十拷贝串联重复laGLP-1基因植物表达载体的构建及对黄瓜遗传转化的研究

天然胰高血糖素样肽-1(glucagon-like peptide-1,GLP-1)是含有30个氨基酸的短肽激素,对2型糖尿病具有特殊疗效.以本实验室克隆的长效GLP-1(long acting GLP-1,laGLP-1)基因为基础,构建了十拷贝串联重复laGLP-1的无抗生素选择标记的植物表达载体pX6-laGLP-1,采用农杆菌介导法对黄瓜自交系2M1进行转化,通过PCR及Southern杂交检测分析,最后获得了4株稳定整合十拷贝串联重复laGLP-1的转基因植株.该遗传体系的建立为研发糖尿病食疗型转基因植物或用其生产治疗糖尿病的口服药物奠定了基础.     

Digestive stability and acute toxicity studies of exogenous protein in transgenic rice expressing lysine-rich fusion proteins

Evaluating exogenous protein expressed in transgenic crops is one of the most effective methods of assessing the safety of transgenic plants. The objective of this study was to assess the food safety of genetically modified (GM) rice containing a lysine-rich fusion protein gene (transgenic GL gene rice) by in vitro digestion and acute toxicity testing of exogenous protein, according to the national standard of the People’s Republic of China. The exogenous protein was rapidly degraded in the simulated gastric and intestinal fluids. In the acute experiment, the exogenous protein was injected into Institute of Cancer Research (ICR) mice via the tail vein at a dose of 438 mg kg-1 body weight. No adverse effects on animal behavior or mortality were observed during the following 15-day period and there were no significant biological changes in body weight, serum biochemistry parameters, relative organ weights or histopathological examinations, compared with the control group. Therefore, exogenous protein in transgenic GL gene rice has a low potential allergenicity or toxicity risk.     

水稻OsAAA1蛋白的原核表达载体构建及其可溶性表达研究

为使用外源表达载体表达并纯化有活性的水稻ATP酶蛋白Os AAA1,构建了p ET-32a-Os AAA1原核表达载体并进行体外IPTG诱导表达和Ni+柱亲和层析纯化.利用SDS-PAGE和Western Blot检测了目的蛋白.结果表明:将成功构建的p ET-32a-Os AAA1原核表达载体,转化到大肠杆菌Origami菌株后,在70~100 KD之间检测到可溶性目的蛋白带,并优化了诱导表达的较适温度、IPTG诱导浓度和诱导表达时间.故成功构建了p ET-32a-Os AAA1原核表达载体并获得了可溶性Os AAA1目的蛋白,为其后续研究奠定了基础.     

Studies on the overexpression of the soybean GmNHX1 in Lotus corniculatus： The reduced Na^＋ level is the basis of the increased salt tolerance

Soil salinity is one of the major factors reducing plant growth and productivity. The detrimental effects of salt on plants are a consequence of both a water deficit resulting in osmotic stress and the excess so- dium ions on critical biochemical processe…     

Introducing antisense <Emphasis Type="Italic">waxy</Emphasis> gene into rice seeds reduces grain amylose contents using a safe transgenic technique

Rice (Oryza sativa L.) eating quality is one of themost important traits. Amylose content (AC) in rice en-dosperm is a major index affecting rice eating quality[1,2].It has a negative correlation with gel consistency of rice[3].Based on amylose content, r…     

Constitutive activation of AtMEK5, a MAPK kinase, induces salicylic acidindependent cell death in Arabidopsis thaliana

In most circumstances, plants are able to defendthemselves against pathogen attack. The mechanisms ofplants resisting the invasion of pathogens often includeinduction of hypersensitive response (HR) cell death, theactivation of defense genes and the production of antim-icrobial phytoalexins[1—3]. Plant defense responses are ini-tiated either by the interaction between a plant resistance(R) gene and a pathogen avirulence (avr) gene or by thebinding of a non-race-specific elicitor to its recep…     

Salt tolerance conferred by over-expression ofOsNHX1 gene in Poplar 84K

OsNHX1 gene (Na⁺/H⁺ antiporter gene ofOryza sativa L.) was introduced into Poplar 84K withAgrobacterium tumefaciens- mediated transformation. PCR, Southern and Northern blot analysis showed thatOsNHX1 gene was incorporated successfully into the genome of Poplar 84K and expressed in these transgenic plants. Salt tolerance test showed that three lines of transgenic plants grew normally in the presence of 200 mmol/L NaCl, while the Na⁺ content in the leaves of the transgenic plants grown at 200 mmol/L NaCl was significantly higher than that in plants grown at 0 mmol/L NaCl. The osmotic potential in the transgenic plants with high salinity treatment was lower than that of control plants. Our results demonstrate the potential use of these transgenic plants for agricultural use in saline soils.     

转SOD基因烟草的光合特性初探

 以转基因Fe-SOD,Mn-SOD高表达、转基因Mn-SOD反义低表达烟草及非转基因品系为供试材料,比较CO₂光强对烟草光合作用和蒸腾作用的影响及不同叶位叶片的光合差异.在相同条件下,Mn-SOD高表达烟草CO₂补偿点最高(105μmol·mol^-1),Mn-SOD低表达烟草最低(78μmol·mol^-1),CO₂浓度对非转基因烟草蒸腾作用的影响比对其他三个转基因品系的影响要强.Mn-SOD低表达烟草的光补偿点最高(45μmol·m^-2·s^-1),而Mn-SOD高表达烟草最低(25μmol·m^-2·s^-1),并且强光对非转基因烟草的光合作用抑制大,转基因品系对强光具有较强的耐受力.同一叶位叶片,转基因烟草的光合速率、蒸腾速率更强.但转基因SOD高表达烟草在整体上并没有表现出明显的光合作用优势.     

Comparative expression analysis of three genes from the Arabidopsis vacuolar Na^＋/H^＋ antiporter （AtNHX） family in relation to abiotic stresses

Na~ /H~ antiporters (NHX) are ubiquitous transmembrane proteins that play a key role in salt tolerance of plants. In this study, the sequence of 3 Arabidopsis NHX gene (AtNHX2―4) were compared with other AtNHX members. Putative cis-elements analysis identified elements that have been associated with stress responses. The activities of the promoters AtNHX2―4 were studied in transgenic plants carrying corresponding promoter-β-glucuronidase (GUS) fusions. The AtNHX2 promoter-GUS analysis indicated that AtNHX2 was expressed in constitutive pattern with high GUS activity in roots and leaves. AtNHX2 promoter activity was not up-regulated by NaCl or abscisic acid (ABA), in contrast to the AtNHX1 promoter which was previously studied. The AtNHX3 and AtNHX4 promoters showed tissue-specific activities. Strong GUS activity was detected in roots and vascular bundles of the stele in plants carry-ing an AtNHX4 promoter-GUS fusion, and GUS activity increased under salt stress suggesting a func-tion related to salt tolerance. Transgenic plants carrying the AtNHX3 promoter-GUS fusion showed strong GUS activity in petals, stamens and tops of siliques, suggesting a possible role of AtNHX3 in flower and seed development. Results of histochemical analysis suggested that AtNHX2―4 are involved in divergent functions and are differentially regulated under abiotic stress. The structure of AtNHX4 was predicted to include 12 transmembrane regions and a NHX domain. Overexpression of AtNHX4 in Arabidopsis transgenic lines confers greater salt tolerance than in wild type plants. These results suggest that AtNHX4 may encode a putative vacuolar NHX that plays an important role in salt tolerance.     

Thermostability of subtilisin nattokinase obtained by site-directed mutagenesis

To study the thermostability of Nattokinase(subtilisin NAT,NK),three double mutant plasmids(pET-28a-NKG61C/S98C,pET-28a-NKT22C/S87C,pET-28a-NKS24C/S87C)were constructed by site-directed mutagenesis.Target enzymes were detected using SDS-PAGE and disulfide bond formation was detected using Western blotting analysis.Thermostability was tested by rates of inactivation at certain temperature.The results showed that disulfide bond was not formed within two cysteines and the thermostability of three double mutants was not increased compared with the wild-type NK.The thermostability of NK performed in Ca2+was stronger than in ethylenediaminetetraacetic acid(EDTA).But when the temperature reached 62℃,the enzymes rapidly denatured and inactivated even in the presence of Ca2+.Although the thermostability of mutants was not increased,this study shows a tendency of improving thermostability of NK in protein engineering.     

Subcellular localization and functional analyses of structural domains of COP1 in transgenic tobacco

Plants have evolved an extremely exquisite light signal regulatory network to adapt to the changing ambient light conditions, in which COP1 plays a critical role of the light signal transduction. Based on the cloned pea COP1 cDNA sequence and its protein structure, four individual gene fragments encoding different structural domains of the COP1 were designed to fuse to the GFP gene. The plant expression vectors containing these fusion genes as well as the COP1GFP fusion gene were constructed and used to transform tobacco by Agribacterium as confirmed by Southern analyses. Antibodies were raised against the recombinant GFP-COP1 overproduced in Escherichia coli. Immunoblotting results demonstrated that all of the fusion genes were constitutively expressed in transgenic tobacco plants. We systematically investigated the different subcellular localization of these fusion proteins and the resulting phenotypic characteristics of these transgenic plants under light and dark conditions. Our data show that (1) the molecular mass of the tobacco endogenous COP1 protein is 76 kD. It is constitutively expressed in all of the tested tissues and the total cellular content of COP1 protein is not noticeably affected by light conditions. (2) The nuclear localization signal of COP1 plays a critical role in regulation of its nuclear-cytoplasmic partitioning. The subcellular localization of the COP1 protein containing nuclear localization signal is regulated by light in the epidermal cells of leaves, but, it is located in nucleus constitutively in root cells. (3) The coiled-coil domain is very critical to the function of COP1 protein, while the zinc binding RING finger domain only plays a supportive role. (4) The WD-40 repeats domain is essential to the COP1 function, but this domain alone does not affect photomorphogenesis. (5) Overexpression of COP1 protein not only inhibits the photomorphogenesis of the stems and leaves of the transgenic tobacco, but also results in the generation of short and clustered roots. In contrast, overexpression of COP1 protein without WD-40 repeats domain promotes the photomorphogenesis process in the stems and leaves and lead to root elongation and lack of lateral roots. The COP1-COP1 interaction happens not only in the nucleus, but also in cytoplasm.     

Effects of alloxan-induced diabetes on the expression of insulin signal transmission molecules

The mRNA of insulin receptor (IR), the insulin receptor substrates (IRSs), glucose transporter 2 (GLUT2) and glucokinase (GK) in alloxan-induced diabetic rat livers were amplified by RT-PCR. The protein of the insulin receptor in rat livers was determined by western-blotting. The results show that IR expression level decreased at the level of mRNA and protein. The gene expressions of IRSs, GLUT2 and GK changed significantly. The hepatic glycogen content in alloxan-diabetic rats treated with insulin ((13.2 ± 0.4) mg · g⁻¹) did not restore to normal level ((17.0 ± 0.4) mg · g⁻¹) by means of anthrone-H₂SO₄ methods. The results imply that insulin resistance is developed during inchoate phase of alloxan-induced diabetic rats.     

Production of human lysozyme-transgenic cloned porcine embryos by somatic nuclear transfer

Due to their physiology and organ size, pigs have significant potential as human disease models and as organ transplantation donors. Genetic modification of pigs could provide benefits for both agriculture and human medicine. In this study, five fetal pig fibroblast cell lines from two species (Wuzhishan and Landrace pigs) were transfected using double-marked human lysozyme (HLY) plasmids (pBC1-HLY-GFP-NEO) by a liposome-mediated method. The ratio of green fluorescent protein (GFP)-expressing cells was >95% in sw7, sw8, slw3 and slw6 cell lines, but only 49.3% in slw9 cells. Cells from the four highly transgenic lines were used as nuclear donors to construct embryos, which were then cultured after fusion and activation by electric stimulation. The rate of cleavage was 76.7%, 48 h after activation. After 7 days, 18.5% of cleaved eggs had developed to the blastocyst stage and 93.3% of blastocysts were GFP-positive. These results indicate that transgenic fetal pig fibroblast cell lines could be obtained by a liposome-mediated method, though the transfection efficiency varied between cell lines. Reconstructed embryos derived from transgenic cells could successfully develop into blastocysts, most of which were GFP-positive.     

Overexpression of phospholipase <Emphasis Type="Italic">D</Emphasis>α gene enhances drought and salt tolerance of <Emphasis Type="Italic">Populus tomentosa</Emphasis>

The cDNA of AtPLDa （Arabidopsis thaliana Phospholipase Da） gene was introduced into P. tomentosa （Populus tomentosa） under the control of the Cauliflower mosaic virus 35S promoter. Southern and Northern blot analyses suggested that the AtPLDa gene has been transferred into the P. tomentosa genome. No obvious morphological or developmental difference was observed between the transgenic and wild-type （WT） plants. Drought and salt tolerance and gene expression of seedlings of several transgenic lines and WT plants （control） were studied. The results showed that the rhizogenesis rate and the average root-length of transgenic lines were significantly higher than WT plants after mannitol and NaCI treatment under the same growth conditions. Northern blot analysis indicated that the higher the PLDa expression in the transgenic plants, the more tolerant the transgenic plants are to drought and salt treatment. Meanwhile, another group of these transgenic lines and WT plants （control） were treated with PEG6000 and NaCI separately. The contents of chlorophylls and the activities of some anti- oxidant enzymes （superoxide dismutase, guaiacol peroxidase and catalase） as well as malondialdehyde and relative electrical conductivity were analyzed. Altogether, our results demonstrated that overexpression of the PLDa gene can enhance the drought and salt tolerance in transgenic P. tomentosa plants.     

Transformation of japonica rice with<Emphasis Type="Italic">RHL</Emphasis> gene and salt tolerance of the transgenic rice plant

Overexpression of the yeastHAL2 gene increases salt tolerance of yeast and plant. RiceHAL2-like (RHL) gene was introduced into ajaponica rice cultivar HJ19 withAgrobacterium tumefaciens-mediated transformation. Transgenic plants in R₀ generation were selected on the principle of GUS-positive,RHL gene PCR-positive and normal growth. Hygromycin-resistant plants of some transgenic lines in R₁ generation increased salt tolerance during the seedling and booting stage, being less damaged in the cytomembrane and stronger in leaf tissue viability under salt stress during booting period. Southern analysis of transgenic lines tolerant to salt in R₁ generation showed that theRHL gene expression cassette had been successfully integrated into rice genome. Moreover, gene engineering breeding methodology and really salt-tolerant rice cultivar were discussed.     

Overexpression of rice OsLOL2 gene confers disease resistance in tobacco to Pseudomonas syringae pv. Tabaci

LSD1-related proteins of Arabidopsis with LSDl-like zinc finger domains regulate disease resistance and programmed cell death （PCD）. We cloned a rice OsLOL2 gene, orthologous to LSD1 of Arabidopsis and expressed it in a tobacco plant. Transgenic tobacco lines displayed enhanced disease resistance to a virulent bacterium Pseudomonas syringae pv. tabaci （Pst）. RT-PCR analysis showed that overexpression of OsLOL2 in transgenic tobacco lines resulted in upregulation of two pathogenesis-related （PR） protein genes, PR2 and PR5. Our results suggest that overexpression of OsLOL2 in transgenic tobacco enhances the resistance through the induction of PR proteins and hypersensitive response-like reaction.     

The presence of phosphorylation form of D1 protein in its cross-linked aggregates in high light treated spinach leaves in vivo

Photosystem Ⅱ (PS Ⅱ ) is a pigment-protein com-plex that catalyses the primary photochemistry leading to oxygen evolution and electron flow in oxygenic phototrophs. The reaction center of PSⅡ is composed of the D1 and D2 proteins to which all the redox…     

Rice transformation with a senescence-inhibition chimeric gene

A senescence-inhibition chimeric gene containing the specific promoter of SAG₁₂ and IPT gene was transferred into rice with the biolistic method. Results of PCR, Dot blotting and Southern blotting indicated that the chimeric gene had been integrated into rice genome. Analyses of GUS activity and cytokinin content in transgenic plants of rice and the observation of T₁ generation plant at grain formation stage indicated that the foreign gene was expressed.     

Measurement of the absorption spectrum of H2O+ in the visible region

Together with the 74 lines belonging to (0,9,0)- (0,0,0) band, the high-resolution absorption spectrum of H₂O⁺ A²A₁-X²B₁ system was observed in the visible region of 16680 — 17300 cm^-1 using optical heterodyne magnetic rotation enhanced velocity modulation spectroscopy for the first time, which verifies the high sensitivity and high signal to noise ratio (S/N) of this technique.     

Characterization of an endo-1,4-β-glucanase from Lilium longiflorum that functioned in pollen germination and pollen tube growth

Endo-β-glucanases play vital roles in the regulation of pollen tube growth. Here, a previously identified endo-l,4-β-glucanase from Lilium Iongiflorum （lily）, named LlpCell, was expressed in Escherichia coli, purified, and further investigated for its physiological function. The recombinant LlpCell protein hydrolyzed carboxy-methylcellulose （CMC） and exhibited activity towards laminarin from Eisenia. arborea and 1,3：l,4-β-glucan of barley. The pH for the optimum activity was 6.0 and the value of Km calculated from CMC was 5.0 mg/mL. Adding EDTA resulted in the total loss of the enzymatic activity, and this effect could be restored by the addition of Ca^2＋. Western blotting analysis showed that LlpCell protein was present in pollen grains and rehydrated pollen grains, and the amount of the protein was increased during pollen germinating, but not in the pollen tube. Consistently, the immunofluorescence labeling study with the antibody against LIpCell also indicated the presence of LIpCell at the begin-ning of germination, but not in the elongating pollen tube. Furthermore, incubation of LlpCell with pollen at the beginning of pollen germination increased the germination percentage and the length of pollen tube. All of these results suggested that LlpCell could play an important role in the regulation of lily pollen germination and the initiation of pollen tube growth.