Isolation of a strong matrix attachment region (MAR) and identification of its function in vitro and in vivo

Inclusion of MARs in transgene cassettes enhances their expression and reduces position-effect variations in the transgenic host. Four new MARs (TM2, TM3, AM1 and AM2) were isolated from tobacco and Arabidopsis by PCR method. The nuclei isolated from suspension- cultured cells of rice were used to prepare nuclear matrix. With a characterized MAR (TM1) as a positive control, the Matrix-MAR interactions were tested by an in vitro binding assay to identify the DNA sequences as MARs and their binding strength to nuclear matrix in vitro was compared. The results showed that TM2 and TM3 had stronger binding strength than TM1. To determine the functions of the four new MARs in vivo, binary vectors pBI121 carrying a uidA GUS reporter gene were modified with direct repeat MARs inserted on both sides of the reporter gene cassette and were transferred into tobaccos via Agrobacterium-mediated transformation procedure. Quantitative GUS assays of the transgenic tobaccos showed that when flanking a GUS reporter gene TM1, TM2, TM3 and AM1 increased uidA GUS gene expression level approximately 1.5-fold, 5-fold, 1.35-fold, 1.3-fold respectively and AM2 has no effect on gene expression. TM2 was found to be a strong MAR that could effectively increase gene expression level and could be used as an effective enhancing element to construct high efficient expression vectors. In this note the relations among the sequence features, binding strength in vitro and function in vivo of the five MARs were analyzed, and the potential significance of TM2 in plant genetic engineering was dis- cussed.     

健康与患黑胫病烟株根内AMF多样性和群落结构差异分析

丛枝菌根真菌（arbuscular mycorrhizal fungi,AMF）在烟草生长生理、抗病抗逆等方面具有积极作用.为探明烟株患黑胫病后对根内AMF多样性和群落结构的影响,分别以烟草K326和云烟87健康、感染黑胫病烟株的根部及根际土壤作为研究对象,应用Illumina Miseq高通量测序技术探明烟草根部AMF多样性,采用显微形态观察烟草根内AMF侵染水平和根际土壤孢子密度,并分析土壤理化性质和AMF侵染特征的相关性.高通量测序结果表明在烟草根部共检测出1 655个AMF-OTUs,隶属于1纲4目5科6属,其中,Glomus为云烟87健康烟株根内AMF的优势属,其余样品优势属均为Paraglomus.聚类分析表明两个品种健康烟株根内AMF群落相似性较高,患病植株间根内AMF群落比较类似.侵染结果显示,患病烟株AMF侵染状况与土壤孢子密度均低于健康烟株根际土壤. RDA分析结果表明,全钾是影响AMF孢子密度和侵染状况的主要驱动因子,其次为速效磷和全磷;土壤p H值为烟株根内AMF多样性的主要影响因素,且两者呈负相关;此外,土壤中钾含量对烟草根内AMF群落组成的影响最为明显.研究...     

Obtaining High Pest-resistant Tobacco Plants Carrying B.t. insecticidal Gene

To increase the expression level of CryIA(c) gene in transgenic plants, a plant expression vector pBinMoBc carrying the CryIA(c) gene under control of chimeric OM promoter and Ω factor was constructed. As a control, pBinoBc carrying the CryIA(c) gene with the CaMV 35S promoter was also constructed. The vectors were transferred into tobacco plants respectively via Agrobacterium-mediated transformation. ELISA assay showed that the expression level of the CryIA(c) gene in pBinMoBc transgenic tobacco plants was 2.44-times that in pBinoBc transgenic tobacco plants, and it could be up to 0.255% of total soluble proteins. Bioassay showed that pBinMoBc transgenic tobacco plants had more notable insecticidal effect than pBinoBc transgenic tobacco plants. The above results showed that the chimeric OM promoter was a stronger promoter than CaMV 35S promoter that was widely used in plant genetic engineering, and this is very useful in pest-resistant plant genetic engineering.     

Transgenic tobacco plants expressing synthetic Cry1Ac and Cry1Ie genes are more toxic to cotton bollworm than those containing one gene

Transgenic tobacco plants carrying Cry1Ac, Cry1Ie or both genes were obtained. In the leaves of transgenic plants carrying both genes, the contents of Cry1Ac and Cry1Ie proteins were 0.173% and 0.131% of the total proteins, respectively. Cry1Ac protein content was 0.182% and Cry1Ie protein con- tent was 0.124% of the total proteins in the leaves of transgenic plants containing only one Bt gene. Fresh leaves of transgenic tobacco and wild-type plants were used for the insect bioassay against wild-type and Cry1Ac-resistant cotton bollworm (Helicoverpa armigera). The bioassay results showed that transgenic plants carrying both genes were significantly more toxic to wild-type and Cry1Ac-resistant cotton bollworm than those carrying Cry1Ac or Cry1Ie alone. This study indicates that the higher toxicity of transgenic tobacco plants carrying both genes is caused by the cooperative function of both Bt proteins, thus providing a potential way to delay the development of insect resis- tance to transgenic crops.     

Isolation of a strong matrix attachment region (MAR) and identification of its function in vitro and in vivo

Inclusion of MARs in transgene cassettes enhances their expression and reduces position-effect variations in the transgenic host. Four new MARs (TM2, TM3, AM1 and AM2) were isolated from tobacco and Arabidopsis by PCR method. The nuclei isolated from suspensioncultured cells of rice were used to prepare nuclear matrix. With a characterized MAR (TM1) as a positive control, the Matrix-MAR interactions were tested by an in vitro binding assay to identify the DNA sequences as MARs and their binding strength to nuclear matrix in vitro was compared. The results showed that TM2 and TM3 had stronger binding strength than TM1. To determine the functions of the four new MARs in vivo, binary vectors pBI121 carrying a uidA GUS reporter gene were modified with direct repeat MARs inserted on both sides of the reporter gene cassette and were transferred into tobaccos via Agrobacterium-mediated transformation procedure. Quantitative GUS assays of the transgenic tobaccos showed that when flanking a GUS reporter gene TM1, TM2, TM3 and AM1 increased uidA GUS gene expression level approximately 1.5-fold, 5-fold, 1.35-fold, 1.3-fold respectively and AM2 has no effect on gene expression. TM2 was found to be a strong MAR that could effectively increase gene expression level and could be used as an effective enhancing element to construct high efficient expression vectors. In this note the relations among the sequence features, binding strength in vitro and function in vivo of the five MARs were analyzed, and the potential significance of TM2 in plant genetic engineering was discussed.     

线粒体定位序列介导的绿色荧光蛋白基因在烟草中表达的分析

由于绿色荧光蛋白可在活组织或细胞中直接检出 ,因而近年已在转基因植物的研究中用作报告基因 ,这样可在植物生长的任何阶段进行活体筛选和鉴定。本研究利用线粒体定位序列对改良 gfp基因在转基因烟草中的表达进行了观察 ,结果表明 :将GFP直接在细胞质中大量表达会对植物细胞产生毒性 ,从而影响植物细胞的分化 ,而将其定位在线粒体中 ,则从转化细胞产生植株的频率明显增高。     

Sequence modification of merB gene and high organo-mercurial resistance of transgenic tobacco plants

Mercury pollution has caused severe damage to environment and great attention has been paid to its control. Phytoremediation may become one of the most efficient measures to recover the polluted soil since it is economical, highly efficient and friendly to environment. In this report, plant genetic engineering methods were employed to modify the DNA sequence of merB genes that catalyze the conversion of organomercurals into ionic mercury. The modified merBhe genes were introduced into tobacco by Agrobacterium, and the resultant transgenic plants were verified by Southern and Northern hybridization. High level of organomercurial resistance was detected on progenies of transgenic plants, some of which were resistant to PMA (phenyl mercury acetate) of 2.5 ?mol/L whereas 0.1 ?mol/L PMA killed the seedlings of wild-type tobacco in soiless culrure. With the increase of PMA concentration, the inhibition of the seedling growth became apparent. This result makes it possible to breed mercury-resistant tobacco for phytoremediation of mercury-polluted soil.     

Transgenic tobacco plants expressing synthetic Cry1Ac and Cry1Ie genes are more toxic to cotton bollworm than those containing one gene

Transgenic tobacco plants carrying CrylAc, Crylle or both genes were obtained. In the leaves of transgenic plants carrying both genes, the contents of CrylAc and Crylle proteins were 0.173% and 0.131% of the total proteins, respectively. CrylAc protein content was 0.182 % and Cry1 le protein content was 0.124% of the total proteins in the leaves of transgenic plants containing only one Bt gene. Fresh leaves of transgenic tobacco and wild-type plants were used for the insect bioassay against wild-type and Cry1Ac-resistant cotton bollworm （Helicoverpa armigera）. The bioassay results showed that transgenic plants carrying both genes were significantly more toxic to wild-type and CrylAc-resistant cotton bollworm than those carrying CrylAc or Crylle alone. This study indicates that the higher toxicity of transgenic tobacco plants carrying both genes is caused by the cooperative function of both Bt proteins, thus providing a potential way to delay the development of insect resistance to transgenic crops.     

Sequence modification of merB gene and high organomercurial resistance of transgenic tobacco plants

Mercury pollution has caused severe damage to environment and great attention has been paid to its control. Phytoremediation may become one of the most efficient measures to recover the polluted soil since it is economical, highly efficient and friendly to environment. In this report, plant genetic engineering methods were employed to modify the DNA sequence of merB genes that catalyze the conversion of organomercurals into ionic mercury. The modified merBhe genes were introduced into tobacco by Agrobacterium, and the resultant transgenic plants were verified by Southern and Northern hybridization. High level of organomercurial resistance was detected on progenies of transgenic plants, some of which were resistant to PMA (phenyl mercury acetate) of 2.5 μmol/L whereas 0.1 μmol/L PMA killed the seedlings of wild-type tobacco in soiless culrure. With the increase of PMA concentration, the inhibition of the seedling growth became apparent. This result makes it possible to breed mercury-resistant tobacco for phytoremediation of mercury-polluted soil.     

Co-transformation to tobacco of Cre/lox site-specific recombination system and its precise recombination

For the temporally and spatially regulated expression of the barnase gene in plant,two kinds of plasmids with cre gene and its directly repeat recognition sites lox from bacteriophage P1 were constructed and co-transformed into tobacco by agrobacterium mediated procedure.The transgenic plants were conformed by PCR analysis.The blocking fragment between the two lox directly repeat sites was excised by Cre protein in the transgenic plant genome.Cloning and sequencing the DNA fragment from the co-transformed plant DNA showed that the precise DNA excision occurred in transgenic tobacco genome directed by Cre/lox site-specific recombination.     

转几丁质酶基因烟草对三种真菌拮抗作用的研究

几丁质酶广泛存在于高等植物体内,它可以分解真菌细胞壁中的几丁质,破坏其细胞结构,从而获得对真菌的抗性.试验以转苦瓜几丁质酶基因烟草(T-Chit)为供试植物,测定植株根系和叶片内几丁质酶活性,选取了3种具有代表性的真菌:毛霉、木霉、禾谷镰刀霉,通过抑菌试验验证了T-Chit组织萃取液对真菌的抗性.结果表明:1)T-Chit几丁质酶活性显著高于非转基因烟草(Nt-X),且转基因烟草根系几丁质酶活性比叶片高86%;2)T-Chit组织萃取液对毛霉生长具有明显抑制作用,根系强于叶片;3)T-Chit对木霉和禾谷镰刀霉的抑制具有时空效应:抑菌效果与植株部位及作用时间有关.     

Transgenic tobacco plants harboring tomato proteinase inhibitor II gene and their insect resistance

The plant expression vectors pBCT2 and pBT2 were constructed with the cDNA sequence (tin2) and genomic DNA sequence (tin2i) of tomato proteinase inhibitor II gene respectively. Then the two expression vectors were transferred into tobacco via the Agrobacterium tumefaciens strain LBA4404, and transgenic tobacco plants were generated. Molecular analysis and trypsin activity assay showed that both cDNA and genomic DNA were expressed properly in the transgenic plants. Insecticidal activities in these transgenic plants indicated that transgenic tobacco plants carrying tin2i sequence were more resistant to 2-instar larvae of Heliothis armigera Hubner than those carrying tin2 sequence. Therefore the intron of tin2i sequence might be a contributor to insecticidal activity of the transgenic tobacco.     

Co-transformation to tobacco of Cre/lox site-specific recombination system and its precise recombination

For the temporally and spatially regulated expression of the barnase gene in plant, two kinds of plasmids with cre gene and its directly repeat recognition sitesiox from bacteriophage P1 were constructed and co-transformed into tobacco by agrobacterium mediated procedure. The transgenic plants were conformed by PCR analysis. The blocking fragment between the twolox directly repeat sites was excised by Cre protein in the transgenic plant genome. Cloning and sequencing the DNA fragment from the co-transformed plant DNA showed that the precise DNA excision occurred in transgenic tobacco genome directed by Cre/lox site-specific recombination.     

Expression of two insect-resistant genes crylA ( b&c )/GNA in transgenic tobacco plants results in added protection against both cotton bollworm and aphids

The synthesized Bacillus thuringiensis insecticidal protein gene crylA(b&c) and the synthesized gene GNA, (the mannose specific lectin from snowdrop ( Galanthus nivalis)), tumefaciens have been inserted into plant expression vector pGW4BAI. Leave stripes of Nico-tiana tabacum var. K326 have been transformed with Agrobacterium tumefaciens strain LBA4404 harboring the plant expression vector. 28 kanamycin resistant tobacco plants have been obtained. PCR and Southern blot analyses show that the foreign crylA and GNA genes have been inserted into the genome of transformed tobacco plants. Haemagglutination assays show that GNA has a functional activity. Leaf disc bioassays against cotton bollworm ( H. armigera) show that the transgenic tobacco plants have a high insecticidal activity. The inhibition of aphid population in leaf disc bioassays against Myzus persicae shows that the fecundity of aphid on transgenic plants is lower than that on untransformed plants; the aphid population on the transgenic tobacco plants is 25%-70% that on untransformed tobacco plants. ELISA analysis of CrylA protein in tobcco leaves provides similar data to bioassay results. Through the two bioassays against H. armigera and M. persicae, several transgenic tobacco plants showing high insect-resistant activities to both pests have been obtained.     

植酸酶基因表达与调控机制研究(Ⅰ)——发芽过程中植酸酶动态与贮藏态磷动员

分析了玉米和番茄种子发芽过程中植酸酶活性的动态变化与无机磷酸释放量的关系．结果表明,植酸酶活性变化与贮藏态磷释放量密切正相关,这种贮藏态营养的再动员对种子萌发和幼苗生长具有重要意义．     

Cloning and functional analysis of chloroplast division gene NtFtsZ2-l in Nicotiana tabacum

FtsZ protein plays an important role in the division of chloroplasts. With the finding and functional analysis of higher plant FtsZ proteins, people have deepened the understanding in the molecular mechanism of chloroplast division. Multiple ftsZ genes are diversified into two families in higher plants, ftsZ1 and ftsZ2 . On the basis of the research on ftsZl family, we analyzed the function of NtFtsZ2-l gene in Nicotiana tabacum . Microscopic analysis of the sense and antisense NtFtsZ2-l transgenic tobacco plants revealed that the chloroplasts were abnormal in size and also in number when compared with wild-type tobacco chloroplasts. Our investigations confirmed that the NtFtsZ2-l gene is involved in plant chloroplast division.     

Influence of DNA methylation on transgene expression

DNA methylation plays an important role in gene expression in eukaryote. But DNA methylation of transgene usually leads to target gene silencing in plant genetic engineering. In this research, reporter gene b-glu- curonidase (GUS) gene ( uidA ) was introduced into tobaccos via Agrobacterium-mediated transformation method, and the foreign uidA gene became inactive in some transgenic tobaccos. No mRNA of uidA was detected in these plants by Northern blotting analysis, and DNA methylation of promoter region was found. The results indicated that gene silencing might be caused by DNA methylation of promoter.     

Molecular characterization of GmNHX2, a Na＋/H＋ antiporter gene homolog from soybean,and its heterolosous expression to improve salt tolerance in Arabidopsis

Na＋/H＋ antiporters have been well documented to enhance plant salt tolerance by regulating cellular ion homeostasis. Here, a putative Na＋/H＋ antiporter gene homolog GmNHX2 from soybean was cloned and predicted to encode a protein of 534 amino acids with 10 putative transmembrane domains. GmNHX2 was expressed in all soybean plant tissues but enriched in roots and its expression was induced by NaCI and polyethylene glycol （PEG） treatments. GmNHX2 exhibits greater sequence similarity with LeNHX2 and AtNHX6 than that of AtNHX1 and AtSOS1. Although phylogenetic analysis clustered GmNHX2 with organellar （tonoplast and vesicles） antiporters, the GmNHX2-EGFP （enhanced green fluorescent protein） fusion protein was possibly localized in the plasma membrane or organelle membrane of transgenic plant cells, Furthermore, transgenic Arabidopsis plants expressing GmNHX2 were more tolerant to high NaCl concentrations during germination and seedling stages when compared with wild-type plants. These results suggest that GmNHX2 is a membrane Na＋/H＋ antiporter and may function to regulate ion homeostasis under salt stress.