Intramammary expression and therapeutic effect of a human lysozyme-expressing vector for treating bovine mastitis

To develop a gene therapy strategy for treating bovine mastitis, a new mammary-specific vector containing human lysozyme (hLYZ) cDNA and kanamycin resistance gene was constructed for intramammary expression and clinical studies. After one time acupuncture or intracisternal infusion of healthy cows with 400 μg of the p215C3LYZ vector, over 2.0 μg/ml of rhLYZ could be detected by enzymatic assay for about 3 weeks in the milk samples. Western blotting showed that rhLYZ secreted into milk samples from the vector-injected cows had molecular weight similar to that of the natural hLYZ in human colostrums. Twenty days after the primary injection, the quarters were re-injected with the same vector by quarter acupuncture and even higher concentrations of rhLYZ could be detected. Indirect competitive ELISA of milk samples showed that the vector injection did not induce detectable humoral immune response against hLYZ. Clinical studies showed that twice acupuncture of quarters with the p215C3LYZ vector had overt therapeutic effect on clinical and subclinical mastitis previously treated with antibiotics, including disappearance of clinical symptoms and relatively high microbiological cure rates. These data provide a solid rationale for using the vector to develop gene therapy for treating bovine mastitis.

Construction of bicistronic green fluorescent protein labeled pSELECT GFPzeo human bone morphogenetic protein 2 eukaryotic expression vector

Objective To construct green fluorescent protein (GFP)-labeled pSELECT-GFP zeohBMP2 eukaryotic expression vector.Methods The encoding fragment of hBMP2 gene was obtained from a recombinant plasmid pcDNA3.1/CT-hBMP2 by using polymerase

Expression of vascular endothelial growth factor and its role in oncogenesis of human gastric carcinoma

AIM: To establish the role of vascular endothelial growth factor (VEGF) in the oncogenesis of human gastric carcinoma more directly. METHODS: The expression of VEGF and its receptor kinase-domain insert containing receptor (KDR) in human gastric cancer tissue were observed by immunohistochemical staining. VEGF levels were manipulated in human gastric cancer cell using eukaryotic expression constructs designed to express the complete VEGF(165) complimentary DNA in either the sense or antisense orientation. The biological changes of the cells were observed in which VEGF was up-regulated or down-regulated. RESULTS: VEGF-positive rate was 50%, and VEGF was mainly localized in the cytoplasm and membrane of the tumor cells, while KDR was mainly located in the membrane of vascular endothelial cells in gastric cancer tissues and peri-cancerous tissue. In 2 cases of 50 specimens, the gastric cancer cells expressed KDR, localized in both the cytoplasm and membrane. Introduction of VEGF(165) antisense into human gastric cancer cells (SGC-7901, immunofluorescence intensity, 31.6%)) resulted in a significant reduction in VEGF-specific messenger RNA and total and cell surface VEGF protein (immunofluorescence intensity, 8.9%) (P【0.05). Conversely, stable integration of VEGF(165) in the sense orientation resulted in an increase in cellular and cell surface VEGF (immunofluorescence intensity, 75.4%) (P【0.05). Lowered VEGF levels were associated with a marked decrease in the growth of nude mouse xenografted tumor (at 33 days postimplantation, tumor volume: 345.40 +/- 136.31 mm3)(P【0.05 vs control SGC-7901 group: 1534.40 +/- 362.88 mm3), whereas up-regulation of VEGF resulted in increased xenografted tumor size (at 33 days postimplantation, tumor volume: 2350.50 +/- 637.70 mm3) (P【0.05 vs control SGC-7901 group). CONCLUSION: This study provides direct evidence that VEGF plays an important role in the oncogenesis of human gastric cancer.

Seizure-related 6,a brain-specific expression gene,is highly expressed in the human cerebellum

Epilepsy is a complex, Mendelian disease, and most cases are sporadic. Genomic comparisons of tissue from identified monogenic epilepsies with multigenic and acquired syndromes could ultimately reveal crucial molecular neuropathology for an epileptic phenotype. In the present study, a novel gene, human seizure-related （hSEZ）-6, was isolated from a human brain cDNA library. hSEZ-6 comprises 17 exons and spans a region of at least 55.6 kb, which was localized to 17q 12 by radiation hybridization, hSEZ-6 exhibits two isoform types, hSEZ-6A and hSEZ-6B, which encode 996 and 995 amino acids, respectively. The two putative hSEZ-6 proteins contain similar motifs and share 82% and 84% identity with mouse SEZ-6A protein, whose expression level increased in mouse cerebral cortex-derived cells treated with a convulsant drug, pentylentetrazole. Northern blot analysis demonstrated that hSEZ-6 is expressed highly in the cerebellum and in nucleus of the extrapyramidal system, such as the caudate nucleus and putamen. Reverse transcription polymerase chain reaction revealed that hSEZ-6 is expressed in neurons rather than gliocytes, which suggests that hSEZ-6 is a seizure-related gone.

A Plasmid vector encoding functional human keratinocyte growth factor gene in vitro—Functional human KGF gene expression in vitro

In this study, we cloned human KGF (hKGF) genes using RT-PCR techniques and developed a eukaryotic expression plasmid vector capable of directing the expression of functional hKGF. Monolayer culture of human embryo lung fibro-blast (HLF) was used for isolation of total RNA. Then the total RNA was purified and reverse- transcribed into cDNA using an oligo (dT) primer. A full PCR fragment for hKGF was generated and cloned. Restriction digestion and nucleo-tide sequence analysis validated the complete hKGF transcription. The hKGF cDNA fragment was inserted into pEGFP-C2 vector by means of recombinant DNA technology and verified by restriction analysis and sequencing. We have constructed pEGFP-C2-hKGF encoding the green fluorescent protein (GFP). Furthermore, hKGF had the effect on AEC II proliferation. These results suggest that the potential appli-cation of a hKGF plasmid of gene expression should be useful for sustained AEC proliferation, and its in vivo efficacy needs to be validated. Keywords:

Cloning and expression of human arresten gene and effect of its recombinant protein on endothelial cell proliferation

To clone human arresten gene and investigate biological activity of the recombinant protein.Methods Human arresten gene was obtained from the plasmid pGEMArr and subcloned into the BamHⅠ and Pst Ⅰ restriction sites of prokaryotic expression vector pRSET containing T7 promoter.The recombinant plasmid pRSETAN was subsequently transformed into the strain E.coli BL21(DE3),and the target gene was expressed under induction of IPTG.The expressed protein was extracted,purified by Ni 2+ chelation affinity chromatography and refoled.The effect of the recombinant protein on proliferation of human umbilical vein endothelial cells (HUVECs) was also analyzed with the MTT assay.Results Endonuclease digesting and DNA sequencing confirmed that the arresten gene was correctly inserted into the expression vector.The recombinant protein was hightly expressed in the form of inclusion body in the host bacteria after induction.SDS-PAGE analysis revealed that the recombinant protein with a molecular weight of 26×103 amounted to 27% of the total bacterial proteins.The purity of the expected protein could reach over 96% through affinity chromatography.After renaturation,the recombinant protein could reach over 96% through affinity chromatography.After renaturation,the recombinant protein could significantly suppress proliferation of human umbilical vein endothelia cells(HUVECs) induced by vascular endothelial growth factor(VEGF).Conclusion Human arresten gene was successfully cloned into the expression vector pRSET and expressed at high level in Escherichia coli.Purified and refolded arresten protein could effectively inhibit proliferation of vascular endothelia cells.2 refs.

Cloning and Expression of the vp39 Gene of Bombyx mori Nuclear Polyhedrosis Virus in E.coli

The nuclear capsid protein gene (vp39) ofBombyx mori nuclear polyhedrosis virus (BmNPV) was amplified successfully by PCR technique and inserted into pGEM 3zf(+). The 5′ and 3′ terminal area of the amplified vp39 gene were sequenced with silver-staining dideoxy method. Bmvp39 gene was sub-cloned into the expression vector pRSET-A, and transformed intoE. coli BL21. This gene was highly expressed by IPTG induction. SDS-PAGE analysis showed that the expressed protein is about 38 kd, and the expressed amount reached maxium in 4 h with IPTG induction.

CLONING AND EXPRESSION OF A cDNA SEQUENCE FOR HUMAN THIOREDOXIN

Objective To clone and determine the sequence and expression of a cDNA segment for human thioredoxin. Methods The cDNA segment of thioredoxin was obtained through amplification by RT PCR cloning from 143 (TK -) human osteosarcoma cell. The amplified products were cloned into pGEM T Easy vector and sequenced. Then the expressed vector pBV220 hTRX was constructed and transformed into E.coli strain DH5α for hTRX expression. The hTRX was purified by DEAE Sephadex A 50 column and the activity of recombinant hTRX was determined by the insulin disulfide reduction assay. Results Comparison of cDNA sequence of the cloned fragments with that of the reported hTRX (GenBank J04026) demonstrated that there were two differences compared to the reported cDNA sequence for hTRX at bp180 and bp284, and the amino acids enceoded altered respectively, but motif of the sequence was identical to that of the reported hTRX. The recombinant hTRX can catalyze insulin reduction by DTT. Conclusion The successful cloning and expression of hTRX cDNA formed a basis for further study on biological functions and utilization of hTRX.

Cloning and Expression Level Analysis of Melanocyte-stimulating Hormone Receptor 1 Gene(MC1R) in Alpacas with Different Coat Color

Specific primers for the MC1R gene of alpacas(GenBank EU1358800) were designed to amplify the cDNA sequence using RT-PCR to seek variation in the sequence and explore the relationship between the expression level of MC1R gene and alpaca coat color.The MC1R gene from white alpaca was cloned successfully and sequence analysis verified that the MC1R gene,encoding 317 amino acids,was 1081 bp in length.Compared with the existing sequence in GenBank,sequence identity was 99.9%and 7 mutations were found.Primers,designed from the sequence obtained,were used to assess the relative expression of MC1R in alpacas of different coat color using QRT-PCR and SPSS 13.0 software.Relative expression of MC1R in the skin of brown alpacas was 4.32 times higher than that in white alpacas after normalization with GAPDH(P【0.01),indicating that MC1R expression may be related to coat color of alpacas.

Cloning of cytochrome P-450 2C9 cDNA from human liver and its expression in CHL cells

AIM: Using bacterial, yeast, or mammalian cell expressing a human drug metabolism enzyme would seem good way to study drug metabolism-related problems. Human cytochrome P-450 2C9(CYP2C9) is a polymorphic enzyme responsible for the metabolism of a large number of clinically important drugs. It ranks among the most important drug metabolizing enzymes in humans. In order to provide a sufficient amount of the enzyme for drug metabolic research, the CYP2C9 cDNA was cloned and expressed stably in CHL cells. METHODS: After extraction of total RNA from human liver tissue, the human CYP2C9 cDNA was amplified with reverse transcription-polymerase chain reaction (RT-PCR), and cloned into cloning vector pGEM-T. The cDNA fragment was identified by DNA sequencing and subcloned into a mammalian expression vector pREP9. A transgenic cell line was established by transfecting the recombinant vector of pREP9-CYP2C9 into CHL cells. The enzyme activity of CYP2C9 catalyzing oxidation of tolbutamide to hydroxy tolbutamide in S9 fraction of the cell was determined by high performance liquid chromatography(HPLC). RESULTS: The amino acid sequence predicted from the cDNA segment was identical to that of CYP2C9*1, the wild type CYP2C9. However, there were two base differences, i.e. 21T】C, 1146C】T, but the encoding amino acid sequence was the same, L7, P382. The S9 fraction of the established cell line metabolizes tolbutamide to hydroxy tolbutamide; tolbutamide hydroxylase activity was found to be 0.465 +/- 0.109 micromol.min(-1).g(-1) S9 protein or 8.62 +/- 2.02mol.min(-1).mol(-1) CYP, but was undetectable in parental CHL cell. CONCLUSION: The cDNA of human CYP2C9 was successfully cloned and a cell line of CHL- CYP2C9, efficiently expressing the protein of CYP2C9, was established.

CONSTRUCTION OF HUMAN INTERLUEKIN-18 DNA VACCINE AND IT'S EXPRESSION IN MAMMALIAN CELLS

Objective To construct the human interleukin 18 DNA plasmids vaccine and to express the eukaryotic plasmids vaccine in mammalian cell lines Cos 7 and D5.Methods Gene recombinant technique was used to construct hIL 18 eukaryotic expression vectors.Calcium phosphate method was performed to transect recombinant hIL 18 eukaryotic expression vectors into Cos 7 and D5 cells. In situ hybridization and Western Blot were implemented to verify the transient expression of recombinant hIL 18 in Cos 7 and D5.Results The eukaryotic expression plasmid pVAX1 IL 18 was constructed successfully.hIL 18 was transiently expressed in Cos 7 and D5.Conclusion The eukaryotic expression plasmid pVAX1 IL 18 was constructed. In situ hybridization and Western Blot results proved the successful transient expression of pVAX1 IL 18 in Cos 7 and D5.Therefore,the work has settled the foundation for further biological research on hIL 18,including immunogene therapy through hIL 18.

Molecular Cloning of IGFBP-1 Gene and Developmental Expression of Its mRNA in Different Tissues of Nanjiang Mongolian Gazelles

The objective of the present study was to investigate the developmental expression patterns of Insulin-like growth factor-binding protein 1 (IGFBP-1) gene in different tissues of postnatal Nanjiang Mongolian Gazelles. Samples of heart, liver, spleen, lung, longissimus dorsi, semimembranosus, m. triceps brachii and biceps muscle of thigh were collected from a total of 36 Nanjiang Mongolian Gazelles at the age of 0, 15, 30, 60, 90 and 120 days after birth (3 males and 3 females at each age). The CDS was sequenced and ontogeny of mRNA levels of IGFBP-1 were measured by real-time fluorescence quantitative RT-PCR. The size of IGFBP-1 ORF was 792 bp encoding 263 amino acid residues, and displayed higher nucleotide/amino acid sequence identities with other ruminants compared to non-ruminants. The levels of IGFBP-1 mRNA in liver were highest (P<0.01), levels were medium in lung, spleen and heart, and the lowest in the muscles; there were no significant differences among the muscles (P>0.05). Three expression patterns of IGFBP-1 mRNA during postnatal growth from birth to day 60 were found: consistently decreasing (liver), fluctuating as increasing then decreasing (heart) or as decreasing then increasing then decreasing (spleen, lung and muscles). The results indicate that the IGFBP-1 gene is highly conserved among species, and liver has the highest expression. It was concluded that IGFBP-1 plays important roles in early postnatal growth and is expressed in a developmental-tissue-dependent manner.

Construction of a universal recombinant expression vector that regulates the expression of human lysozyme in milk

The mammary gland provides a novel method for producing recombinant proteins in milk of transgenic animals. A key component in the technology is the construction of an efficient milk expression vector. Here,we established a simple method to construct a milk expression vector, by a combination of homologous recombination and digestion-ligation. Our methodology is expected to have the advantages of both plasmid and bacterial artificial chromosome(BAC) vectors. The BAC of mouse whey acidic protein gene(mWAP) was modified twice by homologous recombination to produce a universal expression vector, and the human lysozyme gene(hLZ) was then inserted into the vector by a digestionligation method. The final vector containing the 8.5 kb mWAP 5′ promoter, 4.8 kb h LZ genomic DNA, and 8.0 kb m WAP 3′ genomic DNA was microinjected into pronuclei of fertilized mouse embryos, to successfully generate two transgenic mouse lines that expressed recombinant human lysozyme(rhLZ) in milk. The highest expression level of rhLZ was 0.45 g$L–1, and rhLZ exhibited the same antibacterial activity as native h LZ. Our results have provided a simple approach to construct a universal milk expression vector, and demonstrated that the resulting vector regulates the expression of hLZ in milk.

定量RTPCR中人干细胞因子的RNACRS的构建

一种适用于定量RT PCR、用ExonucleaseⅢ部分酶切剔除技术 ,构建人干细胞因子 (hSCF)基因的RNA竞争性参考标准 (RNA CRS)的新方法 :用RT PCR技术 ,从HepG2细胞中扩增出全长人hSCFcDNA ,并克隆入质粒pGEM T获重组的pGEMSCF载体 ,经ExonucleaseⅢ和S1核酸酶适当处理 ,以导致hSCFcDNA中一小片段缺失 ,由此获得重组 pGEMSCF模拟体 (mimic) ,经体外转录得到hSCFRNA CRS .测序表明 :该RNA CRS与hSCFmRNA比较 ,缺失了从第 4 99位至 60 8位共 110个核苷酸 ,但二者RT PCR反应可用同一对扩增引物 ,反应动力学极为相似 .这种hSCFRNA CRS可作为一种较理想的竞争性参考标准 ,适用于定量RT PCR中 ,以对重组hSCF在真核细胞中的表达水平进行准确的定量分析 .此方法亦可推广应用于其他真核基因的表达水平及

蛋白酶K消化PCR产物提高克隆效率

利用蛋白酶K消化PCR产物人脾Ro多肽基因片段,从51个白色转化子中获得41株人脾Ro(SS-A)多肽基因阳性克隆,克隆阳性率由0提高到79％。证明该法是一种提高PCR产物克隆效率的有效方法。

芸薹属植物MYBL2基因的克隆及其在A、B、C基因组中的PCR鉴别

【目的】MYBL2负调控拟南芥花青素和原花青素的生物合成。从芸薹属6个物种的不同叶色材料中克隆MYBL2基因,分析其序列和表达模式,探究其在芸薹属植物花青素生物合成途径中的功能,为油菜的品质、抗逆性、观赏性等性状改良提供参考。【方法】以芸薹属6个物种19份供试材料的总DNA为模板,同源克隆MYBL2基因,并进行多序列比对和进化树分析;对白菜、甘蓝型油菜、芥菜型油菜以及埃塞俄比亚芥的紫叶材料进行遮光处理,结合转录组和qRT-PCR分析MYBL2基因表达水平;对甘蓝、甘蓝型油菜、芥菜型油菜以及埃塞俄比亚芥紫、绿叶材料进行qRT-PCR分析MYBL2基因表达水平;根据克隆MYBL2-1和MYBL2-2序列的核苷酸变异位点设计特异性引物,开发能够区分MYBL2基因组来源的PCR标记。【结果】克隆获得MYBL2-1和MYBL2-2各9个同源基因共56个拷贝。其中,BcaMYBL2-1为首次获得,BcaMYBL2-1编码区序列全长为867 bp,包含2个内含子,分别为168和102 bp,编码198个氨基酸,分子量为22.69 kD,等电点(pI)为8.72。序列比对和进化分析表明,BcaMYBL2-1来源于B基因组。芸薹属6个物种MYBL2-1和MYBL2-2同源基因中,仅BraA07.MYBL2-1、BolC06.MYBL2-1和BcaMYBL2-1在不同叶色材料中存在序列差异。经遮光处理后,紫叶材料叶色变浅,在白菜紫宝5号中,BraA07.MYBL2-1和BraA02.MYBL2-2表达量分别为未遮光部分的0.7和0.4倍;在紫叶白花甘蓝型油菜中,BnaA07.MYBL2-1、BnaC06.MYBL2-1、BnaA02.MYBL2-2和BnaC02.MYBL2-2表达量分别为未遮光部分的0.4、0.5、0.4和0.4倍;在紫叶芥中,BjuA07.MYBL2-1、BjuB03.MYBL2-1、BjuA02.MYBL2-2和BjuB05.MYBL2-2表达量分别为未遮光部分的0.4、0.3、0.4和0.2倍;在紫秆埃芥中,BcaMYBL2-1、BcaB03.MYBL2-1和BcaC03.MYBL2-2表达量分别为未遮光部分的0.3、0.4和0.5倍,而BcaB05.MYBL2-2表达量为未遮光部分的2.4倍。对比芸薹属不同叶色材料MYBL2基因表达情况,结果表明,除了羽衣甘蓝,在紫叶材料中MYBL2基因大部分同源基因的表达量均高于绿叶。在羽衣甘蓝中,绿叶羽衣甘蓝BolC06.MYBL2-1和BolC02.MYBL2-2的表达量分别为紫叶羽衣甘蓝的2.5和3.5倍;在甘蓝型油菜中,紫叶白花BnaA07.MYBL2-1、BnaC06.MYBL2-1和BnaC02.MYBL2-2的表达量分别为绿叶白花的7.5、8.6和26.0倍,而绿叶白花BnaA02.MYBL2-2的表达量为紫叶白花的13.0倍;在芥菜型油菜中,紫叶芥BjuA07.MYBL2-1、BjuB03.MYBL2-1、BjuA02.MYBL2-2和BjuB05.MYBL2-2的表达量分别为四川黄籽的8.3、11.8、23.2和14.6倍;在埃塞俄比亚芥中,紫秆埃芥BcaMYBL2-1、BcaB03.MYBL2-1的表达量分别为W-BCDH76的7.1和27.6倍,而W-BCDH76的BcaB05.MYBL2-2和BcaC03.MYBL2-2的表达量则分别为紫秆埃芥的2.8和5.0倍。依据克隆的基因序列设计出5对引物,可以有效鉴别芸薹属植物MYBL2基因的A、B、C基因组来源。【结论】芸薹属紫叶材料MYBL2基因的表达与光照密切相关,而且参与花青素生物合成的调控机制与拟南芥MYBL2负调控花青素生物合成的机制有所不同。

大肠杆菌热敏毒素LT克隆基因的PCR定点诱变和重组表达的构建

为使大肠杆菌热敏毒素LT的毒素活性丧失的同时仍保留其较强的免疫原性 ,实验依据LT基因的同源序列设计并合成 5条引物 ,采用突出末端PCR法和重组PCR法 ,将克隆于质粒pEWD2 99上的LT基因 ,分别引入BamHI、Ndel和xhol等位点 ,扩增出带有上述RE位点且含有m7和m112 突变点的约 110 0bp和约 80 0bp的DNA片段和不含突变点的约 30 0bp的DNA片段 ,使控制LT毒力活性中心的第 7位和第 112位氨基酸的碱基分别发生诱变 ,各DNA片段经分离、纯化、RE酶切和DNA连接酶连接后 ,插入经BamHI和Xhol双酶切的线性化的高效表达载体pGEX_4T_1的多克隆位点区 ,使LTm基因置于pTac强启动子下且与Thrombin蛋白基因融合表达 ,将连接产物转化入JM10 5菌株 ,挑出可疑阳性菌落 ,提取质粒 ,经酶切鉴定、PCR鉴定和DNA序列分析 ,证明读框正确 ,序列正确 ,获得了pGEX_4T_1(LTm7和pGEX_4T_1(LTm112 两个重组表达质粒。为运用基因工程手段大量生产人和动物大肠杆菌流行性腹泻的疫苗抗原和幽门螺杆菌疫苗的粘膜免疫佐剂 ,完成了基因水平的工作。

小鼠β-actin基因的RT-PCR克隆与真核表达

以Trizol-异丙醇法提取小鼠肝脏总RNA,根据NCBI数据库中小鼠β-actin基因序列设计引物,采用RT-PCR技术扩增小鼠β-actin基因编码区并测序;以pcDNA3.1-flag为载体,构建β-actin基因真核表达质粒,继而将其重组产物转染于HeLa细胞,采用Western blot印迹法鉴定重组蛋白pcDNA3.1-flag/β-actin的表达水平。结果表明：克隆获得的289 bp片段与NCBI数据库中β-actin基因序列完全吻合,并且成功构建的pcDNA3.1-flag/β-actin真核基因表达载体,其重组质粒可在HeLa细胞中有效表达约43×10^3KD融合蛋白。

荧光定量RT-PCR技术分析人地中海贫血β^(654)珠蛋白基因转基因小鼠mRNA的表达

目的采用荧光定量RT-PCR技术检测所制作的人地中海贫血茁654珠蛋白基因转基因小鼠模型mRNA的表达情况,评价该技术应用于小鼠mRNA分析的价值。方法根据GenBank小鼠mRNA序列,设计用于扩增小鼠mRNA的引物和反向探针,构建荧光定量RT-PCR技术。实验分两组,分别对转基因小鼠和正常小鼠中mRNA进行检测。采用SPSS统计软件,分析和比较两组动物中mRNA的表达量及表达的稳定性。结果所检测的11只转基因阳性小鼠中检测出人茁654珠蛋白基因mRNA和小鼠内源性mRNA;而在33只正常小鼠中只检测到小鼠内源性mRNA。荧光定量RT-PCR技术可检测到105拷贝数的人茁654珠蛋白基因mRNA和115拷贝数的小鼠内源性mRNA。荧光定量RT-PCR技术分别在F1代和F2转基因阳性小鼠中稳定地检测到,表明转基因小鼠mRNA获得稳定表达。结论所构建的荧光定量RT-PCR技术分析转基因小鼠mRNA表达具有检测定量、敏感、高效快捷的特点,该方法在鉴定和评估转基因小鼠mRNA的表达中稳定性好、定量准确,具有非常重要的应用价值。