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1.
The insertion sequence IS6100, belonging to the IS6 family, normally forms a cointegrate as an end product of transposition. The IS6100-based minitransposon, Tn1792, has been developed as a genetic tool to mutagenise antibiotic-producing Streptomyces. Here, we describe resolution of Tn1792 cointegrates in Streptomyces avermitilis that can facilitate both the initial isolation of Tn1792 insertion mutants and also the subsequent rescue of Tn1792-tagged sequences. This is the first reported example of cointegrate resolution for an IS6-type transposable element. As a result of mutagenesis, several putative genes involved in morphological development and antibiotic production have been isolated.  相似文献   

2.
Transposon gamma delta (Tn1000), a 6-kb member of the Tn3 family, is widely used for plasmid mutagenesis. A 1.8-kb derivative of gamma delta was constructed that contains the kan gene from Tn5 and the resolution (res) site from gamma delta cloned between 40-bp inverted repeats of gamma delta's delta (delta) end. This element, named m gamma delta-1, lacks the genes encoding transposase and resolvase, and therefore depends on its host to supply transposition and resolution functions. Thus, in strains lacking gamma delta, m gamma delta-1 will not transpose. The m gamma delta-1 element is shown to be useful for mutagenesis of plasmids, DNA sequencing, and allele replacement (in Streptomyces avermitilis).  相似文献   

3.
Nonrandom insertion of Tn5 into cloned human adenovirus DNA   总被引:4,自引:0,他引:4  
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4.
5.
IS1207 is the insertion most frequently found among the spontaneous mutations that abolish the activity of an Escherichia coli phage lambda cI gene integrated in the Corynebacterium Brevibacterium lactofermentum ATCC21086 genome. We examined the transposition of transposon-like structures composed of a selective kanamycin resistance gene (aph3), and one or two IS1207 sequences. One of these, the Tn5531 transposon, transposed efficiently in Corynebacterium glutamicum. A replicative and a non-replicative Tn5531 delivery vector were used in Tn5531 mutagenesis. As IS1207, transposon Tn5531 shows a high frequency of transposition and mutagenesis, and a low target specificity. These features make of Tn5531 an adequate choice for gene identification and gene tagging experiments.  相似文献   

6.
Tn5099, a promoter probe transposon for Streptomyces spp., was constructed by inserting a promoterless xylE gene and a hygromycin resistance gene into IS493. Tn5099 transposed into different sites in the Streptomyces griseofuscus genome, and the xylE reporter gene was expressed in some of the transposition mutants. Strains containing Tn5099 insertions that gave regulated expression of the xylE gene were identified.  相似文献   

7.
Transposition of Tn4560 of Streptomyces fradiae in Mycobacterium smegmatis   总被引:1,自引:0,他引:1  
Tn4560 (8.6 kb) was derived from Tn4556, a Tn3-like element from Streptomyces fradiae. It contains a viomycin resistance gene that has not been used previously for selection in mycobacteria. Tn4560, cloned in a Streptomyces plasmid, was introduced by electroporation into Mycobacterium smegmatis mc(2)155. Tn4560 transposed into the host genome: there was no obvious target sequence preference, and insertions were in or near several conserved open reading frames. The insertions were located far apart on different AseI macrorestriction fragments. Unexpectedly, the transposon delivery plasmid, pUC1169, derived from the Streptomyces multicopy plasmid pIJ101, replicated partially in M. smegmatis, but was lost spontaneously during subculture. Replication of pUC1169 probably contributed to the relatively high efficiency of Tn4560 delivery: up to 28% of the potential M. smegmatis transformants acquired a stable transposon insertion. The data indicated that Tn4560 may be useful for random mutagenesis of M. smegmatis.  相似文献   

8.
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10.
Tn4451 is a 6.3-kb chloramphenicol resistance transposon from Clostridium perfringens and is found on the conjugative plasmid pIP401. The element undergoes spontaneous excision from multicopy plasmids in Escherichia coli and C. perfringens and conjugative excision from pIP401 in C. perfringens. Tn4451 is excised as a circular molecule which is probably the transposition intermediate. Excision of Tn4451 is dependent upon the site-specific recombinase TnpX, which contains potential motifs associated with both the resolvase/invertase and integrase families of recombinases. Site-directed mutagenesis of conserved amino acid residues within these domains was used to show that the resolvase/invertase domain was essential for TnpX-mediated excision of Tn4451 from multicopy plasmids in E. coli. An analysis of Tn4451 target sites revealed that the transposition process showed target site specificity. The Tn4451 target sequence resembled the junction of the circular form, and insertion occurred at a GA dinucleotide. Tn4451 insertions were flanked by directly repeated GA dinucleotides, and there was also a GA at the junction of the circular form, where the left and right termini of Tn4451 were fused. We propose a model for Tn4451 excision and insertion in which the resolvase/invertase domain of TnpX introduces 2-bp staggered cuts at these GA dinucleotides. Analysis of Tn4451 derivatives with altered GA dinucleotides provided experimental evidence to support the model.  相似文献   

11.
Transposon Tn7 transposes at high frequency to a specific site, attTn7, in the Escherichia coli chromosome. We devised a quantitative assay for Tn7 transposition in which Tn7-end derivatives containing the cis-acting transposition sequences of Tn7 transpose from a bacteriophage lambda vector upon infection into cells containing the Tn7-encoded transposition proteins. We used this assay to identify a 68-base-pair DNA segment containing the sequences essential for attTn7 target activity. This segment is positioned asymmetrically with respect to the specific point of Tn7 insertion in attTn7 and lacks obvious homology to the sequences at the ends of Tn7 which participate directly in transposition. We also show that some sequences essential for attTn7 target activity are contained within the protein-coding sequence of a bacterial gene.  相似文献   

12.
We have identified and characterized the cis-acting sequences at the termini of the bacterial transposon Tn7 that are necessary for its transposition. Tn7 participates in two kinds of transposition event: high-frequency transposition to a specific target site (attTn7) and low-frequency transposition to apparently random target sites. Our analyses suggest that the same sequences at the Tn7 ends are required for both transposition events. These sequences differ in length and nucleotide structure: about 150 base-pairs at the left end (Tn7L) and about 70 base-pairs at the right end (Tn7R) are necessary for efficient transposition. We also show that the ends of Tn7 are functionally distinct: a miniTn7 element containing two Tn7R ends is active in transposition but an element containing two Tn7L ends is not. We also report that the presence of Tn7's cis-acting transposition sequences anywhere in a target replicon inhibits subsequent insertion of another copy of Tn7 into either an attTn7 target site or into random target sites. The inhibition to an attTn7 target site is most pronounced when the Tn7 ends are immediately adjacent to attTn7. We also show that the presence of Tn7R's cis-acting transposition sequences in a target replicon is necessary and sufficient to inhibit subsequent Tn7 insertion into the target replicon.  相似文献   

13.
T Michiels  G Cornelis 《Gene》1986,43(3):175-181
We describe the construction of a system allowing high-frequency transposition and deletion mutagenesis with class-II transposons containing a kanamycin or a chloramphenicol-resistance marker. The system utilizes the transposition function of Tn3 and the resolution function of Tn951/Tn2501 which leads to an uncoupling of the resolution and repression functions. It consists of defective transposons inserted into conjugative, replication thermosensitive plasmids. The properties of the system are: easily selectable resistance markers, high transposition frequencies onto plasmids, low transposition frequencies onto the host chromosome, placement of the tnpA gene outside the transposons so that "second-generation" transposition does not occur, possibility to transpose the whole system onto other plasmid vectors with different selection strategies, consecutive use of two transposons for deletion mutagenesis and restriction mapping.  相似文献   

14.
The bacterial transposon Tn7 encodes five genes whose protein products are used in different combinations to direct transposition to different types of target sites. TnsABC+D directs transposition to a specific site in the Escherichia coli chromosome called attTn7, whereas TnsABC+E directs transposition to non-attTn7 sites. These transposition reactions can also recognize and avoid ``immune' targets that already contain a copy of Tn7. TnsD and TnsE are required to activate TnsABC as well as to select a target site; no transposition occurs with wild-type TnsABC alone. Here, we describe the isolation of TnsC gain-of-function mutants that activate the TnsA+B transposase in the absence of TnsD or TnsE. Some of these TnsC mutants enable the TnsABC machinery to execute transposition without sacrificing its ability to discriminate between different types of targets. Other TnsC mutants appear to constitutively activate the TnsABC machinery so that it bypasses target signals. We also present experiments that suggest that target selection occurs early in the Tn7 transposition pathway in vivo: favorable attTn7 targets appear to promote the excision of Tn7 from the chromosome, whereas immune targets do not allow transposon excision to occur. This work supports the view that TnsC plays a central role in the evaluation and utilization of target DNAs.  相似文献   

15.
The bacterial transposon Tn7 exhibits target immunity, a process that prevents Tn7 from transposing into target DNAs that already contain a copy of the transposon. This work investigates the mechanism of target immunity in vitro. We demonstrate that two Tn7-encoded proteins_TnsB, which binds specifically to the ends of Tn7, and TnsC, the ATP-dependent DNA binding protein_act as a molecular switch to impose immunity on target DNAs containing Tn7 (or just Tn7 ends). TnsC binds to target DNA molecules and communicates with the Tn7 transposition machinery; here we show that target DNAs containing Tn7 ends are also bound and subsequently inactivated by TnsB. Protein-protein interactions between TnsB and TnsC appear to be responsible for this inactivation; the target DNA promotes these interactions by tethering TnsB and TnsC in high local concentration. An attractive model that emerges from this work is that TnsB triggers the dissociation of TnsC from the Tn7 end-containing target DNA; that dissociation depends on TnsC's ability to hydrolyze ATP. We propose that these interactions between TnsB and TnsC not only prevent Tn7 from inserting into itself, but also facilitate the selection of preferred target sites that is the hallmark of Tn7 transposition.  相似文献   

16.
The bacterial transposon Tn7 encodes five transposition genes tnsABCDE. We report a simple and rapid procedure for the purification of TnsC protein. We show that purified TnsC is active in and required for Tn7 transposition in a cell-free recombination system. This finding demonstrates that TnsC participates directly in Tn7 transposition and explains the requirement for tnsC function in Tn7 transposition. We have found that TnsC binds adenine nucleotides and is thus a likely site of action of the essential ATP cofactor in Tn7 transposition. We also report that TnsC binds non-specifically to DNA in the presence of ATP or the generally non-hydrolyzable analogues AMP-PNP and ATP-gamma-S, and that TnsC displays little affinity for DNA in the presence of ADP. We speculate that TnsC plays a central role in the selection of target DNA during Tn7 transposition.  相似文献   

17.
18.
G R Estepa  R M Harshey 《Gene》1989,81(2):355-359
We have used the broad-host-range conjugative suicide plasmid vector described by Sasakawa and Yoshikawa [Gene 56 (1987) 283-288] for transposon mutagenesis of Serratia marcescens 274. We report multiple transposition events of Tn5 from this vector. In addition, the unusual pattern of Tn5 transposition might provide an insight into its regulation.  相似文献   

19.
目的:对电转化等Tn5转座诱变条件进行优化,获得大量甲基营养菌MP688突变株,筛选吡咯喹啉醌(PQQ)合成缺陷突变株,并对失活基因进行鉴定。方法:通过电击方法对MP688株进行Tn5转座诱变;通过检测PQQ产量,选择不产或几乎不产PQQ的突变株,用质粒拯救的方法鉴定突变基因。结果和结论:确定了MP688株电击转化的最优条件,优化了质粒拯救法鉴定突变基因的实验方案,得到了1株PQQ合成明显降低的突变株RM16,并确定了转座子在染色体上的插入位点。  相似文献   

20.
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