Efficient expression of green fluorescent protein (GFP) mediated by a chimeric promoter in Chlamydomonas reinhardtii

To improve the expression efficiency of exogenous genes in Chlamydomonas reinhardtii, a high efficient expression vector was constructed. Green fluorescent protein （GFP） was expressed in C. reinhardtii under the control of promoters： RBCS2 and HSP70A-RBCS2. Efficiency of transformation and expression were compared between two transgenic algae： RBCS2 mediated strain Tran-Ⅰ and HSP70A-RBCS2 mediated strain Tran-Ⅱ. Results show that HSP70A-RBCS2 could improve greatly the transformation efficiency by approximately eightfold of RBCS2, and the expression efficiency of GFP in Tran-Ⅱ was at least double of that in Tran-Ⅰ. In addition, a threefold increase of GFP in Tran-Ⅱ was induced by heat shock at 40℃. All of the results demonstrated that HSP70A-RBCS2 was more efficient than RBCS2 in expressing exogenous gene in C. reinhardtii.

Jellyfish Green Fluorescent Protein(GFP) as a Reporter for Fusarium gramminearum Development on Wheat

The plasmid pGPDGFP under the control ofpgpdA promotor was used together with vector pAN7-1 containing the hygromycin resistance cassette to co-transform protoplasts of HG1, Fusarium graminearum from Hubei Province, China. Twelve out of 14 hygromycin-resistant transformants showed green signal under the UV light and contained one or several copies ofgfp, as indicated by Southern analysis of genomic DNA digested with different restriction enzymes and hybridized to the gfp probe. A single gfp copy transformant （HG1C5） was selected for further evaluation of 80 Chinese wheat cultivars or advanced lines. The results showed different resistance type to F. graminearum were observed. GFP signals observed in the rachis and adjacent spikes of 70 Chinese wheat lines such as Chuanchongzu 104 indicated both type I （host resistance to the initial infection by the fungus） and type II （resistance to the spread of FHB symptoms within an infected spike） were not observed. While other 10 lines showed type II resistance to F. graminearum with GFP signals only in inoculated spikelets. Development of the mycelium can be intuitively observed and the resistance of wheat to F. graminearum can be identified at 7 days post inoculation （dpi） in this way. The results showed no differences were evaluated between the transformed HG1C5 and the non-transgene artificial inoculation by SAS paired chi-square test and McNernar＇s test （P=-0.0625）.

F-Actin Visualization in Generative and Sperm Cells of Living Pollen of Rice Using a GFP-Mouse Talin Fusion Protein

Green fluorescent protein (GFP) fused to the F-actin binding domain of mouse talin labels the actin cytoskeleton in the living generative and sperm cells of a third generation transgenic rice (Oryza sativa L.) plant, A005-G-T-1-2. Observations were made on pollen at four major developmental stages, viz. I. uni-nucleate microspore stage; II. early bi-cellular pollen stage; III. late bi-cellular pollen stage; and IV. tri-cellular pollen stage. At each of these developmental stages vegetative nucleus, generative nucleus/ cell, and sperm cells were seen undergoing continuous and coordinated motion and migration. These movements seemed to be influenced by associated microfilament networks existing in the pollen. Based on these observations we propose that it is the interaction between the microfilament networks (usually one existing in the central cytoplasm and another in the cortex) that controls the dynamic movement of the vegetative nucleus, generative nucleus/cell and sperm cells. Furthermore, we have also observed that there is an array of microfilaments (oriented mostly parallel to the long axis of the cell) existing in the generative and sperm cells. As far as we are aware, this is the first report showing the existence of microfilaments in living generative and sperm cells of rice pollen. The implication and significance of the existence of microfilaments in generative and sperm cells in rendering self-propelled motion of these cells in relation to their passage and movement in the pollen tube and embryo sac for fertilization were discussed.

Actin Visualization in Living Immature Pollen of Rice Using a GFP-Mouse Talin Fusion Protein

Green fluorescent protein (GFP) fused to the F_actin binding domain of mouse talin labels the actin cytoskeleton in the immature pollen of stable transformed rice (Oryza sativa L.) plants. Actin microfilaments could be visualized only in the late_developmental stage of the immature pollen. During this developmental stage, microfilaments, initially composed of very short fibrils, develop into a very complex and novel network that sometimes totally and sometimes partially encloses the vegetative nucleus and the spherical shaped generative cell in the central cytoplasm of the immature pollen. The behavior of the actin microfilamentous structure throughout the late_developmental stage of the immature pollen is extremely dynamic, and the likelihood of this structure in generating forces for vegetative nucleus and generative cell movement in the immature pollen has been discussed. No actin filaments were visualized in the spherical generative cells.

Soluble Expression and Rapid Quantification of GFP-hepA Fusion Protein in Recombinant Escherichia coli

To establish a rapid quantification method for heparinase I during its production in recombinant Escherichia coli, a translational fusion vector was constructed by fusing the N terminus of heparinase I to the C terminus of a green fluorescent protein mutant （GFPmutl）. As a result, not only was the functional recombinant expression of heparinase I in E. coli accomplished, but also a linear correlation was obtained between the GFP fluorescence intensity and heparinase I activity, allowing enzyme activity to be quantified rapidly during the fermentation.

Expression of Green Fluorescent Protein Gene with Baculovirus Vectorin Insect Cells

The green fluorescence of bioluminescent jellyfish Aequorea victoria is due to the presence of the green fluorescent protein (GFP). To examine whether the GFP gene can be applied as a reporter gene in insect cells, a baculovirus transfer vector containing the neomycin resistance gene (neo) was established. The GFP gene was subcloned into the vector downstream of the polyhedrin gene (ocu) promoter. In the presence of G418, the recombinant virus can be purified. Expression of the GFP gene in the recombinant virus should give rise to synthesis of the GFP with a molecular weight of 30×10 3 dalton, and is observable by the strong green light irradiated by ultraviolet or blue light in viable intact insect cells. The GFP produced in insect cells has typical fluorescent spectra indistinguishable from those of the purified native GFP. The GFP gene as a good reporter gene can be applied to the baculovirus insect cell expression system.

Rescue and Preliminary Application of a Recombinant Newcastle Disease Virus Expressing Green Fluorescent Protein Gene

把 ZJI 紧张基于纽卡斯尔疾病病毒(NDV ) 的完全的染色体顺序，七份教材被设计为构造 plasmid pNDV/ZJI 放大 cDNA 碎片，它包含了 NDV ZJI 紧张的全身的 cDNA。与三助手 plasmids， pCIneoNP， pCIneoP 和 pCIneoL， pNDV/ZJI 当时是进表示 T7 RNA 聚合酶的 BSR-T7/5 房间的 cotransfected。在进受胎的鸡肉的 transfected 房间文化上层清液的接种以后，从 specific-pathogen-free (SPF ) 的鸡蛋结队，传染 NDV ZJI 紧张成功地被救。格林荧光灯蛋白质(GFP ) 基因被放大并且插入了到 NDV 全身的 cDNA 产生标注 GFP 的 recombinant plasmid pNDV/ZJIGFP。在进 BSR-T7/5 房间的结果的 plasmid 和三支持 plasmids 的 cotransfection 以后， recombinant NDV， NDV/ZJIGFP，被救。特定的绿荧光在 BSR-T7/5 和鸡胚胎成纤维细胞(CEF ) 房间 48h 被观察感染以后，显示 GFP 基因被表示在一相对高级。NDV/ZJIGFP 被 oculonasal 线路接种进 10-day-old SPF 鸡。四天感染以后的、强壮的绿荧光能在肾和 tracheae 被检测，显示标注 GFP 的 NDV 能是的 recombinant 为 NDV 传播和致病的分析的一个很有用的工具。关键词纽卡斯尔疾病病毒(NDV )- 格林荧光灯蛋白质(GFP )- 营救 - 表示 CLC 数字 S831.7 基础条款：给中国(No.30630048 )

Cloning, expression, purification, and characterization of LC-1 ScFv with GFP tag

Total RNA was isolated from the hybridoma cell line （LC- 1 ）, which secretes anti-lung adenocarcinoma monoclonal antibody, and was transferred into cDNA. Based on the FRl （framework region l） and FR4 conserved regions of LC-1 gene, the variable regions of heavy chain （Vh） and light chain （Vl） were amplified, and the Vh and modified Vl were connected to single chain Fv （ScFv） by SOE-PCR （splice overlap extension PCR）. The modified ScFv was fused with green fluorescent protein （GFP） and introduced into E. coli JM109. The fusion protein induced by lPTG （Isopropylthiogalactoside） was about 57000 on a 10% SDS-PAGE gel （10% Sds Polyacrylamide Gel Electrophoresis）, and primarily manifested as inclusion bodies. The renatured protein purified by Ni-NTA Superflow resins showed ability to bind to antigen on SPC-A-l lung adenocarcinoma. In addition, the induced host cells fluoresced bright green under 395 nm wavelength, which indicated that the expected protein with dual activity was expressed in the prokaryotic system. The ScFv with GFP tag used in this research can be applied as a new reagent to detect immunological dye, and provide a feasible way to detect adenocarcinoma in a clinical setting.

Fluorescence Tracking of Exogenous DNA in Genetic Transformation of the Chinese Oak Silkmoth Antheraea Pernyi via Sperm-Mediated Gene Transfer

Exogenous DNA expressing green fluorescent protein( GFP) and labeled with fluorescein isothiocyanate( FITC) was used to transform the Chinese oak silkmoth Antheraea pernyi( A. pernyi)via sperm-mediated gene transfer( SMGT). Sperms entry into the female reproductive system and eggs were observed using fluorescence microscopy. The ability of A. pernyi sperms to uptake exogenous DNA was confirmed,and transfer of the exogenous DNA was shown by GFP expression in the transgenic eggs. Our result suggested that SMGT could also be used to directly generate transgenic A. pernyi expressing functional genes of interest.

Testing the Efficacy of eGFP-Transformed Aspergillus flavus as Biocontrol Strains

Current biological control methods to prevent pre-harvest aflatoxin contamination of corn, cottonseed, and ground and tree nuts involve field inoculation of non-aflatoxigenic Aspergillus flavus. To date, the efficacy of this approach requires annual reapplication of the biocontrol agent. The reason for this requirement is uncertain. To track the dispersal and test the longevity of these strains, we prepared fluorescent biocontrol strains by incorporating into them the gene expressing the enhanced green fluorescent protein (eGFP). We first investigated the effects of eGFP transformation on the ability of the fluorescent fungus to compete with its non-fluorescent homolog, and then with other heterologous non-aflatoxigenic strains as well as with aflatoxigenic isolates. Our findings indicate that, in these studies, detection of fluorescence was variable, with some fluorescent strains exhibiting enhanced growth and sporulation post-transformation. In our tests, not all transformed strains proved to be good candidates for tracking because their fluorescence was reduced over the course of our study. Most of the transformed strains retained fluorescence and showed robust colony growth in an artificial competitor environment;therefore, they should be suited for further trial under more natural settings. Our ultimate objective is to determine if out-crossing between biocontrol strains and native field populations is occurring in a natural setting.

Colonization Pattern of Azospirillum brasilense Yu62 on Maize Roots

Plasmid pVK1001 which carried the gfp gene of GFPmut2, a mutant of GFP, was introduced into Azospirillum brasilense Yu62 by electroporation. Maize seedlings were inoculated with the GFP-labelled baeteria and grown gnotobiotically in flask with semi-solid agar medium. Observations were performed with confocal laser scanning microscopy (CLSM) and electron microscopy, respectively, at 8 d and 12 d after inoculation. Confocal laser scanning microscopy showed that A. brasilense Yu62 could penetrate into the cortex tissue, colonizing in the intercellular spaces of the parenchyma cells of the cortex tissue. Transmission and scanning electron microscopy (TEM) showed that the majority of the bacteria colonized on the root surface and only a minority of them resided in the root interior.

Establishment of a Spleen Cell Line from Large Yellow Croaker Pseudosciaena crocea and its Primitive Application in Foreign Gene Transfection

A large yellow croaker,Pseudosciaena crocea,spleen(LYCS)cell line was established and the feasibility of using it for foreign gene transfection was evaluaed in this study.Primary culture of LYCS cells was initiated from spleen tissue pieces,which were cultured at 25℃ in Dulbecco's modiced Eagle medium/F12 medium(DMEM/F12,1:1)(pH7.2),supplemented with 20% fetal bovine serum,carboxymethyl chitosan,chondroitin sulfate,basic fibroblast growth factor(bFGF)and insulin-like growth factor-I(IGF-I).The cultured LYCS cells,in fibroblast shape,proliferated to 100% confluency 20 days later.Chromosome analyses indicated that the LYCS cells exhibited chromosomal aneuploidy with a modal chromosome number of 48 which displayed the normal diploid karyotype of P.crocea(6m+6sm+36t,NF=60).A LYCS cell line,with a population doubling time of 48.7 h at passage 60,has been established and subcultured to passage 70.Transgenic feasibility test demonstrated that positive green fluorescence protein(GFP)expression was observed in LYCS cells after pcDNA3.1-GFP plasmid transfection.In conclusion,a continuous foreign gene trans-fection feasible LYCS cell line has been established successfully.The cell line might serve as a valuable tool for studies of transgenic breeding and has potential applications for different kinds of cytotechnological studies.

Image Analysis in Microbiology: A Review

This review is focused on using computer image analysis as a means of objective and quantitative characterizing optical images of the macroscopic (e.g. microbial colonies) and the microscopic (e.g. single cell) objects in the microbiological research. This is the way of making many visual inspection assays more objective and less time and labor consuming. Also, it can provide new visually inaccessible information on relation between some optical parameters and various biological features of the microbial cul-tures. Of special interest is application of image analysis in fluorescence microscopy as it opens new ways of using fluorescence based methodology for single microbial cell studies. Examples of using image analysis in the studies of both the macroscopic and the microscopic microbiological objects obtained by various imaging techniques are presented and discussed.

Preliminary study on preparation of E.coli cell-free system for protein expression

In the new era of‘‘Omics’’,the traditional techniques of protein expression in vivo can not come up with the exponential increase of genetic information.The cellfree protein synthesis system provides a new strategy of protein expression with advantages of rapid,convenient and high-throughput expression.The preparation of cell extracts,the optimization of substrate concentrations and the energy regeneration system are the key factors for the successful construction of cell-free protein expression system.In this work,the cell extract was prepared from RNase I-defective strain E.coli A19.The cell growth phase,the pressure for cell disruption and the storage condition of cell extracts were optimized.Meanwhile,the optimal substrate concentrations and the energy regeneration system were selected.Under the optimized conditions,the green fluorescent protein(GFP)reporter gene was expressed in the E.coli cell-free system with high expression level(Ca.154 mg/mL)which was 29 times higher than the expression level before optimization.

Tuning the solid-state emission of the analogous GFP chromophore by varying alkyl chains in the imidazolinone ring

New analogues of green fluorescent protein (GFP) chromophore mGFP-Cn (n = 1, 3, 5, 11) with alkyl chains of different lengths in the imidazolinone rings were synthesized and their crystal structures were determined. These GFP-like chromophores are all emissive in the solid state. And the solid-state emission quantum yields of increase by extending the lengths of alkyl chains, owing to the fact that the intermolecular pi-pi interactions are significantly weakened based on their crystal structures.

Construction of Yeast Vectors with Resistance to Geneticin

Two Escherichia coli Saccharomyces cerevisiae shuttle vectors containing a resistance marker to geneticin (G418) are constructed. Both vectors contain a kanamycin resistant marker (KanMX4) module coding aminoglycoside 3' phosphotransferase (APH) that renders E. coli resistant to kanamycin and S. cerevisiae to geneticin. These vectors overcome the shortage of the conventional yeast vectors bearing HIS3, TRP1, LEU2, and URA3 modules as selection markers, which require hosts to be auxotrophic. Green fluorescent protein (GFP) is used as the reporter to examine the functions of the vectors. The vectors are powerful tools for the convenient cloning and controlled expression of genes in most S. cerevisiae strains.

Electrophysiological assessment of primary cortical neurons genetically engineered using iron oxide nanoparticles

The development of safe technologies to genetically modify neurons is of great interest in regenerative neurology, for both translational and basic science applications. Such approaches have conventionally been heavily reliant on viral transduction methods, which have safety and production limitations. Magnetofection （magnet-assisted gene transfer using iron oxide nanoparticles as vectors） has emerged as a highly promising non-viral alternative for safe and reproducible genetic modification of neurons. Despite the high potential of this technology, there is an important gap in our knowledge of the safety of this approach, namely, whether it alters neuronal function in adverse ways, such as by altering neuronal excitability and signaling. We have investigated the effects of magnetofection in primary cortical neurons by examining neuronal excitability using the whole cell patch clamp technique. We found no evidence that magnetofection alters the voltage-dependent sodium and potassium ionic currents that underpin excitability. Our study provides important new data supporting magnetofection as a safe technology for bioengineering of neuronal cell populations.

Promoter Activities of Genes cpcT2 and cpcS2 in Nostoc PCC 7120

To study the promoter activities of genes cpcT 2 and cpcS 2,several upstream DNA fragments of these two genes with different lengths were selected.These fragments were fused with promoterless gfp（reporter gene） for constructing five recombinant plasmids.Then,these recombinant plasmids were transferred into Nostoc PCC 7120 by conjugation.The promoter activities of genes cpcT 2 and cpcS 2 were determined by observing the fluorescence of green fluorescent protein（GFP） with a fluorescence microscope.The result showed that the 1 300 bp（-1 300 to 0 bp） and 2 600 bp（-2 600 to 0 bp） upstream fragments of cpcT 2 had strong promoter activity and the promoter activity of the 680 bp（-680 to 0 bp） fragment was weaker than that of two above fragments of cpcT 2.The 2 000 bp（-2 000 to 0 bp） upstream fragment of cpcS 2 revealed weak promoter activity.This showed that a strong promoter of cpcT 2 was located in the upstream fragment between-680 and-1 300 bp.