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51.
采用Tn5-mob-sacB转座子对华癸中生根瘤菌(Mesorhizobium huakuii)菌株7653R的共生质粒进行定向标记,获得该质粒标记菌株7653RT14.利用sacB基因对蔗糖的敏感性,对标记质粒进行消除实验,获得7653R的共生质粒消除突变株7653R-1.测得Tn5-mob-sacB转座频率高于10-5.突变株的培养特征与出发菌株基本一致.采用琼脂管法对7653RT14和7653R-1进行回接实验,结果显示7653RT14能正常结瘤固氮,表明Tn5的插入并未影响其共生能力,但失去共生质粒的7653R-1则为不结瘤或只结个别小瘤.稳定性实验结果表明供试菌株的标记质粒在本实验条件下是稳定的,可以作为共生质粒转移的供体菌. 相似文献
52.
转座子Tn5-Mob对菜豆根瘤菌共生基因的诱变、转移和初步定位 总被引:5,自引:0,他引:5
转座子Tn5-Mob在质粒RP4-4配合下能诱动(Mobilization)菜豆根瘤菌RCR3622内源质粒的诱动转移。在种间根瘤菌杂交过程中,二个巨型质粒的转移频率均大于10~(-3);分子量约为285kb的psym3622是带有结瘤(nod)和产黑素(mel)基因的共生质粒(Symbiotic plasmid);这二个基因的最大距离不超过70kb左右。另一个分子量约为135kb的质粒在试验中为不具结瘤功能的隐蔽质粒。将psym3622共生质粒导入不结瘤(Nod-)的豌豆根瘤菌菌株B151,能够使后者在菜豆植物上表达结瘤的特性,形成无效根瘤。将psym3622共生质粒导入不结瘤的菜豆根瘤菌菌株JI8400,能够在菜豆植物上形成正常发育的有效根瘤。 相似文献
53.
IS50-mediated inverse transposition: specificity and precision 总被引:4,自引:0,他引:4
The IS50 elements, which are present as inverted repeats in the kanamycin-resistance transposon, Tn5, can move in unison carrying with them any interstitial DNA segment. In consequence, DNA molecules such as a lambda::Tn5 phage genome are composed of two overlapping transposons - the kan segment bracketed by IS50 elements (Tn5), and lambda bracketed by IS50 elements. During direct transposition, mediated by IS50 "O" (outside) ends, the kan gene is moved and the lambda vector is left behind. During inverse transposition, mediated by the "I" (inside) ends of the IS50 elements, the lambda vector segment is moved and the kan gene is left behind. Direct transposition is several orders of magnitude more frequent than inverse transposition (Isberg and Syvanen, 1981; Sasakawa and Berg, 1982). We assessed the specificity and precision of the rare events mediated by pairs of I ends by mapping and sequencing independent inverse transpositions from a lambda::Tn5 phage into the amp and tet genes of plasmid pBR322. Using restriction analyses, 32 and 40 distinct sites of insertion were found among 46 and 72 independent inverse transpositions into the amp and tet genes, respectively. Eleven sites were used in two or more insertion events, and the two sites in tet used most frequently corresponded to major hotspots for the insertion of the Tn5 (by direct transposition). The sequences of 22 sites of inverse transposition (including each of the sites used more than once) were determined, in eleven cases by analyzing both pBR322-IS50 junctions, and in eleven others by sequencing one junction. The sequence of the "I" end of IS50 was preserved and 9-bp target sequence duplications were present in every case analyzed. GC pairs were found at each end of the target sequence duplication in ten of the eleven sites used more than once, and also in seven of the other eleven sites. Our data indicate that transposition mediated by pairs of "I" ends is similar in its specificity and precision to the more frequent transposition mediated by IS50 "O" ends. 相似文献
54.
55.
Abstract The generalized transducing phage P1 grew well on heterozygous Escherichia coli carrying recA srlC 300::Tn 10 on the chromosome and recA + on a pBR322-derived plasmid. Because of the close linkage of Tn 10 to recA mutations, including recA 1, recA 13, recA 56, recA deletion and recA allele of E. coli BNG30, the latter can be moved to other strains in transductional crosses for selective resistance to tetracycline. 相似文献
56.
Biological nitrogen fixation (BNF) technology with special reference to Rhizobium-legume symbiosis is growing very rapidly with the hope of combatting world hunger by producing cheaper protein for animal and human consumption in the Third World. One can see rapid progress made in the biochemistry and molecular biology of symbiotic nitrogen fixation in general; however, less progress has been made on the ecological aspects despite the fact that an enormous amount of literature is available on inoculation problems and on agronomic aspects of symbiotic nitrogen fixation. So far most information on Rhizobium concerns fast-growing rhizobia and their host legume. Although it is essential that food production using BNF technology should be maximized in the Third World, the least work has been done on slow-growing rhizobia, which are generally found in tropical and sub-tropical soils. The majority of the developing countries are in tropical and sub-tropical regions. Except for R. japonicum, a microsymbiont partner of soybean (Glycine max), the majority of the slow-growing rhizobia belong to the cowpea group, and we refer to cowpea rhizobia as tropical rhizobia species. In this review we have tried to consolidate the recent progress made on ecology and genetics of tropical rhizobia. By using recombinant DNA technology techniques it is expected that super strains of rhizobia with desirable characteristics can be produced. One must evaluate the efficiency and effectiveness of these genetically manipulated laboratory strains under field conditions. In conclusion, if one aims at combatting hunger in the Third World using BNF technology, an intensive research programme on fundamental and applied aspects of tropical rhizobia species is suggested. This involves close cooperation between molecular biologists and microbial ecologists. 相似文献
57.
58.
Jesús Blázquez Alfonso Navas Pilar Gonzalo JoséL. Martínez Fernando Baquero 《FEMS microbiology ecology》1996,19(1):63-71
Abstract: The presence of transposon Tn 5 was studied in 730 Enterobacteriaceae strains from clinical and sewage origin. From these strains, twenty-five conjugative plasmids harboring transposon Tn 5 were isolated. These plasmids were compared with pJR67 and pRYC119, the only previously studied plasmids harboring Tn 5 . A phylogenetic tree of the evolution of all different plasmids was proposed. Irrespective of their bacterial host and geographical place of isolation, some of the plasmids were shown to be identical. All of them can be included in only eight different prototypical plasmid species. Twenty-two plasmids (88%) carried an IncI1 incompatibility determinant as judged form DNA hybridization experiments. The presence of some other common resistance genes suggested that these plasmids are descendants of a common ancestor. These IncI1 plasmids could be grouped in six prototypical species. The results presented here suggest that Tn 5 spread in nature may be dependent on the conjugative ability of the IncI plasmids harboring the transposon, rather than on the efficiency of Tn 5 transposition between different replicons. 相似文献
59.
Richard H. Baltz Margaret A. McHenney Cathleen A. Cantwell Stephen W. Queener Patricia J. Solenberg 《Antonie van Leeuwenhoek》1997,71(1-2):179-187
Several transposons have been developed from the streptomycete insertion sequence IS493. They have broad host specificity in Streptomyces species and insert relatively randomly into a consensus target sequence of gNCaNTgNNy. Collectively, they have specialized features that facilitate the following: cloning of DNA flanking insertions; physical mapping of insertions; construction of highly stable mutants; and efficient construction of mutant libraries. All of the transposons can be introduced into streptomycetes by conjugation from E. coli, and can be delivered by curing the temperature sensitive delivery plasmid. Tn5099 was used to physically map genes involved in daptomycin and red pigment production in Streptomyces roseosporus, and to clone daptomycin biosynthetic genes. Tn5099 was also used in Streptomyces fradiae to identify and clone a neutral genomic site for the insertion of a second copy of the tylF gene. Recombinants containing two copies of the tylF gene carried out the no rmally rate limiting conversion of macrocin to tylosin very efficiently, thus causing substantial increases in tylosin yield. 相似文献
60.
Morita Masayuki; Umemoto Aiko; Li Zhi-Xiang; Nakazono Naoki; Sugino Yoshinobu 《DNA research》1996,3(6):431-433
We have previously constructed a cloning/sequencing vector,with an in vivo system capable of creating nested deletionsfrom the end of transposon Tn3, which is useful for sequencinglarge DNAs. Here we report an in vitro system which uses anammonium sulfate fraction of extract from E. coli cells harboringa Tn3 transposase overproducer plasmid to generate nested deletions.A key feature of the procedure is exhaustive digestion of thereaction products with a restriction enzyme that cleaves onlybetween the Tn3 "right" terminus and the cloned fragment. Thisstep reduces the noise level due to mechanisms other than deletionsfrom the Tn3 terminus, and facilitates detection and isolationof the desired deletion products. This system enables us tosave at least 2 days' time when obtaining the necessary deletionscompared with the in vivo system. 相似文献