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Three different, independently isolated mercury-resistance-conferring plasmids, pMER327/419, pMER330 and pMER05, from cultures originating from the river Mersey (UK), contain identical regulatory merR genes and transposon ends. The mer determinant from pMER327/419 contains an additional potential ORF (ORF F) located between merP and merA when compared with the archetypal Tn501. Although these plasmids confer narrow-spectrum resistance (resistance to Hg2+, but not organomercurials) their merR genes encode a potential organomercurial-sensing protein. Transposition of the mer of pMER05 into plasmid RP4 was demonstrated and, as with Tn502 and Tn5053, insertion occurred at a specific region. The sequence of pMER05 is identical at the 'left' and 'right' termini and across merR to Tn5053, which was independently isolated from the chromosome of a Xanthomonas sp. bacteria from the Khaidarkan mercury mine in Kirgizia, former Soviet Union [Kholodii et al., J. Mol. Biol. 230 (1993a) 1103-1107]. The transpositional unit of pMER05 is, like that of Tn5053, bounded by DNA homologous to the imperfect 25-bp inverted repeats (IR) of the In2 integron, which brackets antibiotic-resistance cassettes in Tn21 subgroup transposons. At one end of the transposable element, and internal to the In2-like IR, is a 38-bp IR which closely resembles the IR that bounds Tn21.
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PMID:The sequence of the mer operon of pMER327/419 and transposon ends of pMER327/419, 330 and 05. 806 7

The pathways of pectin and galacturonate catabolism in Erwinia chrysanthemi converge to form a common intermediate, 2-keto-3-deoxygluconate, which is phosphorylated to form 2-keto-3-deoxy-6-phosphogluconate (KDGP) and then cleaved by the aldolase encoded by the kdgA gene. We cloned the kdgA gene of the E. chrysanthemi strain 3937 by complementing an Escherichia coli kdgA mutation, using an RP4-derivative plasmid. Restriction mapping of the kdgA region and isolation of kdgA-lac fusions allowed the more precise localization of the kdgA gene and determination of its transcriptional direction. The nucleotide sequence of the kdgA region indicated that the kdgA reading frame is 639 bases long, corresponding to a protein of 213 amino acids with a molecular mass of 22,187 Da. Comparison of the deduced primary amino acid sequences of the E. chrysanthemi KDGP-aldolase to the E. coli, Zymomonas mobilis and Pseudomonas putida enzymes showed that they are highly conserved. The E. chrysanthemi kdgA structural gene begins 153 bases downstream of an open reading frame that has a high homology with the zwf E. coli gene encoding glucose-6-phosphate dehydrogenase. The zwf gene is also linked to eda (kdgA) in E. coli and P. putida but genetic organization is different. Regulation of zwf and kdgA expression in E. chrysanthemi was analysed using lacZ fusions. The expression of zwf is independent of the growth rate, but is repressed in the presence of glucose. Induction of kdgA by pectin-degradation products is mediated in vivo by the negative regulatory gene kdgR, which also controls all the steps of pectin degradation.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Microbiol 1994 Jan
PMID:Molecular analysis of the Erwinia chrysanthemi region containing the kdgA and zwf genes. 814 47

The 9.5 kb virB operon is the largest of the six major operons in the Ti plasmid vir region. This operon contains eleven genes, the largest of which is virB4. This gene encodes an 84 kDa protein whose function has not been identified. Its roles in conferring virulence on Agrobacterium tumefaciens and in the T-DNA transfer process were determined by generating non-polar mutants by using the Tn5pvirB transposon in which the virB promoter is transcribed downstream of its position of insertion. Several independent mutants were isolated and each insertion site in virB4 was confirmed by nucleotide sequence analysis. These mutants were tested for T-DNA transfer ability by agroinfection and for tumorigenicity by inoculation in Brassica and Datura. All mutants were agroinfection- and tumorigenicity-negative. These data strongly suggest that virB4 is essential for both the interkingdom transfer of the T-DNA and virulence. Furthermore, by using anti-VirB4 serum, the protein product of virB4 was localized to the inner-membrane fraction of A. tumefaciens. Purified VirB4 protein hydrolyses ATP and this activity was quenched by the anti-VirB4 serum. The energy generated by VirB4 ATPase therefore may be used to transfer T-DNA or to assemble the T-DNA transfer apparatus on the bacterial membrane. Protein sequence analyses revealed striking similarities between VirB4 protein and the proteins required for conjugative transfer, which include TraC, TrwK, and TrbE of plasmids F, R388, and RP4, respectively. These findings suggest that VirB proteins play a direct role in the assembly of a conjugative transfer apparatus required for the transfer of the T-DNA from A. tumefaciens to plant cells.
Mol Microbiol 1994 Feb
PMID:An inner-membrane-associated virulence protein essential for T-DNA transfer from Agrobacterium tumefaciens to plants exhibits ATPase activity and similarities to conjugative transfer genes. 815 80

The virD operon of the resident Ti plasmid of Agrobacterium tumefaciens contains loci involved in T-DNA processing and undefined virulence functions. Nucleotide sequence of the entire virD operon of pTiC58 revealed similarities to the virD operon of the root-inducing plasmid pRiA4b and to that of the octopine-type plasmid pTiA6NC. However, comparative sequence data show that virD of pTiC58 is more akin to that of the pRiA4b than to that of the pTiA6NC. T7f10::virD gene fusions were used to generate polypeptides that confirm the presence of four open reading frames virD1, virD2, virD3, and virD4 within virD which have a coding capacity for proteins of 16.1, 49.5, 72.6, and 73.5 kDa, respectively. virD3 therefore encodes a polypeptide 3.4 times larger (72.6 versus 21.3 kDa) than that encoded by virD3 of octopine Ti plasmids. Non-polar virD4 mutants could not be complemented by a distant homologue, TraG protein of plasmid RP4. An independently regulated fifth ORF (orf5) is located immediately downstream of 3' end of virD4 and encodes a polypeptide of 97.4 kDa. The expression of orf5 is dependent on its own promoter and is independent of acetosyringone induction in A. tumefaciens. Recently, it has been shown that virD3 of octopine Ri or Ti plasmids is not required for virulence. In this report, we confirm and extend these findings on a nopaline Ti plasmid by using several virD non-polar mutants that were tested for virulence. virD3 and orf5 non-polar mutants showed no effect on tumorigenicity on 14 different plant species, while virD4 mutants lost their tumorigenicity completely on all these test plants. These data suggest that virD3 and orf5 are not essential for virulence whereas virD4 is absolutely required on a wide range of host plants.
Mol Microbiol 1993 Aug
PMID:The virD4 gene is required for virulence while virD3 and orf5 are not required for virulence of Agrobacterium tumefaciens. 823 11

The region of the IncW plasmid R388 involved in conjugal DNA metabolism and mobilization (MOBw) has been analyzed by Tn5tac1 insertion mutagenesis, genetic complementation and DNA sequencing. Three genes (trwA, trwB and trwC) were mapped within MOBw. They are transcribed from the same strand and away from oriT. The predicted products of trwA, trwB and trwC are proteins of 121, 507 and 966 amino acids, respectively. The three proteins were visualized in a minicell expression system, showing apparent molecular masses of 13.5, 55 and 105 kDa, respectively. The deduced amino acid sequence of TrwA shows significant similarity to TraJ of the IncP plasmids RP4 and R751, to NikA of the IncI plasmid R64 and to MobB of plasmid pTF-FC2. The amino acid sequence of TrwB predicts an integral membrane protein which contains an NTP-binding motif. It shows 28% to 29% identity with TraD of plasmids F and R100, 23% identity with TraG of plasmids RP4 and R751 and 20% identity with VirD4 of the Ti plasmids of Agrobacterium tumefaciens. The amino acid sequence of TrwC shows the characteristic motifs of the Rep family of DNA helicases. It shows 33% identity with the sequence of helicase I (TraI) of plasmid F. The similarity is highest in the N-terminal segments of the proteins, which show conservation of characteristic amino acid motifs of a family of DNA-relaxases, including VirD2 of the Ti plasmid. The conserved features of these three proteins among the different transfer systems suggest that a very widespread conjugal DNA mobilization mechanism is shared by the transfer apparatuses of IncF, IncI, IncP, IncW and Ti plasmids.
J Mol Biol 1994 Jan 14
PMID:Genetic organization of the conjugal DNA processing region of the IncW plasmid R388. 828 74

Mutants and mobilizing plasmids were developed as genetic tools in Alcaligenes eutrophus CH34. In order to map the chromosome, spontaneous and ethyl methane sulphonate (EMS)-induced mutants (mostly auxotrophs) were isolated. Another source of mutants was provided by the phenomenon of temperature-induced mortality and mutagenesis that is observed at 37 degrees C and is characteristic of many metallotolerant strains of A. eutrophus. Plasmid pULB113 (RP4::miniMu) was used to map the available mutations. Twenty-five loci were ordered in a circular map. pMOL50, a rearranged derivative of plasmid pMOL28, which was obtained in a survivor at 37 degrees C and displayed chromosome mobilizing activity (Cma+), was also used to mobilize chromosomal markers: resulting linkages were stronger than with pULB113, allowing confirmation of the circularity of the A. eutrophus CH34 chromosome with a small number of crosses.
Mol Gen Genet 1993 Aug
PMID:Chromosome mapping in Alcaligenes eutrophus CH34. 835 52

IncP alpha plasmids, exemplified by RP4, are remarkable for their broad host range. They contain strikingly few cleavage sites for many commonly used type II restriction enzymes but an overabundance of sites for certain enzymes that target G + C-rich sequences. To identify factors responsible for these distributions, the recently compiled nucleotide sequence of RP4 was analysed to determine the frequency of tetra- and hexanucleotide motifs in the 49 kb plasmid backbone. This is defined as the sectors encoding basic plasmid functions. The overabundant restriction targets in RP4 are concentrated in the backbone and contain overlapping copies of CGGC/GCCG, identified as the most abundant tetranucleotide motif in the plasmid. Motif frequencies in the RP4 backbone are shown to be similar to those in Pseudomonas aeruginosa, a natural host of RP4, with the notable exception that a number of 6-bp palindromes are underrepresented in the plasmid. It is proposed that 6-bp palindromes were counterselected as type II restriction enzyme recognition sequences. Conjugative transfer of RP4 and R751 (IncP beta) is unusually sensitive to restriction compared to enterobacterial plasmids of the IncFII and IncI1 groups, implying that IncP plasmids experienced particularly strong selection for loss of restriction targets. Pseudomonas spp. of rRNA homology group I specify many type II restriction enzymes that target 6-bp palindromes and are candidates for the evolutionary hosts of IncP alpha plasmids.
J Mol Biol 1996 May 10
PMID:Distribution of restriction enzyme recognition sequences on broad host range plasmid RP4: molecular and evolutionary implications. 864 2

Plasmid R6K contains two functional origins or transfer (oriT), in contrast to previously characterized conjugative plasmids. The oriTs are formed by 98 bp palindromic sequences invertedly orientated with respect to each other and located in the immediate vicinity of the alpha and beta origins of replication. The gene for R6K oriT-nickase, taxC, was identified by transposon mutagenesis and sequenced, revealing that TaxC belongs to the VirD2 nickase family. The protein was overproduced and purified. It catalysed a cleaving-joining reaction on single-stranded DNA containing its target sequence. Identification of the nic sites suggested that the R6K oriTs belong to the RP4/VirD2 oriT family. Cleavage was highly specific and did not occur with oligonucleotides cleaved by related nickases like TraI of RP4 or VirD2 of the Ti plasmid. nic cleavage of in vivo preassembled relaxation complexes was induced by incubation of plasmid cleared lysates with ethidium bromide. Nicked molecules obtained in this way were treated with snake venom phosphodiesterase to produce double strand cleavages at the nic sites. 35% of the molecules were cleaved simultaneously at both nic sites, both in the case of R6K and of R6Kdrd1, a derepressed mutant whose frequency of transfer is 1000-fold higher. This figure represents the minimum percentage of individual R6K molecules containing two pre-assembled relaxation complexes.
J Mol Biol 1996 Aug 16
PMID:Plasmid R6K contains two functional oriTs which can assemble simultaneously in relaxosomes in vivo. 875 82

The antibiotic-resistance transposon Tn4555 from Bacteroides can be transferred between strains by conjugation. The transposon is not self-transmissible and must be mobilized by resident chromosomal tetracycline-resistance elements. In the present report, the mechanism of transfer was examined at the genetic level by deletion analysis and nucleotide sequencing of clones that conferred a transmissible phenotype on a non-mobilizable plasmid. The results suggested that the product of mobATn was required for mobilization and it worked in concert with a cis-acting oriT-like sequence. This mechanism was compared with the mobilization system of a cryptic Bacteroides plasmid, pBI143, and the two systems were found to share a common transfer strategy. The mobA gene products from both genetic elements were related and they had limited homology to the broad group of mobilization proteins (relaxases) typified by Tral of RP4. Phylogenetic analysis of MobA and several other mobilization proteins from commensal gastro-intestinal tract organisms suggested that they formed a new subgroup of the Tral superfamily. The mobilization regions of both Tn4555 and pBI143 were located on discrete segments of DNA within the parent genetic element. These segments were delineated by regions of secondary structure, suggesting that they could be defined mobilization cassettes.
Mol Microbiol 1996 May
PMID:A gene product related to Tral is required for the mobilization of Bacteroides mobilizable transposons and plasmids. 879 71

A conjugational gene transfer system consisting of donor and recipient strains has been developed for genetic analysis of Vibrio cholerae 0139 serogroup, a new cholera agent. Donor strains constructed using the Tn5-Mob carrying the origin of transfer (ori T) of plasmid RP4 and helper plasmid pRP4-4 were able to perform a directed transfer of chromosomal markers. Recipient strains carried mutations in auxotrophic genes as well as in virulence genes. Based on this gene transfer system, a genetic map of V. cholerae chromosome has been created showing the order of 17 gene markers. Relationship between the genetic structure of V. cholerae 0139 and 01 is discussed.
Mol Gen Mikrobiol Virusol
PMID:[Creating a system of conjugated chromosome transfer and genetic mapping of Vibrio cholerae serogroup O139 chromosomes]. 892 57

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