A novel element (NIRS) participates in the regulation ofinterleukin 2 receptorαgene expression

A novel element at -153/- 143 bp in the interleukin 2 receptor α(IL-2Rα) gene has been coined as NRE-inverse repeat sequence (NIRS) due to its inversely repeated to the known negative regulatory element (NRE) further upstream of the gene. In order to explore the role of NIRS in the expression of IL-2Rαgene,luciferase reporter plasmids driven by 4 individually deleted IL-2Rα genes promoter regions were constructed. Transfection of the reporter plasmids into Jurkat cells and HeLa cells respectively, we found that both NIRS and NRE were critical for repressing the constitutive expression of IL-2Rα gene and were also necessary for promoter activity induced by PHA. EMSA results showed that double-stranded NRE- and NIRS-binding proteins existed in both HeLa cells and Jurkat cells. However, single-stranded NIRS- and NRE-binding protein was only found in HeLa cells. Interestingly, the supershift band showed up in EMSA system with Jurkat cells (no matter whether activated or not) adding to the cell lysate of HeLa cells. UV-crosslinking showed a double stranded NRE- and NIRS-binding protein p83 in both Jurkat cells and HeLa cells. Our results suggest that trans-acting factors play a key role in regulating promoter activity of IL-2Rα gene by interacting with double or single stranded NRE and/or NIRS selectively in different cells.     

Engineering Deinococcus radiodurans into biosensor to monitor radioactivity and genotoxicity in environment

Based on a genetically modified radioresistant bacteria Deinococcus radiodurans, we constructed a real time whole cell biosensor to monitor radioactivity and genotoxicity in highly radioactive environ-ment. The enhanced green fluorescence protein (eGFP) was fused to the promoter of the crucial DNA damage-inducible recA gene from D. radiodurans, and the consequent DNA fragment (PrecA-egfp) car-ried by plasmid was introduced into D. radiodurans R1 strain to obtain the biosensor strain DRG300. This engineered strain can express eGFP protein and generate fluorescence in induction of the recA gene promoter. Based on the correlation between fluorescence intensity and protein expression level in live D. radiodurans cells, we discovered that the fluorescence induction of strain DRG300 responds in a remarkable dose-dependent manner when treated with DNA damage sources such as gamma radiation and mitomycin C. It is encouraging to find the widely detective range and high sensitivity of this re-constructed strain comparing with other whole cell biosensors in former reports. These results suggest that the strain DRG300 is a potential whole cell biosensor to construct a detective system to monitor the biological hazards of radioactive and toxic pollutants in environment in real time.     

Cloning,sequencing of the HSC70 gene in Ctenopharyngodon idella

A cDNA encoding heat shock cognate protein 70(HSC70)was cloned from liver of grass carp(Ctenopharyngodon idella)(GenBank JF436930).This cDNA was found out to contain2 346 bp in length,including 1 950 bp of complete coding sequence encoding 649 amino acids(aa),plus 89 bp of 5′-UTR and 307 bp of3′-UTR.Analysis of its genomic structure revealed that its corresponding gene contained seven exons and six introns.Homology analysis indicated that it shared 99%of identity with HSC70 of breams and 86%of identity with HSP70 of Drosophila.Fluorescent RT-PCR analysis revealed that at 28℃,this gene was expressed in abdominal fat,muscle,intestines,brain,middle kidney,head kidney,gonads,swim bladder,liver,heart,spleen,gills,and fins with expression level in liver being the highest(p0.05),followed by that in the gonads;at 36℃,its mRNA expression level was increased at first but then decreased thereafter under heat shock stress,indicating that its expression can be regulated by heat shock.In conclusion,cloning and expression analysis identified a cDNA encoding a constitutive HSP70 gene that is expressed in many tissues of Ctenopharyngodon idella and its expression was down-regulated by heat shock.     

Apoptosis in suspension culture of tobacco cells induced by heat shock

The induction of apoptosis in suspension culture of tobacco cells by heat shock is reported for the first time. Heat treatment (48℃ for 4 h) of tobacco cells led to the appearance of typical hallmarks of apoptosis. It was demonstrated by DNA laddering analysis that the cells treated with heat shock at 48℃ for 4 h had a serious degradation of nuclear DNA into multi-nu-cleosomal sizes, suggesting that heat shock activated endogenous nuclease which led to DNA cleavage at the linkage sites between the nucleosomes, but ladders were very faint for DNA from 2 and 9 h heat-treated cells. The terminal deoxynucleotidyl transferase (TdT)-mediated dUTP nick end labelling (TUNEL) detection also showed that most of these treated cells (48℃ for 4 h) displayed positive reactions, indicating a serious DNA 3'-OH cleavage in their nuclei. Moreover, some other cytological changes in apoptotic cells, such as cell shrinkage, chromatin aggregation, nucleus collapse, have also been observed by 4', 6'-diamidino-2-phenyl-indole (DAPI) staining.     

Engineering <Emphasis Type="Italic">Deinococcus radiodurans</Emphasis> into biosensor to monitor radioactivity and genotoxicity in environment

Based on a genetically modified radioresistant bacteria Deinococcus radiodurans, we constructed a real time whole cell biosensor to monitor radioactivity and genotoxicity in highly radioactive environment. The enhanced green fluorescence protein （eGFP） was fused to the promoter of the crucial DNA damage-inducible recA gene from D. radiodurans, and the consequent DNA fragment （PrecA-egfp） carried by plasmid was introduced into D. radiodurans R1 strain to obtain the biosensor strain DRG300. This engineered strain can express eGFP protein and generate fluorescence in induction of the recA gene promoter. Based on the correlation between fluorescence intensity and protein expression level in live D. radiodurans cells, we discovered that the fluorescence induction of strain DRG300 responds in a remarkable dose-dependent manner when treated with DNA damage sources such as gamma radiation and mitomycin C. It is encouraging to find the widely detective range and high sensitivity of this reconstructed strain comparing with other whole cell biosensors in former reports. These results suggest that the strain DRG300 is a potential whole cell biosensor to construct a detective system to monitor the biological hazards of radioactive and toxic pollutants in environment in real time.     

Analysis of the Cotton E6 Promoter

An E6 gene from sea island cotton （Gossypium barbadense） was expressed specifically in cotton fiber cells to transfer functions to cultivated species for better transgenic engineering. The regulatory activity of the E6 promoter region was then studied by isolating a 614-bp fragment of the 5＇-flanking region from upland cotton （Gossypium hirsutum CR1-12） to produce a green fluorescent protein （GFP） reporter construct for analysis of tissue-specific expression in transgenic tobacco seedlings. Fluorescent analyses indicate that the relatively short E6 promoter is sufficient to direct green fluorescent protein expression specifically in the leaf trichomes （hair cells） of the transgenic tobacco plants. As cotton fibers are also unicellular trichomes that differentiate from epidermal cells of developing cotton ovules, the result suggests that the relatively short E6 promoter can serve as a fiber-specific expression promoter for genetic engineering to improve cotton fiber quality.     

Identification of a bi-directional promoter from Tomato yellow leaf curl China virus

A bi-directional promoter of Tomato yellow leaf curl China virus (TYLCCNV) was obtained with the total DNA from TYLCCNV isolate Y10 infected tobacco leaves as a template. Plant expression vectors were constructed by fusing the amplified DNA fragment with the gus gene and nopaline terminator in different orientations. The vectors containing promoter fragments were transferred into leaf cells and plant stems of Nicotiana benthamiana by Agrobacterium-mediated method. Transient expression results showed that both the complementary and virion-sense promoters could drive the gus gene to express, and the GUS activity of the complementary-sense promoter was stronger than that of the virion-sense. Co-expression of the vector containing βC1 gene of TYLCCNV DNAβ with the vector containing a bi-directional promoter revealed that the βC1 protein has no impact on expression of either the virion- or the complementary-sense promoter.     

Interaction of hepatitis B virus with tumor suppressor gene p53: its significance and biological function

The mechanism of the interaction of hepatitis B virus (HBV) with tumor suppressor p53 and its role in the hepatocar-cinogenesis have been studied by PCR-directed sequencing, gel shift assays and in situ ultraviolet cross-linking assay. The biological function of the interaction of HBV with p53 gene was investigated by co-transfection of chloramphenicol acetyltransferase ( CAT) reporter gene. p53 and HBV DNA. and quantitative PCR. Among the 16 primary hepatocellular carcinoma (PHC) samples. 13 were HBV-DNA positive. 10 HBxAg positive and 9 p53 protein positive. The p53 gene point mutation was found in 5 samples, one of which had a G to T substitution located at codon 249. After analyzing the HBV genome by a computer program, a p53 response element binding sequence was found in HBV genome at upstream of enhancer I. from 1047 to 1059 nucleotides. This sequence could specifically bind to p53 protein, increase p53 protein accumulation in the PHC cells and stimulate the transactivating activity of p53 and HBV replication . The results also revealed that HBxAg could combine with p53 protein to form a complex in the cells and enhance CAT expression. Immunocytochemical staining showed that p53 protein complex was located in the cytoplasm and the process of p53 entry to nuclei was. in part, blocked. From our results, we conclude that the mutation of p53 gene at codon 249 is infrequent in HBV-associated PHC. the DNA-protein binding between HBV and p53. and the protein-protein binding between HBxAg and p53 might lead to the reduction or inactivation of p53 protein, which in turn resulting in HBV-associated hepatocarcinogenesis.     

Involvement of NADPH oxidase NtrbohD in the rapid production of H2O2 induced by ABA in cultured tobacco cell line BY-2

The mechanisms for the production of hydrogen peroxide （H2O2） induced by abscisic acid （ABA） were investigated in suspension culture cells of tobacco BY-2 cells. The results showed that the immediate generation of H2O2, which was mainly derived from super-oxide dismutase-catalyzed dismutation of superoxide radical, was significantly induced by ABA. Furthermore, treatment of the cultured tobacco cells with ABA resulted in a time-dependent quick increase in plasma membrane （PM） NADPH oxidase activity, which coin- cided on time and magnitude with the elevation in ABA-induced accumulation of H2O2. Moreover, these enhanced effects were pro- nouncedly inhibited by two NADPH oxidase inhibitors, diphenylene iodonium and imidazole, suggesting that PM NADPH oxidase is involved in the rapid accumulation of H2O2 in cultured tobacco cells. In addition, analysis of the expression level of NtrbohD, a PM NADPH oxidase gene in tobacco, by RT-PCR and protein gel blot revealed that the gene at both mRNA and protein levels was upregulated by ABA, indicating that NtrbohD participates in the ABA-stimulated rapid production of H2O2 in tobacco culture cells. Taken together, these findings suggest that ABA induces the rapid accumulation of reactive oxygen species via NADPH oxidase in sus-pension culture cells of tobacco, and that NADPH oxidase and H2O2 appear to be important components in ABA signal transduction pathway in plants.     

An on-line multi-parameter analyzing optical biosensor for real-time and non-invasive monitoring of plant stress responses in vivo

Photosynthetic dysfunction and reactive oxygen species （ROS） production are the common features of plant stress responses. Based on quantitative measurement of ROS production and delayed fluorescence （DF） emission, which is an excellent marker for evaluating photosynthesis, an on-line multiparameter analyzing optical biosensor for detecting plant stress responses was developed. Performances of the proposed biosensor were tested in the wild type （WT） Arabidopsis and heat shock protein （Hsp） 101 T-DNA knockout mutant （hsp101） plants with different thermotolerance. Results demonstrated that DF intensity correlates with net photosynthesis rate （Pn） in response to elevated temperature in both the WT Arabidopsis and hsp101 mutant plants. The light response characteristics and the recovery dynamics of the DF intensity were also in line with those of Pn in both the WT Arabidopsis and hsp101 mutant plants after heat stress （HS, 40℃ for 30 min）, respectively. In all experiments discussed above, the hsp101 plant showed the worse photosynthetic performance than the WT plant. Moreover, after HS, more ROS production in the hsp101 mutant than in WT Arabidopsis, which was found to be mainly localized at chloroplasts, could be directly detected by using the proposed biosensor. In addition, the hsp101 mutant showed severer chloroplasts alterations than the WT plant within the first 1 h of recovery following HS. Nevertheless, pre-infiltration with catalase （CAT） reduced ROS production and prevented the declines of the DF intensity. Therefore, HS-caused declines of photosynthetic performance might be due to oxidative damage to photosynthetic organelle. To sum up, we conclude that Hsp101 plays an important role in preventing oxidative stress, and the proposed optical biosensor might be a powerful tool to determine plant stress responses and identify plant resistant difference.     

Cloning and expression of <Emphasis Type="Italic">AtPLC6</Emphasis>, a gene encoding a phosphatidylinositol-specific phospholipase C in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>

A full-length cDNA clone corresponding to a putative phosphatidylinositol-specific phospholipase C(PIPLC) was isolated from Arabidopsis thaliana by screening a cDNA library and using RT-PCR strategy.The cDNA,designated AtPLC6,encodes a putative polypeptide of 578 amino acid residues with a calculated molecular mass of 66251.84 D and a pI of 7.24. The sequence analysis indicates that the polypeptide contains X, Y, EF-hand and C2 domains.The overall structure of putative AtPLC6 protein, like other plant PI-PLCs,is most similar to that of mammalian PLCδ The recombinant AtPLC6 protein expressed in E. coil was able to hydrolyze phosphatidylinositol 4,5-biophosphate (PIP2) to generate inositol 1,4,5-trisphate (IP3) and 1,2-diacylglycerol (DAG).The protein hydrolyzes PIP2 in a Ca^2 -dependent manner and the optimum concentration of Ca^2 is 10μmol/L.These results suggested that AtPLC6 gene encodes a genuine PIPLC.Northern blot analysis showed that the AtPLC6 gene is expressed at low level in all examined tissues, such as roots,stems,leaves,flowers,siliques and seedlings under normal growth conditions.The gene is strongly induced under low temperature and weakly induced under various stresses,such as ABA, high-salt stress and heat. These results suggested that AtPLC6 might be involved in the signal-transduction pathways of cold responses of the plants.     

Construction and anti-tumor effects of recombinant fowlpox virus expressing Newcastle disease virus hemagglutinin-neuramidinase gene

Hemagglutinin-neuramidinase (HN), a Newcastle disease virus-derived protein, not only mediates receptor recognition but also possesses neuraminidase (NA) activity, the ability to cleave a component of those receptors, N-acetylneuraminic acid (NAcneu, sialic acid). It is known that this protein in mammalian species, including human beings, has interesting anti-neoplastic as well as immune stimulating properties. To explore the use of the HN gene in cancer gene therapy, we constructed a recombi-nant fowlpox virus expressing the HN protein (vFV-HN) and compared the anti-tumor activity of the recombinant virus with that of wild-type fowlpox virus (FPV) in vivo and in vitro. Here we found that although B16 cells were somewhat resistant to the basal cytotoxic effect of wild-type fowlpox virus, infection with vFV-HN caused a pronounced cytotoxic effect and, the survival of tumor-bearing mice immunized with vFV-HN was significantly increased compared with the survival of mice immunized with the FPV alone. Furthermore, the immunization of mice with vFV-HN elicited a B16 tumor-specific cytotoxic T lymphocyte (CTL) response and clonal expansion of both CD4 and CD8 T cell populations in vivo. In addition, T cells from lymph nodes of mice vaccinated with vFV-HN secreted high levels of the Th1 cytokine IL-2 and IFN-γ, indicating that the regression of tumor cells is related to a Th1-type dominant immune response. These results demonstrate that vaccination with vFV-HN may be a potential strategy for cancer gene therapy.     

Interactions between the nuclear matrix proteins and the 5'-flanking cis-acting elements of the human ε-globin gene

An erythroid-specific nuclear matrix protein (termed ε-NMPk) in K562 cells, which can specifically bind to the positive stage-specific regulatory element (ε-PRE Ⅱ , - 446- - 419 bp) upstream of the human ε-globin gene, has been identified by using gel mobility shift assay. Meanwhile, Southwestern blotting assay showed that the nuclear matrix protein ε-NMPk in K562, cells may be composed of two polypeptides ( ～ 40 ku). In addition, it is observed in the gel mobility shift assay that the nuclear matrix proteins from K562, HEL and Raji cells can bind to the silencer DNA ( - 392- - 177 bp) in the 5'-flanking sequence of human ε-globin gene respectively. However, the shift band K detected in K562 cells is different from shift band H/R in HEL and Raji cells, suggesting that a common nuclear matrix protein may exist in HEL and Raji cells. Results show that the nuclear matrix protein may play an important role in the regulation of the human ε-globin gene expression.     

Coat protein gene and 3′ non-coding region of tobacco mosaic virus and tomato mosaic virus are associated with viral pathogenesis in Nicotiana tabacum

The camellia isolate of tomato mosaic virus (ToMV-TL) can induce local necrotic lesions on the inoculated leaves in Nicotiana tabacum, whereas the broad bean isolate of tobacco mosaic virus (TMV-B) produces the mosaic symptom on systemic leaves. To examine viral determinant for differential infection phenotype in N. tabacum, the coat protein gene and the 3′ non-coding region of TMV was replaced with that of ToMV, the chimeric virus induced similar local necrotic lesions to that induced by ToMV. The results indicate that the coat protein gene and the 3′ non-coding region of TMV and ToMV influence the virus-induced pathogenesis in N. tabacum.     

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.