GOlf Complements A Gpa1 Null Mutation in Olf Saccharomyces Cerevisiae and Functionally Couples to the Ste2 Pheromone Receptor

Abstract

We have produced a plasmid designed for the expression of heterologous G protein α subunits in the yeast Saccharomyces cerevisiae Introduction of these genes is by simple cassette replacement using unique restriction sites, and their expression is controlled by the regulatory sequences of the S. cerevisiae GPA1 gene. Levels of expression are therefore suitable for interaction of these heterologous proteins with elements of the yeast pheromone response pathway. We believe that this plasmid will facilitate the coupling of more members of the seven transmembrane domain superfamily of receptors, through their native G protein α subunit, to the yeast pheromone response pathway.

The plasmid pRGP, is a stable centromeric shuttle vector with a HIS3-selectable marker. We have demonstrated that production of GPA1 from this plasmid functionally complements a gpal- null mutation. A similar response is obtained when an alternative G protein a subunit, G_olf, is introduced using pRGP. We believe that this is the first example of a heterologous G protein shown to couple to a yeast pheromone receptor.     

Expression and secretion of a single-chain sweet protein,monellin, in <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> by an α-factor signal peptide

The sweet protein monellin gene was expressed in Saccharomyces cerevisiae under the control of the GAL1 promoter and α-factor signal peptide sequence of S. cerevisiae. The gene, which was obtained through mutation of the synthesized single-chain monellin gene, was cloned into an E. coli-yeast shuttle vector pYES2.0 which carries the galactose-inducible promoter GAL1. Then the α-factor signal peptide of S. cerevisiae was linked also, resulting in the secreting expression vector pYESMTA. The recombinant plasmid was subsequently transformed into strain S. cerevisiae INVsc1. The peptide efficiently directed the secretion of monellin from the recombinant yeast cell. A maximum yield of active monellin was 0.41 g l⁻¹ of the supernatant from INVsc1 harboring pYESMTA.     

人源脂肪酸合酶在酿酒酵母中的表达纯化和结构的初步分析

[背景] 聚酮类化合物在医药领域有重要的应用,相关药物研发依赖聚酮合酶多变的结构认知,人源脂肪酸合酶的组成结构和催化机制与聚酮合酶相近,研究人源脂肪酸合酶结构可为聚酮合酶的研究奠定基础。[目的] 在酿酒酵母中表达纯化人源脂肪酸合酶蛋白,确定合适的体外纯化条件。[方法] 以酿酒酵母BJ5464为表达载体,构建带有His和Strep双亲和层析标签的重组质粒,诱导表达蛋白后用亲和层析方法获取目标蛋白,并结合凝胶电泳和快速蛋白质液相层析技术,确定合适的蛋白纯化条件。[结果] 成功构建重组表达质粒pxw55-hfas-cSHII, 并在体外纯化得到合适浓度和纯度的人源脂肪酸合酶蛋白,筛选不同缓冲液条件并结合电子显微镜观察结果反馈,确定合适的蛋白体外纯化体系。[结论] 蛋白电镜结构分析需要有高纯度、合适浓度并且形成正确构象的蛋白样品,而人源脂肪酸合酶蛋白纯化体系的建立和纯化条件的确定为其电镜结构分析提供了良好的样品,为人源脂肪酸合酶的结构解析及结构相似但更为复杂的聚酮合酶蛋白解析奠定了良好基础。     

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。     

Display of heterologous proteins on the Saccharomyces cerevisiae surface display system using a single constitutive expression vector

In this study, we constructed a novel and simple yeast surface display system with a single expression vector. The newly established system uses a bidirectional expression vector carrying the AGA1 gene driven by the PGK1 promoter in one direction and the AGA2‐expression cassette driven by the TEF1 promoter in the reverse direction, and uses the geneticin, a G418‐resistant gene, as the selection marker for transformants. Because all the display elements are put into one expression vector, the new system is much simpler to use, and there is no need for any genetic modification of the host strains; therefore, the new system can be used in wild type as well as laboratory strains of Saccharomyces cerevisiae. The display efficiency of heterologous proteins using the new system has been confirmed by displaying enhanced green fluorescent protein and Eimeria tenella (a chicken protozoan parasite) microneme protein2 (EtMic2) on several S. cerevisiae strains. We also tested the new system with an aga2 mutant strain of S. cerevisiae. The results indicate that the native expressed Aga2 protein has no effect on the display efficiency of heterologous proteins. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 30:443–450, 2014     

Inhibition Site of Cupric Ions on the Growth of Thiobacillus ferrooxidans on Sulfur-salts Medium

The cDNA sequence coding for tuna growth hormone (tGH) was placed under the control of the repressible acid phosphatase (PHO5) promoter of a yeast, Saccharomyces cerevisiae, in an expression plasmid, pAM82. The yeast cells transformed with the plasmid synthesized tGH only when the cDNA was attached to the vector through a synthetic oligonucleotide linker having a similar sequence to the 5′-flanking region of the PHO5 structural region. The amount of tGH produced in yeast cells accounted for more than 3% of the total cellular protein and the product was immunologically identified as tGH by Western blotting using polyclonal antibodies specific to tGH.     

A chimeric baculovirus displaying bovine herpesvirus-1 (BHV-1) glycoprotein D on its surface and their immunological properties

The ability of a recombinant baculovirus containing the ectodomain of the mature sequence of glycoprotein D (gD) fused to the amino-terminus of baculoviral glycoprotein gp64 to display gD on its surface and to serve as an improved immunogen against bovine herpesvirus-1 was tested. The gD–gp64 fusion protein was correctly expressed on the virus particles as revealed by immunomicroscopy assays. Mice immunized with 5 × 10⁸ plaque forming units developed antibodies that specifically reacted in an enzyme-linked immunosorbent assay with recombinant gD and whole bovine herpesvirus-1. These antibodies were able to neutralize bovine herpesvirus-1 in vitro, whereas those elicited by a version of gD expressed in Escherichia coli did not. Our data demonstrated that the display on the virion surface of recombinant baculovirus can provide a tool for the development of recombinant vaccines against bovine herpesvirus-1.     

An innovative protein expression system using RNA polymerase I for large-scale screening of high-nucleic-acid content Saccharomyces cerevisiae strains

Saccharomyces cerevisiae is the preferred source of RNA derivatives, which are widely used as supplements for foods and pharmaceuticals. As the most abundant RNAs, the ribosomal RNAs (rRNAs) transcribed by RNA polymerase I (Pol I) have no 5′ caps, thus cannot be translated to proteins. To screen high-nucleic-acid content yeasts more efficiently, a cap-independent protein expression system mediated by Pol I has been designed and established to monitor the regulatory changes of rRNA synthesis by observing the variation in the reporter genes expression. The elements including Pol I-recognized rDNA promoter, the internal ribosome entry site from cricket paralytic virus which can recruit ribosomes internally, reporter genes (URA3 and yEGFP3), oligo-dT and an rDNA terminator were ligated to a yeast episomal plasmid. This system based on the URA3 gene worked well by observing the growth phenotype and did not require the disruption of cap-dependent initiation factors. The fluorescence intensity of strains expressing the yEGFP3 gene increased and drifted after mutagenesis. Combined with flow cytometry, cells with higher GFP level were sorted out. A strain showed 58% improvement in RNA content and exhibited no sequence alteration in the whole expression cassette introduced. This study provides a novel strategy for breeding high-nucleic-acid content yeasts.     

Simultaneous synthesis and assembly of various hepatitis B surface proteins in Saccharomyces cerevisiae

Yeast transposon of class-1 -based vectors, allowing integration at a series of chromosomal loci by homologous recombination with resident transposons, were constructed. Using such vectors, we have introduced several copies of an expression cassette encoding the major hepatitis B surface protein as well as expression cassettes encoding the middle (M) or/and the large (L) surface protein into Saccharomyces cerevisiae. In extracts of such strains, coassembly of the different proteins into a single lipoprotein structure is observed. This was demonstrated by immunoprecipitation of the major protein using monoclonal antibodies directed specifically against epitopes that are present only on the M or the L protein. These results show that hepatitis B surface antigen envelope proteins synthesized in yeast are able to assemble into structures composed of different polypeptides. This opens the possibility of producing in yeast a variety of particles carrying well-defined amounts of preS epitopes on their surface. Also, one can envisage the production of mixed particles containing different foreign epitopes on their surface, in defined relative abundance, which could be useful for vaccine applications.     

Transient production of receptor-binding domain of SARS-CoV-2 in Nicotiana benthamiana plants induces specific antibodies in immunized mice

Background

The COVID-19 pandemic caused by the SARS-CoV-2 coronavirus has currently affected millions of people around the world. To combat the rapid spread of COVID-19 there is an urgent need to implement technological platforms for the production of vaccines, drugs and diagnostic systems by the scientific community and pharmaceutical companies. The SARS-CoV-2 virus enters the cells by the interaction between the receptor-binding domain (RBD) present in the viral surface spike protein and its human receptor ACE2. The RBD protein is therefore considered as the target for potential subunit-based vaccines.

Methods and results

We evaluate the use of Nicotiana benthamiana plants as the host to transiently-producing recombinant RBD (RBDr) protein. The identity of the plant-produced RBDr was confirmed by immune assays and mass spectrometry. Immunogenicity was confirmed through the specific antibodies generated in all of the immunized mice compared to the PBS treated group.

Conclusions

In conclusions, the immunogenicity of the RBDr produced in N. benthamiana was confirmed. These findings support the use of plants as an antigen expression system for the rapid development of vaccine candidates.

     

Cloning and expression of Penicillium minioluteum dextranase in Saccharomyces cerevisiae and its exploitation as a reporter in the detection of mycotoxins

A dextranase gene from Penicillium minioluteum (strain IMI068219) has been cloned, sequenced and expressed in Saccharomyces cerevisiae via fusion of the DNA segment encoding the mature dextranase protein with α-factor signal sequence, and insertion into the GAL1–controlled expression vector pYES2/CT. Galactose-induced expression yielded extracellular dextranase activity of 0.63 units/ml and cell-associated dextranase activity of 0.48 units/ml, after 24 h incubation. The dextranase construct was introduced into a strain of S. cerevisiae expressing the human cytochrome P450 3A4 (CYP3A4) and the cognate reductase, which was then used to develop a microplate toxicity bioassay. Toxicity was signalled as inhibition of dextranase activity, assayed fluorimetrically. This novel bioassay was assessed using six economically significant mycotoxins.     

Methylglyoxal induces glycation and oxidative stress in Saccharomyces cerevisiae

Purpose

Hyperglycemia causes abnormal accumulation of methylglyoxal (MGO) and concomitant DNA, protein glycation. These pathophysiological changes further leads to diabetic complications. Yeast Saccharomyces cerevisiae is one of the best model to study MGO-induced glycation modifications. The aim of the present study was to investigate the effect of MGO on protein, DNA glycation, and oxidative stress markers using S. cerevisiae as a system.

Methods

Saccharomyces cerevisiae cells were incubated with 8 mM of MGO for 4 h and 24 h. After incubation, protein and DNA samples were isolated from the lysed cells. The samples were analyzed for various glycation (fructosamine, β-amyloid, free amino group, free thiol group, and hyperchromic shift analysis) and oxidative stress markers (total antioxidant potential, catalase, glutathione, and lipid peroxidation).

Results

MGO (8 mM) acted as a potent glycating agent, causing protein and DNA glycation in treated yeast cells. The glycation markers fructosamine and β-amyloid were significantly elevated when incubated for 4 h as compared to 24 h. Oxidative stress in the glycated yeast cells alleviated cellular antioxidant capacity and reduced the cell viability.

Conclusion

MGO caused significant glycation modifications of proteins and DNA in yeast cells. It also triggered increase in intracellular oxidative stress. MGO-induced protein, DNA glycation, and oxidative stress in S. cerevisiae indicate the suitability of the yeast model to study various biochemical pathways involved in diabetic complications and even conformational pathologies.

     

酿酒酵母表达和纯化功能性的铁载体合成蛋白PchE

[目的] 利用酿酒酵母表达系统,通过乙醇脱氢酶启动子异源表达细菌源的铁载体合成蛋白PchE,并与来源于枯草芽孢杆菌的泛酰化酶Sfp同宿主共表达,探索真核表达体系表达具有生化活性的细菌源蛋白。[方法] 从大肠杆菌BAP 1染色体上扩增sfp基因,将pchE基因及串联的pchE与sfp基因分别构建到酵母-大肠杆菌穿梭质粒pXW55中,各自转化酿酒酵母BJ5464-npgA表达,经过亲和层析和离子交换层析纯化蛋白,利用HPLC检测细菌源与酵母源表达的PchE在体外重构生化反应中的催化活性。[结果] 利用酿酒酵母表达系统可以获得高纯度的原核蛋白PchE。真菌源的泛酰化基因NpgA和细菌源的Sfp,均可泛酰化修饰PchE,合成中间产物HPT-Cys。[结论] 在酿酒酵母Saccharomyces cerevisiae BJ5464-npgA表达系统中,首次证明真菌源的泛酰化基因NpgA和细菌源的Sfp,均可泛酰化修饰细菌源的非核糖体肽合酶。比较酵母和细菌宿主的目标蛋白表达,证明酵母表达的巨大蛋白PchE的纯度更高,非特异性条带减少,推测酵母宿主可能更适合表达纯化功能性的巨型蛋白质。     

Problems encountered in bicistronic IRES-GFP expression vectors employed in functional analyses of GC-induced genes

Our laboratory has developed a series of Gateway^? compatible lentiviral expression systems for constitutive and conditional gene knock-down and over-expression. For tetracycline-regulated transgenic expression, we constructed a lentiviral “DEST” plasmid (pHR-TetCMV-Dest-IRES-GFP5) containing a tetracycline-responsive minimal CMV promoter, followed by an attP site-flanked DEST cassette (for efficient cloning of cDNAs by “Gateway^?” recombination cloning) and green fluorescent protein (GFP) driven by an internal ribosomal entry site (IRES).This lentiviral bicistronic plasmid allows immediate FACS identification and characterization of successfully transfected cell lines. Although this system worked well with several cDNAs, we experienced serious problems with SLA, Bam and BMF. Particularly, we cloned the cDNA for human SLA (Src–like adapter), a candidate gene in GC-induced apoptosis, into this plasmid. The resulting construct (pHR-TetCMV-SLA-IRES-GFP5) was transfected into HEK 293-T packaging cells to produce viral particles for transduction of CEM-C7H2-2C8 cells. Although the construct produced many green fluorescent colonies at the HEK 293-T and the CEM-C7H2-2C8 level, we could not detect any SLA protein with α-SLA antibody from corresponding cell lysates. In contrast, the antibody readily detected SLA in whole cell lysate of HEK 293-T cells transfected with a GST-flagged SLA construct lacking IRES-GFP. To directly address the potential role of the IRES-GFP sequence, we cloned the SLA coding region into pHR-TetCMV-Dest, a vector that differs from pHR-TetCMV-Dest-IRES-GFP5 just by the absence of the IRES-GFP cassette. The resulting pHR-TetCMV-SLA construct was used for transfection of HEK 293-T cells. Corresponding lysates were assayed with α-SLA antibody and found positive. These data, in concert with previous findings, suggest that the IRES-GFP cassette may interfere with translation of certain smaller size cDNAs (like SLA) or generate fusion proteins and entail defective virus production in an unpredictable manner.     

A Novel Culture Method for High Level Production of Heterologous Protein in Saccharomyces cerevisiae

A high level production system for heterologous protein by cold culture of yeast transformants at 15°C was developed. The yeast transformants, carrying a plasmid containing cDNA for Aspergillus oryzae α-amylase (Taka-amylase A) or human lysozyme synthetic DNA, were cultivated in a selective medium for 1 or 2 days until full growth at 30°C. The yeast cells were harvested by centrifugation from the culture fluid and then were transferred to YPD medium. These inoculated broths were incubated for 2 days at 15°C and then for another 2 days at 30°C. By the cold culture method described above, higher amounts of Taka-amylase A (28.6 mg/liter) and human lysozyme (6.1 mg/liter) were produced by the yeast transformants compared to those by conventional methods.

Heterologous protein productions using YEp, YCp, and YIp types of yeast expression vectors with ADH1 or GAPDH promoter by the cold culture method showed effective productivity of about 2-fold compared to those by the conventional method of culture at 30°C. The high level production of heterologous protein by this method was not specific to the S. cerevisiae strains examined.     

Generation of low copy number and stably expressing transgenic creeping bentgrass plants using minimal gene cassette bombardment

A minimal gene cassette comprised of the ubiquitin (Ubi) promoter + green fluorescent protein (Gfp) gene + Nos terminator DNA sequences, derived from the plasmid vector pPZP201-Gfp was utilized for transformation of creeping bentgrass using particle bombardment. Bentgrass calli bombarded individually with equivalent amounts of the cassette or whole plasmid DNA were compared for Gfp expression and the GFP-positive calli were subsequently regenerated into plants. Percentage of GFP expressing calli and the number of GFP spots/calli were significantly higher in calli that were bombarded with the minimal gene cassette when compared to the whole plasmid. The Gfp expression was stable up to the T₂ generation in minimal gene cassette transformants and there was a lower degree of gene silencing. Southern blot analysis of transgenic plants derived from minimum gene cassette bombardment revealed the presence of single or few copy of the transgene and fairly simple integration patterns. In comparison, whole plasmid transformants had multiple copies and complex integration patterns of the transgene. These results illustrate the advantages of using simple gene cassette for stable plant transformation in bentgrass with possible applications to other plant species.     

Overexpression of a heat shock protein (ThHSP18.3) from <Emphasis Type="Italic">Tamarix hispida</Emphasis> confers stress tolerance to yeast

It is well known that plant heat shock proteins (HSPs) play important roles both in response to adverse environmental conditions and in various developmental processes. However, among plant HSPs, the functions of tree plant HSPs are poorly characterized. To improve our understanding of tree HSPs, we cloned and characterized an HSP gene (ThHSP18.3) from Tamarix hispida. Sequence alignment reveals that ThHSP18.3 belongs to the class I small heat shock protein family. A transient expression assay showed that ThHSP18.3 protein was targeted to the cell nucleus. Treatment of Tamarix hispida with cold and heat shock highly induced ThHSP18.3 expression in all studied leaves, roots and stems, whereas, treatment of T. hispida with NaCl, NaHCO₃, and PEG induced ThHSP18.3 expression in leaves and decreased its expression in roots and stems. Further, to study the role of ThHSP18.3 in stress tolerance under different stress conditions, we cloned ThHSP18.3 into the pYES2 vector, transformed and expressed the vector in yeast Saccharomyces cerevisiae. Yeast cells transformed with an empty pYES2 vector were employed as a control. Compared to the control, yeast cells expressing ThHSP18.3 showed greater tolerance to salt, drought, heavy metals, and both low and high temperatures, indicating that ThHSP18.3 confers tolerance to these stress conditions. These results suggested that ThHSP18.3 is involved in tolerance to a variety of stress conditions in T. hispida.