Characterization of two Azospirillum brasilense Sp7 plasmid genes homologous to Rhizobium meliloti nodPQ

Bacteria belonging to the Azospirillum genus are nitrogen fixers that colonize the roots of grasses, but do not cause the formation of differentiated structures. Sequences from total DNA of several Azospirillum strains are homologous to restriction fragments containing Rhizobium meliloti nodulation genes. A 10-kilobase (kb) EcoRI fragment from A. brasilense Sp7, sharing homology with a 6.8-kb EcoRI fragment carrying nodGEFH and part of nodP of R. meliloti 41, was cloned in pUC18 to yield pAB502. The nucleotide sequence of a 3.5-kb EcoRI-SmaI fragment of the pAB502 insert revealed 60% homology with R. meliloti nodP and nodQ genes. The nodP gene product shares no homology to any known protein sequence. The Azospirillum nodQ gene product shares homology with a family of initiation and elongation factors as does the R. meliloti nodQ gene product. Since the nodQ gene overlaps the nodP gene, the two genes might be cotranscribed. Azospirillum contains large plasmids, and the nodPQ genes were found on the 90-MDa plasmid (p90). A translational nodP-lacZ fusion was constructed in the broad host range plasmid pGD926. No beta-galactosidase activity was detected in Escherichia coli, but the fusion was functional in Azospirillum and constitutively expressed. Deletions and mutations of nodPQ did not modify growth, nitrogen fixation, or interaction with wheat seedlings.     

Tec家族蛋白酪氨酸激酶Itk PH结构域与OS-9蛋白的相互作用

用酵母双杂交技术筛选与ItkPH结构域相互作用的蛋白分子 ,以了解Itk的功能及其在T细胞信号转导中的位置与作用 .Itk的PH结构域扩增后克隆入酵母双杂交系统的pLexA载体 ,转化酵母细胞EGY4 8(p8op lacZ) ,经检测PH结构域无自激活作用 ,且对酵母细胞无毒性作用 .用PH结构域作为“钓饵”蛋白 ,在酵母双杂交系统中筛选构建于AD载体的T细胞cDNA文库 .将PH结构域及筛库所得基因片段分别进行融合表达 ,用于体外结合实验 ,进一步证实二者的相互作用 .经营养缺陷选择、诱导筛选和鉴定确证 ,筛库所得的插段约 15 0 0bp的文库质粒为一真阳性克隆 .经blast比较分析为骨肉瘤、横纹肌肉瘤等肿瘤组织中高表达的os 9基因 .体外结合实验也表明 ,ItkPH结构域可与该基因表达产物结合 .Itk的PH结构域可与OS 9蛋白相互作用 .二者结合的意义有待进一步研究     

痢疾志贺氏Ⅰ型菌毒素基因的克隆与表达

The chromosomal DNA of S. dysenteriae type I W30864 was isolated and digested by EcoRI. The 3-7 kb DNA fragments were recovered and ligated with vector pUC-19. After transformation, the recombinants were screened by SLT gene probe. The positive clones were obtained. The cloned EcoRI fragment containing both ST-A and ST-B subunit gene was about 4.5 kb. The cloned ST strain was also detected by Hela-S3 cell for cytotoxicity, and detected by rabbit ileal loop test for enterotoxicity. Besides, the cloned strain showed the neurotoxic activity when experimented with mouse. The production of shiga toxin in the cloned strain was 16 times of that of its parent strain S. dysenteriae W30864. The production differences between ST producing stains and SLT producing strain was also tested in our experiment.     

Genetic analysis and regulation of the Rhizobium meliloti genes controlling C4-dicarboxylic acid transport

The genes controlling the transport of C4-dicarboxylic acids from Rhizobium meliloti have been cloned and analysed. The nucleotide sequence of the control region of the structural dctA and the regulatory dctBD genes has been determined. Comparison with the Rhizobium leguminosarum dct genes revealed a high degree of homology. Gene fusions to the enteric lacZY reporter gene were constructed and the expression of the dctA and dctBD genes studied under various physiological conditions. In free-living cells, the regulatory dctBD genes are absolutely required for the expression of the dctA gene. In the root nodule environment, a dctA::lacZY gene fusion was found to be expressed in an R. meliloti strain mutated in both the dctB and dctD genes, but not in a strain mutated in the dctB gene alone. The presence of the conserved upstream NifA-binding sites on the dctA promoter sequence, coupled with the fact that the dctA::lacZY gene fusion is not expressed in root nodules formed by a nifA mutant strain of R. meliloti, supports the suggestion that NifA may be involved in the symbiotic expression of dctA in the absence of the regulatory dctBD genes. Under micro-aerobic conditions, however, NifA induction alone is not sufficient for expression of the dctA promoter, even though the NifA-dependent nifHDK promoter is highly expressed under these conditions.     

oriT-directed cloning of defined large regions from bacterial genomes: identification of the Sinorhizobium meliloti pExo megaplasmid replicator region

We have developed a procedure to directly clone large fragments from the genome of the soil bacterium Sinorhizobium meliloti. Specific regions to be cloned are first flanked by parallel copies of an origin of transfer (oriT) together with a plasmid replication origin capable of replicating large clones in Escherichia coli but not in the target organism. Supplying transfer genes in trans specifically transfers the oriT-flanked region, and in this process, site-specific recombination at the oriT sites results in a plasmid carrying the flanked region of interest that can replicate in E. coli from the inserted origin of replication (in this case, the F origin carried on a BAC cloning vector). We have used this procedure with the oriT of the plasmid RK2 to clone contiguous fragments of 50, 60, 115, 140, 240, and 200 kb from the S. meliloti pExo megaplasmid. Analysis of the 60-kb fragment allowed us to identify a 9-kb region capable of autonomous replication in the bacterium Agrobacterium tumefaciens. The nucleotide sequence of this fragment revealed a replicator region including homologs of the repA, repB, and repC genes from other Rhizobiaceae, which encode proteins involved in replication and segregation of plasmids in many organisms.     

Gene fusion vehicles for the analysis of gene expression in Rhizobium meliloti.

A set of plasmid cloning vehicles was developed to facilitate the construction of gene or operon fusions in Rhizobium meliloti. The vehicles also contain a broad-host-range replicon and could be introduced into bacteria either by transformation or by transduction, using bacteriophage P2. Insertion of foreign DNA into a unique restriction endonuclease cleavage site promotes the synthesis of either the Escherichia coli lactose operon or the kanamycin phosphotransferase gene from transposon Tn5. Expression of the lactose operon could be detected by observing the color of Rhizobium colonies on medium that contained a chromogenic indicator. We also determined the growth conditions that make it possible to select either for or against the expression of the E. coli lactose operon in R. meliloti. Recombinant plasmids were constructed by inserting MboI restriction fragments of R. meliloti DNA into one of the vehicles, pMK353 . Expression of beta-galactosidase by a number of these recombinants was measured in both R. meliloti and E. coli.     

以gfp为报告基因的肺炎链球菌启动子诱捕文库的构建与分析

首先构建一个以gfp(green fluorescence protein)为报告基因的自杀质粒pEVP3-SDGFP,将肺炎链球菌基因组DNA的随机酶切片段(200bp～800 bp)克隆到该质粒gfp基因上游的多克隆位点,得到约58000个含有肺炎链球茵基因组DNA随机酶切片段的重组子,提取质粒即为质粒库,该库大约覆盖肺炎链球菌基因组全长的5倍,插入率达到90%以上,且有较强的随机性,质量较高.将该质粒库转化入肺炎链球菌TIGR4菌株,带有随机片段的报告质粒通过同源重组的方式将gfp基因融合于细菌染色体上该随机片段之后,利用质粒的抗生素抗性基因筛选出重组菌株,从而构建出相应的菌株库,共获得包含约500000个肺炎链球菌转化子的菌株库,经体内、外实验表明,其包含插入了S.pn体内、外表达基因片段的细菌,可以报告特定条件下的基因表达,并可通过流式细胞仪识别、分选.该文库的构建为进一步利用差异荧光诱导技术筛选肺炎链球菌体内诱导基因奠定了基础.     

ndvF, a novel locus located on megaplasmid pRmeSU47b (pEXO) of Rhizobium meliloti, is required for normal nodule development.

Rhizobium meliloti strains carrying either of two overlapping deletions (delta 5408 and delta F114) of the megaplasmid pRmeSU47b form nodules on alfalfa which fail to fix N2 (Fix-). Strains carrying these deletions also fail to fluoresce on media containing calcofluor, indicating a defect in synthesis of the acidic exopolysaccharide (Exo-) of R. meliloti. We have isolated cosmid clones (pTH21 and pTH22) which complement the Fix- but not the Exo- phenotype of the strains carrying the delta 5408 and delta F114 deletions. In addition, cosmid clones which complement the Exo- phenotype fail to complement the Fix- phenotype of these deletions; thus, the Exo- phenotype is not related to the Fix- phenotype. A 5-kb region within a 7.3-kb BamHI restriction fragment was found to be required for complementation of the Fix- phenotype of the delta 5408 and delta F114 deletion strains. Tn5 insertions in the 5-kb region generated a Fix- phenotype when recombined into the wild-type genome. We have designated this locus ndvF, for nodule development. TnphoA mutagenesis of this region generated active alkaline-phosphatase gene fusions, indicating that ndvF encodes extracytoplasmic protein(s). Induction of nodules by the ndvF mutants was delayed by 2 to 3 days compared with induction by the wild-type strain. Light microscopy of nodules elicited by strains carrying the large 150-kb delta F114 deletion, a 12-kb deletion removing ndvF, or an individual ndvF::Tn5 insertion mutation demonstrated that many nodules contained few infected cortical cells, indicating that nodule development was blocked early in the infection process, before the release of bacteria from the infection threads.     

小鼠MPI基因的打靶载体的构建和筛选

目的　构建小鼠MPI基因的基因打靶载体转染ES细胞 ,构建用于同源重组筛选的对照载体。方法根据计算机分析小鼠MPI基因的基因组序列 ,构建用于同源重组载体的长臂和短臂并且转染小鼠ES细胞 ,经抗性筛选后得到阳性克隆 ,抽提基因组DNA后用PCR的方法进行重组子的初步筛选。结果　成功构建了MPI基因的基因打靶载体并且摸索了用PCR的方法进行重组细胞初步筛选的方法。结论　这个载体的构建为MPI基因功能的研究打下了基础 ,同时用PCR方法进行初步筛选大大减少了Southern杂交的工作量 ;利用实验小鼠来研究印迹基因是非常有效的方法 ,它不仅能了解印迹基因在小鼠生长发育过程中的功能 ,而且进而有助于研究人的相应印迹区。     

Cloning and analysis of structural and regulatory pectate lyase genes of Erwinia chrysanthemi ENA49

Erwinia chrysanthemi ENA49 structural and regulatory ptl genes, coding for pectate lyase (Ptl) were cloned in Escherichia coli cells. Phage vector lambda L47.1 and phasmid vector lambda pMYF131 were used for constructing libraries of BamHI and EcoRI fragments, respectively, of Er. chrysanthemi chromosomal DNA. Among the 1,100 hybrid clones containing BamHI Er. chrysanthemi DNA fragments and 11,000 hybrid clones containing EcoRI fragments, six and 45 clones, respectively, were identified as having pectolytic activity. Two different structural genes, designated ptlA and ptlB, have been subcloned on multi-copy plasmids. Genes ptlA and ptlB are located side by side on the chromosome of Er. chrysanthemi and transcribe in the same direction. Each of the genes has its own promoter. Southern-blot hybridization analysis showed that the cloned ptl genes shared practically no homology and each of the genes was represented by a single copy on the Er. chrysanthemi chromosome. Other ptl genes capable of expression in E. coli cells were not found in the gene libraries. Negative regulation of the ptlA gene expression by a cloned gene called ptlR was shown. To screen the gene library for the ptlR gene, a specific genetic system was devised. The genes studied are located within an EcoRI chromosomal DNA fragment of 7.3 kb in the order: ptlA-ptlB-ptlR.     

Simple method of cloning eukaryote DNA: production of certain new ribosomal genes of Drosophila

We propose a simple method which allows to receive a collection of clones containing recombinant plasmids. It is based on the ligation of the longer fragment of pBR332 formed by EcoRI and BamH1 with eukaryotic DNA (from Drosophila melanogaster embryo in this case) partially cleaved with EcoRI and BamHI. This approach gave us 10(4) colonies from 1 microgram of Drosophila DNA and 0.1 microgram of the BamHI--EcoRI "vector". About 0.5% of all clones carried the fragments of ribosomal genes with insertions in the 26S gene. Ribosomal genes lacking insertions did not enter the collection due to some peculiarities in their restriction map. The sites of cleavage are mapped in eight recombinant plasmide for HindIII, BamHI and EcoRI. These maps show that some insertions within 26S gene have not been cloned earlier. The mean length of cloned fragments is 11.8 kilobases, the mean number of EcoRI and BamHI restriction sites are 1.2 and 1.0, respectively. The electrophoretical screening of plasmids using cetyl trimethyl ammonium bromide was developed.     

Reiteration of genes involved in symbiotic nitrogen fixation by fast-growing Rhizobium japonicum.

By using cloned Rhizobium meliloti nodulation (nod) genes and nitrogen fixation (nif) genes, we found that the genes for both nodulation and nitrogen fixation were on a plasmid present in fast-growing Rhizobium japonicum strains. Two EcoRI restriction fragments from a plasmid of fast-growing R. japonicum hybridized with nif structural genes of R. meliloti, and three EcoRI restriction fragments hybridized with the nod clone of R. meliloti. Cross-hybridization between the hybridizing fragments revealed a reiteration of nod and nif DNA sequences in fast-growing R. japonicum. Both nif structural genes D and H were present on 4.2- and 4.9-kilobase EcoRI fragments, whereas nifK was present only on the 4.2-kilobase EcoR2 fragment. These results suggest that the nif gene organizations in fast-growing and in slow-growing R. japonicum strains are different.     

苜蓿根瘤菌17560细胞膜膜脂组成分析及DGTS合成基因克隆与表达

【目的】分析一株分离自黑龙江省的苜蓿根瘤菌在低磷胁迫及正常磷含量条件下细胞膜脂的组成,并从该菌中克隆和鉴定细胞膜无磷脂二酰基甘油三甲基高丝氨酸(DGTS)合成基因。【方法】分别在不同磷含量的Sherwood基本培养基中进行根瘤菌培养,采用Bligh-Dyer方法提取细胞膜脂,以文献报道Sinorhizobium meliloti(苜蓿中华根瘤菌)菌株1021的脂类图谱和磷脂PE、PG、PC标准品作为参照,利用薄层层析方法分析不同磷含量条件下培养菌株的细胞膜脂组成。根据GenBank中已发表的DGTS合成基因btaA和btaB序列设计引物,以产DGTS菌株基因组DNA为模板,扩增btaA和btaB同源基因,并在E.coil BL21(DE3)表达。同时检测表达菌株是否合成细胞膜无磷脂DGTS以验证基因功能。对菌株17560进行16S rRNA基因序列分析。【结果】分离自黑龙江省的苜蓿根瘤菌17560与Sinorhizobium meliloti的16S rRNA基因序列相似性高达99.8%,但其细胞膜脂组成明显不同于参比菌株Sinorhizobium meliloti 1021的膜脂组成。在低磷胁迫条件下,该菌株的细胞膜脂主要由OL和DGTS等无磷脂组成,但OL的组成明显不同,该菌株含有3种不同类型的鸟氨酸脂(OLs),而参比菌株Sinorhizobium meliloti 1021只含有一种类型的鸟氨酸脂(OL)。在正常磷含量条件下,该菌株的细胞膜脂主要由PE和一种未知的含氨基磷脂组成,PG与PC的含量均较少,而参比菌株Sinorhizobium meliloti 1021的细胞膜脂主要由PE、PG与PC组成。通过PCR扩增从产DGTS菌株17560中获得1 913 bpDNA片段,经序列分析发现其中有两个ORF与菌株Sinorhizobium meliloti 1021的btaA和btaB基因序列相似性均为99%。将该DNA片段克隆于pET-30a(+)得到重组质粒pLH01,转化宿主菌获得表达菌株E.coli BL21(DE3).pLH01,经IPTG诱导后产生相对分子量约为45 kD和25 kD的蛋白。薄层层析验证重组菌细胞膜脂组成,结果表明,表达菌株E.coliBL21(DE3).pLH01可以在IPTG诱导后合成无磷脂DGTS,而转入空载体pET-30a(+)的阴性对照菌株E.coli BL21(DE3).pET-30a(+)则不能合成。【结论】系统发育地位相同的苜蓿根瘤菌株的细胞膜脂组成明显不同;苜蓿根瘤菌的细胞膜组成随培养基中的磷含量不同而变化,低磷胁迫条件下其细胞膜脂主要由OL和DGTS等无磷脂组成;在Sinorhizobium膜脂中首次发现一种未知的氨基磷脂及3种不同类型的鸟氨酸脂(OLs);从菌株17560中克隆获得2个DGTS合成基因btaA和btaB,在大肠杆菌中成功表达,并证实了所表达基因的功能。     

Cloning and organization of genes for 5S ribosomal RNA in the sea urchin. Lytechinus variegatus

A 1.35-kb EcoRI fragment of Lytechinus variegatus DNA containing a single 5S rRNA gene has been cloned into the plasmid vector pACYC184. Four clones from different transformation experiments contain 5S rDNA inserts of about the same size and have the same restriction enzyme digestion patterns for the enzymes HaeIII, HinfI, HhaI, and AluI. One EcoRI site near the HindIII site of the plasmid vector pACYC184 is missing in all the four clones. By DNA sequencing, the missing EcoRI ws found to be EcoRI site, d(AAATTN)d(TTTAAN) in pLu103, one of the four 5S rDNA clones. The structure of pLu103 was determined by restriction mapping and blot hybridization. Three restriction fragments, 1.0-kb HaeIII/HaeIII, 0.375-kb AluI/AluI and 0.249-kb MboII/MboII, which contain the 5S rRNA coding region, have been subcloned into the EcoRI site of the plasmid pACYC184. The organization of 5S rRNA genes in the sea urchin genome was also investigated. It was found that restriction endonuclease HaeIII has a single recognition site within each 5S rDNA repeat, and yields two fragment lengths, 1.2 and 1.3 kb. The behavior of these 5S rRNA genes when total L. variegatus DNA is partially digested with HaeIII is consistent with an arrangement of 5S rRNA genes in at least two tandemly repeated, non-interspersed families. Both the coding region and spacer region of the 5S rRNA gene in pLu103 hybridize to 1.2 and 1.3-kb rDNA families. This indicates that the cloned EcoRI fragment of 5S rDNA in pLu103 represents one single repeat of 5S rDNA in the genome.     

A method for constructing single-copy lac fusions in Salmonella typhimurium and its application to the hemA-prfA operon.

This report describes a set of Escherichia coli and Salmonella typhimurium strains that permits the reversible transfer of lac fusions between a plasmid and either bacterial chromosome. The system relies on homologous recombination in an E. coli recD host for transfer from plasmid to chromosome. This E. coli strain carries the S. typhimurium put operon inserted into trp, and the resulting fusions are of the form trp::put::[Kanr-X-lac], where X is the promoter or gene fragment under study. The put homology flanks the lac fusion segment, so that fusions can be transduced into S. typhimurium, replacing the resident put operon. Subsequent transduction into an S. typhimurium strain with a large chromosomal deletion covering put allows selection for recombinants that inherit the fusion on a plasmid. A transposable version of the put operon was constructed and used to direct lac fusions to novel locations, including the F plasmid and the ara locus. Transductional crosses between strains with fusions bearing different segments of the hemA-prfA operon were used to determine the contribution of the hemA promoter region to expression of the prfA gene and other genes downstream of hemA in S. typhimurium.