A 2.6 kb DNA sequence of Streptomyces coelicolor A3(2) which functions as a transposable element

Summary Streptomyces coelicolor A3(2) contains CCC DNA molecules, 2.6 kb in size, with an average copy number of less than one per ten chromosomes. Southern hybridisation revealed, in addition, two linear, integrated copies (A and B) of this mini-circle sequence per chromosome. The two integrated copies have similar (if not identical) ends and are present in the same locations in various S. coelicolor A3(2) derivatives. The mini-circle sequence is absent from S. lividans 66 and S. violaceolatus ISP5438 and from several Streptomyces species less closely related to S. coelicolor A3(2). None of a variety of Streptomyces plasmids tested contained homology to the mini-circle sequence. When a 1.8 kb fragment of the mini-circle lacking the ends of the integrated copies was inserted into KC515 (a derivative of the temperate phage C31 which is unable to lysogenise host strains by the natural route because the phage attachment site has been deleted) the resulting phage lysogenised S. coelicolor A3(2) (integrating into the genome of this host by homologous recombination with resident minicircle sequences) but not S. lividans or a variety of other C31 hosts. In contrast, a KC515 derivative (KC591) carrying the entire 2.6 kb mini-circle sequence linearised at its single BclI site (and therefore containing the integration site of the free mini-circle) lysogenised not only S. coelicolor A3(2) but also S. lividans 66 and most other strains normally lysogenised by C31. The KC591 lysogens of the eight Streptomyces species tested contained a linear, integrated prophage with termini apparently identical to those of the linear mini-cricle copies of S. coelicolor. In S. lividans, KC591 integrated preferentially at a site apparently homologous to the site occupied by mini-circle sequence A in S. coelicolor A3(2) strains, but integration into secondary sites also occurred.     

The glucose kinase gene of Streptomyces coelicolor and its use in selecting spontaneous deletions for desired regions of the genome

Summary A number of deletions in the glucose kinase (glk) region of the Streptomyces coelicolor chromosome were found among spontaneous glk mutants. The deletions were identified by probing Southern blots of chromosomal DNA from glk mutants with cloned glk DNA. The deletions ranged in size from 0.3 kb to greater than 2.9 kb. When cloned glk DNA was introduced on a C31 phage vector into a glk mutant that contained a deletion of the entire homolgous chromosomal glk region, glucose kinase activity was detected in extracts of these cells. The entire coding information for at least a subunit of glucose kinase is there-fore present on the cloned glk DNA. The 0.3 kb glk chromosomal deletion was used to demonstrate that transfer of chromosomal glk mutations on the the C31::glk phage could occur by recombination in vivo. Since glk mutations frequently arise from deletion events, a method was devised for inserting the cloned glk DNA at sites in the chromosome for which cloned DNA is available, and thus facilitating the isolation of deletions in those DNA regions. C31::glk vectors containing a deletion of the phage att site cannot lysogenize S. coelicolor recipients containing a deletion of the glk chromosomal gene unless these phages contain S. coelicolor chromosomal DNA. In such lysogens, the glk gene becomes integrated into the chromosome by homologous recombination directed by the chromosomal insert on the phage DNA. In appropriate selective conditions, mutants which contain deletions of the glk gene that extend into the adjacent host DNA can be easily isolated. This method was used to insert glk into the methylenomycin biosynthetic genes, and isolate derivatives with deletions of host DNA from within the prophage into the adjacent host DNA. Phenotypic and Southern blot analysis of the deletions showed that there are no genes essential for methylenomycin biosynthesis for at least 13 kb to the left of a region concerned with negative regulation of methylenomycin biosynthesis. Many of the deletions also removed part of the C31 prophage.     

Analysis of secondary, integration sites for IS117 in Streptomyces lividans and their role in the generation of chromosomal deletions

IS117, the 2.6 kb mini-circle of Streptomyces coelicolor A3(2), is a transposable element previously shown to be integrated into two distant sites in the chromosome. When introduced into S. lividans, IS117 integrates into one preferred chromosomal site, but when this site was artificially deleted, IS117 integrated into many secondary sites. Nucleotide sequence analysis of several secondary integration sites revealed varying degrees of similarity with the preferred site, but no consensus sequence. Nevertheless, sites more similar to the preferred site tended to be occupied more often than those that are less similar. Insertion of IS117 into secondary sites in the chromosome of S. lividans sometimes mediated chromosomal rearrangements. It was shown that some strains containing IS117 integrated into secondary sites had suffered deletions of chromosomal DNA. Deletions were adjacent to the inserted element and were at least several kilobases long. The proposed model implicates homologous recombination between IS117 copies integrated into two different secondary sites in the same chromosome as a cause of the deletions.     

Mapping of insertion element IS30 in the Escherichia coli K12 chromosome

Summary We identified seven phage clones containing the insertion element IS30 in a phage library mini-set, which includes 476 clones carrying chromosomal segments that cover almost the entire chromosome ofEscherichia coli K12 W3110 (Kohara et al. 1987). We could assign locations and orientations to four copies of IS30 (namedis30A tois30D) on the W3110 chromosome by restriction analysis of phage DNAs containing them. These IS30s were present at the same locations in chromosomes of both W3110 and anotherE. coli K12 strain JE5519, and thus are assumed to be present in otherE. coli K12 derivatives, including early isolates. Among the IS30 copies found, one (is30B) contained a large deletion and possessed only a 181 by stretch of the right terminal region of IS30.EMBL Accession Number: The EMBL accession number of the sequence reported in this paper is X17345     

The structure of an integrated copy of the giant linear plasmid SCP1 in the chromosome of Streptomyces coelicolor 2612.

Summary In NF strain 2612 of Streptomyces coelicolor, a giant linear plasmid SCP1 is integrated into the chromosome at the 9 o'clock position. To characterize the integrated structure of SCP1, cloning and sequence analysis of the two junctions between the SCP1 DNA and the chromosomal DNA was carried out. The left junction was revealed to retain an almost intact left terminus of SCP1. On the other hand, the right junction was composed of IS466, deleting completely the right terminal inverted repeat of SCP1. This junction might have been formed by recombination of two IS466 elements, one present at the end of the right terminal inverted repeat of SCP1 and one on the chromosome. Based on these results, we have proposed a model for the integration of SCP1 into the chromosome. The unique conjugal transfer of NF strains and the origin of the chromosomal antibiotic biosynthetic genes in Streptomyces species are also discussed in relation to this model.     

Mutation and cloning of clustered Streptomyces genes essential for sulphate metabolism

Summary A range of mutants auxotrophic for cysteine (cys) and resistant to selenate (sel) were isolated from many Streptomyces strains but chiefly from S. coelicolor A3(2) and S. lividans 66. Two of the classes of sel/cys mutants probably contained simple biochemical lesions of sulphate permease (selC) and ATP sulphurylase (selA) activities, while a further two classes (selD and selE) were pleiotropic and possibly regulatory. Most classes of sel mutations were clustered around the cysD locus of S. coelicolor. Segments of chromosomal DNA cloned from S. coelicolor, S. cattleya and S. clavuligerus and able to complement various sel/cys mutations allowed the relative positions of these mutations and the cysC and cysD mutations of S. coelicolor to be determined. The sel/cys DNA can be used for two-way selection: Cys⁺Sel^sCys^-Sel^r.     

Genetic mapping, cloning and physiological aspects of the glucose kinase gene of Streptomyces coelicolor

Summary Glucose kinase in Streptomyces coelicolor has a molecular weight of about 110,000. In crude extracts, the enzyme exhibited apparent K_m values of 0.20 mM for ATP, 0.27 mM for glucose, and 2.2 mM for the glucose analogue 2-deoxyglucose. Mutations (glk) to 2-deoxyglucose-resistance, which greatly reduce glucose kinase activity and result in relief of glucose repression of utilisation of various carbon sources, were mapped between proA and hisA in the S. coelicolor linkage map. Glucose kinase activity, 2-deoxyglucose-sensitivity, glucose utilisation and glucose repression, were all restored to glk mutants by a 3.5 kb DNA fragment cloned from S. coelicolor into a phage vector (C31 KC515), and by larger (10–30 kb) fragments cloned into a low copy number plasmid vector (pIJ916). The glk gene was further localised to a 2.9 kb BclI fragment of the cloned DNA by sub-cloning. Part or all of this fragment was present in each of five primary plasmid clones tested.     

Analysis of secondary,integration sites for IS117 in Streptomyces lividans and their role in the generation of chromosomal deletions

IS117, the 2.6 kb mini-circle of Streptomyces coelicolor A3(2), is a transposable element previously shown to be integrated into two distant sites in the chromosome. When introduced into S. lividans, IS117 integrates into one preferred chromosomal site, but when this site was artificially deleted, IS117 integrated into many secondary sites. Nucleotide sequence analysis of several secondary integration sites revealed varying degrees of similarity with the preferred site, but no consensus sequence. Nevertheless, sites more similar to the preferred site tended to be occupied more often than those that are less similar. Insertion of IS117 into secondary sites in the chromosome of S. lividans sometimes mediated chromosomal rearrangements. It was shown that some strains containing IS117 integrated into secondary sites had suffered deletions of chromosomal DNA. Deletions were adjacent to the inserted element and were at least several kilobases long. The proposed model implicates homologous recombination between IS117 copies integrated into two different secondary sites in the same chromosome as a cause of the deletions.     

The glycerol utilization operon of Streptomyces coelicolor: genetic mapping of gyl mutations and the analysis of cloned gylDNA

Summary Glycerol-3-phosphate dehydrogenase (gylB) mutations (which cause glycerol sensitivity), and presumed gylcerol kinase (gylA) and/or regulatory mutations eliminating both glycerol-3-phosphate dehydrogenase and glcerol kinase activities, map close to the argA locus of Streptomyces coelicolor A3(2). Using the plasmid vector pIJ702 and restriction enzymes Bg/II and SstI, extensively overlapping S. coelicolor DNA fragments of 2.74 kb and 2.84 kb were isolated, either of which could restore the wild-type phenotype to gylB and some gylA mutants. Genetic and biochemical analyses of mutants carrying the cloned gylDNA suggested that a functional gyl promoter had not been cloned, and that restoration of the Gyl⁺ phenotype was achieved by recombination between the cloned and chromosomal gyl DNA sequences. After subcloning parts of this DNA into the phage vector C31 KC400, gene disruption analysis was carried out, which confirmed the absence of the gyl promoter, and indicated that a polycistronic mRNA traverses gylA and then gylB.     

pIJ101, a multi-copy broad host-range Streptomyces plasmid: Functional analysis and development of DNA cloning vectors

Summary Streptomyces lividans ISP 5434 contains four small high copy number plasmids: pIJ101 (8.9 kb), pIJ102 (4.0 kb), pIJ103 (3.9 kb) and pIJ104 (4.9 kb). The three smaller species appear to be naturally occurring deletion variants of pIJ101. pIJ101 and its in vivo and in vitro derivatives were studied after transformation into S. lividans 66.pIJ101 was found to be self-transmissible by conjugation, to elicit lethal zygosis and to promote chromosomal recombination at high frequency in both S. lividans 66 and S. coelicolor A3(2). A restriction endonuclease cleavage map of pIJ101 was constructed for 11 endonucleases; sites for five others were lacking. Many variants of pIJ101 were constructed in vitro by inserting DNA fragments determining resistance to neomycin, thiostrepton or viomycin, and having BamHI termini, into MboI or BclI sites on the plasmid, sometimes with deletion of segments of plasmid DNA. The physical maps of these plasmids were related to their phenotypes in respect of lethal zygosis and transfer properties. In vivo recombination tests between pairs of variant plasmids were also done. These physical and genetic studies indicated that determinants of conjugal transfer occupy less than 2.1 kb of the plasmid. A second segment is required for spread of the plasmid within a plasmid-free culture to produce the normal lethal zygosis phenotype: insertion of foreign DNA in this region caused a marked reduction in the diameter of lethal zygosis zones. The minimum replicon was deduced to be 2.1 kb or less in size; adjacent to this region is a 0.5 kb segment which may be required for stable inheritance of the plasmid. The copy number of several derivatives of pIJ101 in S. lividans 66 was between 40 and 300 per chromosome and appeared to vary with the age or physiological state of the culture. pIJ101 derivatives have a wide host range within the genus Streptomyces: 13 out of 18 strains, of diverse species, were successfully transformed.Knowledge of dispensable DNA segments and the availability of restriction sites for the insertion of DNA, deduced from the properties of plasmids carrying the E. coli plasmid pACYC184 introduced at various sites, was used in the construction of several derivatives of pIJ101 suitable as DNA cloning vectors. These were mostly designed to be non-conjugative and to carry pairs of resistance genes for selection. They include a bifunctional shuttle vector for E. coli and Streptomyces; a Streptomyces viomycin resistance gene of this plasmid is expressed in both hosts.     

Identification of a DNA sequence associated with plasmid integration in Streptomyces coelicolor A3(2)

Summary We identified a DNA element of length about 1 kb that is present in two copies in the chromosome of Streptomyces coelicolor A3(2) and is also present on the plasmid SCP1 which has been carefully defined genetically, but never isolated as extrachromosomal DNA.A copy of the element is close (within 5 kb) of a gene coding for an extracellular agarase in the chromosome of S. coelicolor A3(2) and in an NF strain, in which SCP1 has integrated into the chromosome, the agarase gene has been deleted. The element has properties reminiscent of Insertion Sequences in Escherichia coli, but it is not yet know if it can transpose.     

Intergeneric Conjugation in Streptomyces peucetius and Streptomyces sp. Strain C5: Chromosomal Integration and Expression of Recombinant Plasmids Carrying the chiC Gene

Intergeneric conjugal transfer of plasmid DNA from Escherichia coli to Streptomyces circumvents problems such as host-controlled restriction and instability of foreign DNA during the transformation of Streptomyces protoplasts. The anthracycline antibiotic-producing strains Streptomyces peucetius and Streptomyces sp. strain C5 were transformed using E. coli ET12567(pUZ8002) as a conjugal donor. When this donor species, carrying pSET152, was mated with Streptomyces strains, the resident plasmid was mobilized to the recipient and the transferred DNA was also integrated into the recipient chromosome. Analysis of the exconjugants showed stable integration of the plasmid at a single chromosomal site (attB) of the Streptomyces genome. The DNA sequence of the chromosomal integration site was determined and shown to be conserved. However, the core sequence, where the crossover presumably occurred in C5 and S. peucetius, is TTC. These results also showed that the C31 integrative recombination is active and the phage attP site is functional in S. peucetius as well as in C5. The efficiency and specificity of C31-mediated site-specific integration of the plasmid in the presence of a 3.7-kb homologous DNA sequence indicates that integrative recombination is preferred under these conditions. The integration of plasmid DNA did not affect antibiotic biosynthesis or biosynthesis of essential amino acids. Integration of a single copy of a mutant chiC into the wild-type S. peucetius chromosome led to the production of 30-fold more chitinase.     

Organisation of the ribosomal RNA genes in Streptomyces coelicolor A3(2)

Summary Using Southern hybridisation of radiolabelled purified ribosomal RNAs to genomic DNA the ribosomal RNA genes of Streptomyces coelicolor A3(2) were shown to be present in six gene sets. Each gene set contains at least one copy of the 5 S, 16 S and 23 S sequences and in at least two cases these are arranged in the order 16 S-23S-5S. Three gene sets, rrnB, rrnD and rrnF, were isolated by screening a library of S. coelicolor A3(2) DNA. The restriction map of one of these, rrnD, was determined and the nucleotide sequences corresponding to the three rRNAs were localised by Southern hybridisation. The gene order in rrnD is 16S-23S-5S.     

Cloning with Mu d -P22 hybrid prophages: mapping of IS 200 elements on the chromosome of Salmonella typhimurium LT2

Specific DNA fragments from the chromosome of Salmonella typhimurium LT2 were packaged in P22 capsids by induction of “locked-in” Mud-P22 hybrid prophages. High yields of the packaged DNA were obtained upon capsid disruption. DNA hybridization using a fragment of insertion sequence IS200 as probe permitted physical mapping of IS200 elements on the chromosome of S. typhimurium LT2 within ±1 centisome (CS). IS200 copies were found at the following locations: CS 24 (copy VI), CS 53 (copy V), CS 63 (copy I), CS 80 (copy II) and CS 93 (copy III). Copy IV, previously mapped near fliA (CS 42), was not included in our study. Received: 28 May 1997 / Accepted: 11 August 1997     

Isolation and genetic structure of IS112, an insertion sequence responsible for the inactivation of the SalI restriction-modification system of Streptomyces albus G.

Summary IS112 is a transposable element identified in Streptomyces albus G by its frequent mutagenic insertion into the genes for the SalI restriction-modification system. IS112 is present in several copies in the genome of S. albus G. Homologous sequences were detected in other Streptomyces strains. Sequence analysis revealed that IS112 has a length of 883 by with a GC content of 67.4%. The copy that was isolated contained imperfect inverted repeats (16/20 match) at its ends and was flanked by a 2 by duplication at the target site, which was located within the gene (salIR) for the Sall endonuclease. A long open reading frame (ORF) encoding a putative polypeptide of 256-253 amino acids spans almost the entire sequence. Significant homology was detected between this polypeptide and that corresponding to ORFB of IS493, an insertion sequence recently isolated from Streptomyces lividans 66.

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Increased yield of a lysozyme after self-cloning of the gene in Streptomyces coelicolor “Müller”

Summary Streptomyces coelicolor Müller DSM3030 excretes a lysozyme comprising both -1,4-N-acetyl-and -1,4-N,6-O-diacetyl muramidase activities. The lysozyme is named Cellosyl. Gene libraries have been established using genomic DNA from the wild-type strain, S. coelicolor DSM3030, and from an overproducing mutant, S. coelicolor HP1, which exhibits about a twofold increase in lysozome production. The lysozyme-encoding genes (cel) from both strains were detected by oligodeoxynucleotide hybridization. The nucleotide sequence of the cel genes isolated from both strains was shown to be identical. The different levels of lysozyme production could not be correlated with any mutations at the cel gene locus. The cel gene isolated from the wild-type strain could not be expressed in some other species of Streptomyces. However, self-cloning of the cel gene into S. coelicolor DSM3030 and HP1 resulted in a 2.5-fold increase in lysozyme production.     

Completion of the IS map in E. coli: IS186 positions on the E. coli K12 chromosome

Summary Insertion sites of the transposable element IS186 were physically mapped in the genome of E. coli K12 strain BHB2600. This strain maintains four IS186 copies of which three, assigned to 0.3, 14.1 and 51.8 map min., share common map positions with the three IS186 copies in strains W3110 and HB101. The fourth, unique IS copy in BHB2600 maps at 49.3 min. The IS186 data complete the BHB2600 map for all chromosomal sites of known K12-associated IS types.     

Inactivation of the Serratia marcescens gene for the lipoprotein in Escherichia coli by insertion sequences, IS1 and IS5; sequence analysis of junction points

Summary A pBR322-derived plasmid pKEN221 carrying a Serratia marcescens lpp gene overproduces the outer membrane lipoprotein in an Escherichia coli lpp ^–cell. However, when this strain was continuously cultured in a rich medium for about thirty generations, many Lpp^– mutants were accumulated. Out of six mutants analyzed, three were found to carry insertion mutation in the lpp gene in pKEN221. From restriction enzyme mapping and hybridization analysis of the mutant plasmid DNA, it was found that two mutants were caused by insertion sequence IS1 and one by IS5. Nucleotide sequence analysis of these mutant DNAs revealed that both IS1 and IS5 insertions occured in the A-T rich 5 untranslated region of the lpp gene. While the IS1 insertion resulted in a direct duplication of a nine-base-pair sequence in the original pKEN221 DNA at the junction with IS1, the IS5 insertion resulted in a direct duplication of a four-base-pair sequence. IS5 was found to contain inverted-repeat sequences of twelve nucleotides at its exact ends. This is the first example of the nucleotide sequence analysis of an IS5 insertion mutation. By Southern blot hybridization, the E. coli chromosomal DNA was found to contain about ten copies of IS5.     

Cloning and characterization of a gene of Streptomyces griseus that increases production of extracellular enzymes in several species of Streptomyces.

Summary A 7.2 kbBglII restriction fragment, which increases the production of several extracellular enzymes, including alkaline phosphatase, amylase, protease, lipase and -galactosidase, was cloned inStreptomyces lividans from the DNA ofS. griseus ATCC 10137. This gene (namedsaf) showed a positive gene dosage effect on production of extracellular enzymes. When thesaf gene was introduced into cells in high copy numbers it delayed the formation of pigments and spores inS. lividans and also retarded actinorhodin production inStreptomyces coelicolor. Thesaf gene hybridized with specific bands in the DNA of severalStreptomyces strains tested. A 1 kb fragment containing thesaf gene was sequenced and contains an open reading frame (ORF) of 306 nucleotides which encodes a polypeptide of M_r 10 500. This ORF is contained within a fragment of 432 by which retained activity inStreptomyces. A fragment with promoter activity is present upstream of thesaf reading frame. The predicted Saf polypeptide has a strong positive charge, and does not show a typical amino acid composition for a membrane protein, and contains a DNA-binding domain similar to those found in several regulatory proteins.     

Characterization and complementation of a cephalosporin-deficient mutant of Streptomyces clavuligerus NRRL 3585

Summary We have characterized a mutant of Streptomyces clavuligerus NRRL 3585 which is almost completely blocked in cephalosporin biosynthesis and exhibits depressed activities of both the delta(l-alpha-aminoadipyl)-l-cysteinyl-d-valine (ACV) synthetase and cyclase enzymes of the cephalosporin pathway. A wild-type DNA region was cloned which partially restores antibiotic production, ACV synthetase and cyclase activities to this mutant. The recombinant plasmid exhibits a variable copy number in different transformants. Hybridization experiments indicate that sequences homologous to the cloned region are present in various -lactam-producing Streptomyces spp. but absent in species which are not known to produce this class of antibiotics. Furthermore, the chromosomal copy of the cloned region lies in close proximity to a gene coding for the isopenicilin N synthase gene of the cephalosphorin pathway.Offprint requests to: J. Piret