯基有关。本研究提示,CGRP蛋白是足丝中一种新的具有抗氧化功能的蛋白质,在足丝粘附过程中推测与MFP-6一起参与了富含多巴的足丝粘附蛋白的还原态维持,对贻贝足丝在固化和粘附过程中防止提前粘附具有重要意义。     

Recombinant expression of Drosophila melanogaster α-L-fucosidase in Trichoplusia ni cells

A cDNA encoding an α-l-fucosidase from Drosophila melanogaster was obtained from the recombinant plasmid named pGEM-DmFuca and inserted into the pBacHTeGFPT vector to construct the recombinant donor plasmid which was transposed to the target AcBacmid in Escherichia coli (DH10) by Tn7 transposition function. The AcBacmid-GFP-DmFuca plasmid was used to transfect Tn-5B1-4 cells of the Cabbage looper Trichoplusia ni. SDS-PAGE analysis revealed a band of about 80 kDa. Using a polyclonal antiserum raised against α-l-fucosidase protein from D. melanogaster Western blotting analysis confirmed that the fusion protein eGFP-DmFuca has been successfully expressed in a biologically active form in Tn-5B1-4 cells. The recombinant protein, containing the histidine-tag motif, was purified using an affinity chromatography column. In vitro binding assays the purified eGFP-DmFuca interacts with α-l-fucose residues present on the micropyle of the D. melanogaster eggshell, confirming that the α-l-fucosidase is a good candidate as receptor involved in gamete interactions in fruit fly.     

Cloning,characterization, and functional studies of a 47-kDa platelet receptor for type III collagen

A 1.2-kb cDNA fragment encoding a platelet 47-kDa protein has been isolated from a human bone marrow cDNA library by using a degenerate oligonucleotide of the sequenced amino terminus of the purified platelet protein with a poly(dT)(12).(dG) by polymerase chain reaction. A computer search revealed that the cDNA represents the coding sequence of a protein with a fragmentary homology to several proteins. Using a prokaryotic expression system, pBad TOPO-47 cDNA, a 47-kDa recombinant protein was obtained and purified to apparent homogeneity by nickel-nitrilotriacetic acid resin and collagen affinity column. The recombinant protein binds to type III but not type I collagen-Sepharose 2B affinity columns. Anti-47-kDa but not anti-65-kDa antibody inhibits the binding of the recombinant protein to the type III collagen-coated micro titer wells in a dose-dependent manner. Like the receptor protein purified from platelet membranes, the recombinant protein inhibits type III collagen-induced platelet aggregation also in a dose-dependent manner. We have defined two active peptides from the cloned deduced amino acid sequence. Both peptides inhibit type III but not type I collagen-induced platelet aggregation in a dose-dependent fashion. These results suggest that the active binding site of the platelet receptor to type III collagen resides in these portions of the protein.     

Molecular Cloning and Expression of α-Globin and β-Globin Genes from Crocodile (Crocodylus siamensis)

The first report of complete nucleotide sequences for α- and β-globin chains from the Siamese hemoglobin (Crocodylus siamensis) is given in this study. The cDNAs encoding α- and β-globins were cloned by RT-PCR using the degenerate primers and by the rapid amplification of cDNA ends method. The full-length α-globin cDNA contains an open reading frame of 423 nucleotides encoding 141 amino acid residues, whereas the β-globin cDNA contains an open reading frame of 438 nucleotides encoding 146 amino acid residues. The authenticity of both α- and β-globin cDNA clones were also confirmed by the heterologous expression in Escherichia coli (E. coli). This is the first time that the recombinant C. siamensis globins were produced in prokaryotic system. Additionally, the heme group was inserted into the recombinant proteins and purified heme-bound proteins were performed by affinity chromatography using Co²⁺-charged Talon resins. The heme-bound proteins appeared to have a maximum absorbance at 415 nm, indicated that the recombinant proteins bound to oxygen and formed active oxyhemoglobin (HbO₂). The results indicated that recombinant C. siamensis globins were successfully expressed in prokaryotic system and possessed an activity as ligand binding protein.     

Enhanced expression of the human CD14 protein in tobacco using a 22-kDa alpha-zein signal peptide

The human CD14, a high affinity receptor for lipopolysaccharides (LPS), is involved in the innate immunity system and the inflammatory response. There is increasing interest in using recombinant approaches to produce purified CD14 protein for therapeutic uses. Plants provide ideal expression systems for the production of recombinant proteins, but the levels of expression of recombinant proteins produced in planta are still not high. To improve expression levels of CD14 the 22-kDa alpha-zein signal peptide (ZSP) from maize was fused to the human CD14 cDNA so that recombinant CD14 could stably accumulate in plant cells. The human CD14 gene and the modified human CD14 cDNA with the 22-kDa ZSP were respectively transformed into tobacco to produce transgenic plants. Western blot analysis confirmed human CD14 accumulation in the transgenic tobacco. The concentration of the recombinant protein in the tobacco leaves was measured by ELISA, and the results suggested that fusion with the 22-kDa alpha-ZSP effectively increased the accumulation of the recombinant protein (rCD14). The concentration of rCD14 in some of the transgenic lines was 19.54???g?g^?1 tobacco leaf (fw), which was about 0.6?% of the total soluble protein. The rCD14 protein showed natural LPS-binding bioactivity by using U937 cells mensuration. Our results suggested that the maize 22-kDa alpha-zein signal peptide could be used to increase the accumulation of recombinant protein in tobacco leaves so that proteins can be produced in abundant biomass.     

Expression and purification of ecdysteroid-regulated protein from Chinese mitten crab Eriocheir sinensis in E. coli

The glutathione S-transferase (GST) fusion protein system is widely used for high-level expression and efficient purification of recombinant proteins from bacteria. The goal of this study was to clone, efficiently express and purify the ecdysteroid-regulated protein (ERP) in the form of a GST fusion protein. The mature peptide-coding cDNA fragment was extracted from Chinese mitten crap (Eriocheir sinensis), and then after using PCR to obtain the open reading frame, a recombinant plasmid designated pGEX-4T-1_ERP was successfully generated and showed to efficiently express the ERP fusion protein as determined by SDS-PAGE. The resulting expressed protein was successfully purified by a combination of affinity and conventional chromatographic methods. After purification, the recombinant protein showed the expected size of 41 kDa on SDS-PAGE gels which was further confirmed by mass spectrometry and western blotting. Purification of recombinant protein was achieved by fast protein liquid chromatography. About 2.4 mg/l recombinant protein with purity more than 80 % was obtained.     

Mitochondrial intermediate peptidase: Expression in Escherichia coli and improvement of its enzymatic activity detection with FRET substrates

In the present study, soluble, functionally-active, recombinant human mitochondrial intermediate peptidase (hMIP), a mitochondrial metalloendoprotease, was expressed in a prokaryotic system. The hMIP fusion protein, with a poly-His-tag (6× His), was obtained by cloning the coding region of hMIP cDNA into the pET-28a expression vector, which was then used to transform Escherichia coli BL21 (DE3) pLysS. After isolation and purification of the fusion protein by affinity chromatography using Ni-Sepharose resin, the protein was purified further using ion exchange chromatography with a Hi-trap resource Q column. The recombinant hMIP was characterized by Western blotting using three distinct antibodies, circular dichroism, and enzymatic assays that used the first FRET substrates developed for MIP and a series of protease inhibitors. The successful expression of enzymatically-active hMIP in addition to the FRET substrates will contribute greatly to the determination of substrate specificity of this protease and to the development of specific inhibitors that are essential for a better understanding of the role of this protease in mitochondrial functioning.     

Probing High-density Functional Protein Microarrays to Detect Protein-protein Interactions

High-density functional protein microarrays containing ~4,200 recombinant yeast proteins are examined for kinase protein-protein interactions using an affinity purified yeast kinase fusion protein containing a V5-epitope tag for read-out. Purified kinase is obtained through culture of a yeast strain optimized for high copy protein production harboring a plasmid containing a Kinase-V5 fusion construct under a GAL inducible promoter. The yeast is grown in restrictive media with a neutral carbon source for 6 hr followed by induction with 2% galactose. Next, the culture is harvested and kinase is purified using standard affinity chromatographic techniques to obtain a highly purified protein kinase for use in the assay. The purified kinase is diluted with kinase buffer to an appropriate range for the assay and the protein microarrays are blocked prior to hybridization with the protein microarray. After the hybridization, the arrays are probed with monoclonal V5 antibody to identify proteins bound by the kinase-V5 protein. Finally, the arrays are scanned using a standard microarray scanner, and data is extracted for downstream informatics analysis^1,2 to determine a high confidence set of protein interactions for downstream validation in vivo.     

Molecular cloning of the ribosomal P-proteins MgP1, MgP2, MgP0, and superoxide dismutase (SOD) in the mussel Mytilus galloprovincialis and analysis of MgP0 at stress conditions

The stalk, a characteristic structure of the large ribosomal subunit, is directly involved in the interaction with the soluble factors during translation. In the Mediterranean mussel Mytilus galloprovincialis, the stalk consists of one 32 kDa protein, MgP0, and two smaller, 12 kDa acidic proteins, MgP1 and MgP2, of pI 3.0 and 4.0, respectively, as revealed by analysis of purified ribosomes with electrophoresis and Western blot with a specific monoclonal antibody. Treatment of the ribosomes with alkaline phosphatase showed movement of the bands corresponding to the acidic MgP1 and MgP2 proteins to more basic pH after isoelectrofocusing, implying phosphorylation. The cDNA molecules of M. galloprovincialis ribosomal proteins MgP0, MgP1 and MgP2 and superoxide dismutase (MgSOD) were isolated from a cDNA library or constructed by RT-PCR, cloned in expression vectors and expressed in Escherichia coli. The recombinant proteins were purified with immobilized metal ion affinity chromatography (IMAC) and identified with immunoblotting. Exposure of mussels at cadmium and sorbitol and analysis of gill tissue extracts showed over expression of MgP0 protein.     

重组贻贝足蛋白的研究进展与应用*

贻贝足蛋白是一类通过贻贝足腺分泌的蛋白质复合物,与基质表面发生反应而产生极强的黏附作用。其在海洋环境中具有强黏附能力、可降解性和优秀的生物相容性等优点,因此常被用做生物医药黏合剂。但提取天然蛋白质受原料来源限制,且工艺烦琐导致价格高昂,阻碍了贻贝足蛋白的进一步应用发展。微生物合成的最新进展为贻贝足蛋白的产出提供了一种新思路,并且具有扩大规模生产的意义。主要综述了贻贝足蛋白的基因工程生产方法,总结了重组蛋白在黏附抗污涂层、组织工程材料等领域的应用现状。同时对其研究方向进行了展望,指出重组贻贝足蛋白的进一步发展的关键技术是解析蛋白质的构效和层级结构,在此基础上提高其异源表达水平,以获得更多生物功效性的衍生产品。     

Recombinant mussel adhesive protein as a gene delivery material

Efficient target gene delivery into eukaryotic cells is important for biotechnological research and gene therapy. Gene delivery based on proteins, including histones, has recently emerged as a powerful non-viral DNA transfer technique. Here, we investigated the potential use of a recombinant mussel adhesive protein, hybrid fp-151, as a gene delivery material, in view of its similar basic amino acid composition to histone proteins, and cost-effective and high-level production in Escherichia coli. After confirming DNA binding affinity, we transfected mammalian cells (human 293T and mouse NIH/3T3) with foreign genes using hybrid fp-151 as the gene delivery carrier. Hybrid fp-151 displayed comparable transfection efficiency in both mammalian cell lines, compared to the widely used transfection agent, Lipofectamine 2000. Our results indicate that this mussel adhesive protein may be used as a potential protein-based gene-transfer mediator.     

A Universal Approach to Prepare Reagents for DNA-Assisted Protein Analysis

The quality of DNA-labeled affinity probes is critical in DNA-assisted protein analyses, such as proximity ligation and extension assays, immuno-PCR, and immuno-rolling circle amplification reactions. Efficient, high-performance methods are therefore required for isolation of pure conjugates from reactions where DNA strands have been coupled to antibodies or recombinant affinity reagents. Here we describe a universal, scalable approach for preparing high-quality oligonucleotide-protein conjugates by sequentially removing any unconjugated affinity reagents and remaining free oligonucleotides from conjugation reactions. We applied the approach to generate high-quality probes using either antibodies or recombinant affinity reagents. The purified high-grade probes were used in proximity ligation assays in solution and in situ, demonstrating both augmented assay sensitivity and improved signal-to-noise ratios.