Cloning and expression in streptomyces lividans of antibiotic resistance genes derived from Escherichia coli

Isolation and draft genome sequence of Enterobacter asburiae strain i6 amenable to genetic manipulation

Enterobacter asburiae is a species of Gram-negative bacteria that is found in soil, water, and sewage. E. asburiae is generally considered to be an opportunistic pathogen, but has also been reported as a plant growth-promoting bacterium (PGPB), which may have beneficial effects on plant growth and development. However, genetic analysis of E. asburiae has been limited, possibly due to its redundant enzymes that digest exogenous DNA in the cell. Here, an E. asburiae strain i6 was isolated from soil in Nara, Japan. This strain was amenable to transformation and the one-step gene inactivation method based on λ Red recombinase. The transformation efficiency of the i6 strain with the 10 kb plasmid DNA pCF430 was at least four orders of magnitude higher than that of the previously sequenced E. asburiae strain ATCC 35953, which could not be transformed with the same plasmid DNA. A draft genome sequence of the i6 strain was determined and deposited into the database, allowing several factors that may determine transformation efficiency to be perturbed and tested. Together with the amenability of the i6 strain to genetic manipulation, the information from the i6 genome will facilitate characterization and fine-tuning of the beneficial and detrimental traits of this species.

A visualization reporter system for characterizing antibiotic biosynthetic gene clusters expression with high-sensitivity

The crisis of antibiotic resistance has become an impending global problem. Genome sequencing reveals that streptomycetes have the potential to produce many more bioactive compounds that may combat the emerging pathogens. The existing challenge is to devise sensitive reporter systems for mining valuable antibiotics. Here, we report a visualization reporter system based on Gram-negative bacterial acyl-homoserine lactone quorum-sensing (VRS-bAHL). AHL synthase gene (cviI) of Chromobacterium violaceum as reporter gene is expressed in Gram-positive Streptomyces to synthesize AHL, which is detected with CV026, an AHL deficient mutant of C. violaceum, via its violacein production upon AHL induction. Validation assays prove that VRS-bAHL can be widely used for characterizing gene expression in Streptomyces. With the guidance of VRS-bAHL, a novel oxazolomycin derivative is discovered to the best of our knowledge. The results demonstrate that VRS-bAHL is a powerful tool for advancing genetic regulation studies and discovering valuable active metabolites in microorganisms.

A quorum sensing based visualization reporter system is presented for the characterization of promoters in Gram-positive bacteria, utilizing violacein production, especially for use in the identification of secondary metabolites.

Facile assembly and fluorescence-based screening method for heterologous expression of biosynthetic pathways in fungi

Heterologous expression of multi-gene biosynthetic pathways in eukaryotic hosts is limited by highly regulated individual monocistrons. Dissimilar to prokaryotes, each eukaryotic gene is strictly controlled by its own regulatory elements, such as promoter and terminator. Consequently, parallel transcription can occur only when a group of genes is synchronously activated. A strategy to circumvent this limitation is the concerted expression of multiple genes as a polycistron. By exploiting the "stop-carry on" mechanism of picornaviruses, we have designed a sophisticated, yet easy-to-assemble vector system to heterologously express multiple genes under the control of a single promoter. For facile selection of correctly transformed colonies by basic fluorescence microscopy, our vector includes a split gene for a fluorescent reporter protein. This method was successfully applied to produce the psychotropic mushroom alkaloid psilocybin in high yields by heterologous expression of the entire biosynthetic gene cluster in the mould Aspergillus nidulans.

Beta-glucuronidase as a sensitive and versatile reporter in actinomycetes

Here we describe a versatile and sensitive reporter system for actinomycetes that is based on gusA, which encodes the β-glucuronidase enzyme. A series of gusA-containing transcriptional and translational fusion vectors were constructed and utilized to study the regulatory cascade of the phenalinolactone biosynthetic gene cluster. Furthermore, these vectors were used to study the efficiency of translation initiation at the ATG, GTG, TTG, and CTG start codons. Surprisingly, constructs using a TTG start codon showed the best activity, whereas those using ATG or GTG were approximately one-half or one-third as active, respectively. The CTG fusion showed only 5% of the activity of the TTG fusion. A suicide vector, pKGLP2, carrying gusA in its backbone was used to visually detect merodiploid formation and resolution, making gene targeting in actinomycetes much faster and easier. Three regulatory genes, plaR1, plaR2, and plaR3, involved in phenalinolactone biosynthesis were efficiently replaced with an apramycin resistance marker using this system. Finally, we expanded the genetic code of actinomycetes by introducing the nonproteinogenic amino acid N-epsilon-cyclopentyloxycarbonyl-l-lysine with the GusA protein as a reporter.

Expression of a streptomycete leaderless mRNA encoding chloramphenicol acetyltransferase in Escherichia coli

The chloramphenicol acetyltransferase (cat) gene from Streptomyces acrimycini encodes a leaderless mRNA. Expression of the cat coding sequence as a leaderless mRNA from a modified lac promoter resulted in chloramphenicol resistance in Escherichia coli. Transcript mapping with nuclease S1 confirmed that the 5' end of the cat message initiated at the A of the AUG translational start codon. Site-directed mutagenesis of the lac promoter or the cat start codon abolished chloramphenicol resistance, indicating that E. coli initiated translation at the 5' terminal AUG of the cat leaderless mRNA. Addition of 5'-AUGC-3' to the 5' end of the cat mRNA resulted in translation occurring also from the reading frame defined by the added AUG triplet, suggesting that a 5'-terminal start codon is an important recognition feature for initiation and establishing reading frame during translation of leaderless mRNA. Addition of an untranslated leader and Shine-Dalgarno sequence to the cat coding sequence increased cat expression in a cat:lacZ fusion; however, the level of expression was significantly lower than when a fragment of the bacteriophage lambda cI gene, also encoding a leaderless mRNA, was fused to lacZ. These results indicate that in the absence of an untranslated leader and Shine-Dalgarno sequence, the streptomycete cat mRNA is translated by E. coli; however, the cat translation signals, or other features of the cat mRNA, provide for only a low level of expression in E. coli.

Streptomyces lividans 66 contains a gene for phage resistance which is similar to the phage lambda ea59 endonuclease gene

The DNA of wild-type Streptomyces lividans 66 is degraded during electrophoresis in buffers containing traces of ferrous iron. S. lividans ZX1, a mutant selected for resistance to DNA degradation, simultaneously became sensitive to phi HAU3, a wide-host-range temperate bacteriophage. A DNA fragment conferring phi HAU3 resistance was cloned; it contains a phage resistance gene whose deduced amino acid sequence is similar to the phage lambda Ea59 endonuclease. The S. lividans phi HAU3 resistance does not seem to be a classical restriction-modification system, because no host-modified phages able to propagate on the wild-type strain could be isolated. The cloned fragment did not make the host DNA prone to degradation during electrophoresis, indicating that the two phenotypes are controlled by different genes which were deleted together from the chromosome of ZX1.

Transferable Streptomyces DNA amplification and coamplification of foreign DNA sequences

The 8.8-kb amplifiable unit of DNA of Streptomyces achromogenes subsp. rubradiris, AUD-Sar 1, which carries 0.8-kb terminal direct repeats and a spectinomycin resistance determinant, can mediate high-level amplification of an AUD-Sar 1-derived 8.0-kb DNA sequence not only in S. achromogenes but also in the heterologous host Streptomyces lividans. This was seen upon introduction of AUD-Sar 1 into chloramphenicol-sensitive strains of S. lividans via the temperature-sensitive (39 degrees C) plasmid pMT660, which contains the thiostrepton resistance gene tsr. Following the cultivation of transformants at 39 degrees C on media containing spectinomycin, a number of strains which were unable to grow on thiostrepton and which carried the amplified 8.0-kb DNA sequence as arrays of 200 to 300 copies of tandem 8.0-kb repeats were found. Chloramphenicol-resistant strains of S. lividans did not yield amplified sequences under similar conditions. Studies with plasmids carrying inserted antibiotic resistance genes at two sites of AUD-Sar 1 yielded coamplified sequences which contain the inserted DNA. Transformation with a plasmid carrying a 1.0-kb deletion in AUD-Sar 1 followed by growth under similar conditions yielded a 7.0-kb repeated DNA sequence. Southern analysis revealed the absence of vector sequences located on the right side of AUD-Sar 1 in the input plasmids in all examined DNA samples of amplified strains. In contrast, a majority of the samples revealed the presence at unit copy level of AUD-Sar 1 left-adjacent sequences which are part of the input plasmids and in several samples the presence of certain vector sequences located near them. The results suggest input plasmid integration into the S. lividans chromosome prior to the generation of the amplified sequences and the deletion of AUD-Sar 1 adjacent sequences.

In vivo translational start site selection on leaderless mRNA transcribed from the Streptomyces fradiae aph gene

The message of the Streptomyces fradiae aph gene lacks a leader sequence and therefore is translated in the absence of a conventional Shine-Dalgarno interaction between mRNA and 30S ribosomal subunits. Insertion mutations generating short leaders of 2 or 4 nucleotides on the 5' end of the aph transcript reduced translational efficiency. A 4-base leader (5'-AUGC-3') placing a potential out-of-frame start codon immediately upstream of the aph coding sequence prevented detectable translation in the aph reading frame. The upstream AUG in this mutant was able to drive the expression of a reporter gene in a translational fusion vector, implying that this start codon was utilized in favor of the downstream AUG. Additional leaders (5'-AUAUGC-3' or 5'-CAUAUGC-3') placing 2 or 3 nucleotides 5' to the upstream AUG relieved this apparent discrimination, permitting translation of the APH protein from the downstream AUG. These results suggest that the position of a start codon with respect to the 5' terminus of aph mRNA is a determinant of translational efficiency and start site selection.

Review of the Streptomyces lividans/vector pIJ702 system for gene cloning

Interest in the biology of the Streptomyces and application of these soil bacteria to production of commercial antibiotics and enzymes has stimulated the development of efficient cloning techniques and a variety of streptomycete plasmid and phage vectors. Streptomyces lividans is routinely employed as a host for gene cloning, largely because this species recognizes a large number of promoters and appears to lack a restriction system. Vector pIJ702 was constructed from a variant of a larger autonomous plasmid and is often used as a cloning vehicle in conjunction with S. lividans. The host range of vector pIJ702 extends beyond Streptomyces spp., and its high copy number has been exploited for the overproduction of cloned gene products. This combination of host and vector has been used successfully to investigate antibiotic biosynthesis, gene structure and expression, and to map various Streptomyces mutants.

Protein synthesis in vitro by Micrococcus luteus

Bacillus subtilis and related gram-positive bacteria which have low to moderate genomic G + C contents are unable to efficiently translate mRNA derived from gram-negative bacteria, whereas Escherichia coli and other gram-negative bacteria are able to translate mRNA from both types of organisms. This phenomenon has been termed translational species specificity. Ribosomes from the low-G + C-content group (low-G + C group) of gram-positive organisms (B. subtilis and relatives) lack an equivalent to Escherichia ribosomal protein S1. The requirement for S1 for translation in E. coli (G. van Dieijen, P. H. van Knippenberg, J. van Duin, B. Koekman, and P. H. Pouwels, Mol. Gen. Genet. 153:75-80, 1977) and its specific role (A.R. Subramanian, Trends Biochem. Sci. 9:491-494, 1984) have been proposed. The group of gram-positive bacteria characterized by high genomic G + C content (formerly Actinomyces species and relatives) contain S1, in contrast to the low-G + C group (K. Mikulik, J. Smardova, A. Jiranova, and P. Branny, Eur. J. Biochem. 155:557-563, 1986). It is not known whether members of the high-G + C group are translationally specific, although there is evidence that one genus, Streptomyces, can express Escherichia genes in vivo (M. J. Bibb and S. N. Cohen, Mol. Gen. Genet. 187:265-277, 1985; J. L. Schottel, M. J. Bibb, and S. N. Cohen, J. Bacteriol. 146:360-368, 1981). In order to determine whether the organisms of this group are translationally specific, we examined the in vitro translational characteristics of a member of the high-G + C group, Micrococcus luteus, whose genomic G + C content is 73%. A semipurified coupled transcription-translation system of M. luteus translates Escherichia mRNA as well as Bacillus and Micrococcus mRNA. Therefore, M. luteus is translationally nonspecific and resembles E. coli rather than B. subtilis in its translational characteristics.

Construction of a shuttle vector consisting of the Escherichia coli plasmid pACYC177 inserted into the Streptomyces cattleya phage TG1

The Escherichia coli plasmid, pACYC177, was inserted into the single PstI site of a deletion derivative of the Streptomyces cattleya phage, TG1. The hybrid molecule can be propagated as a phage in S. cattleya and as a plasmid in E. coli and is readily transferred between the two species by transfection and transformation. The kanamycin-resistance-encoding gene derived from pACYC177 is not expressed in lysogens of the hybrid phage. Analysis of deletion mutants of the hybrid phage indicated that at least 7.5 kb of phage DNA is dispensable. Some of the deletion mutants fail to lysogenize S. cattleya (Lyg- phenotype). The locations of these deletions are consistent with the location of the phage att site as previously established by Southern hybridization analysis. The thiostrepton-resistance-encoding gene derived from Streptomyces azureus was inserted into Lyg+ and Lyg- deletion derivatives and is expressed in S. cattleya.

Analysis of the promoter region of the melanin locus from Streptomyces antibioticus

Several approaches were used to study the transcriptional control region of the melanin-production locus (melC) of Streptomyces antibioticus. Filter-binding in combination with exonuclease III protection localized the 3' boundary of a Streptomyces RNA polymerase-binding site predominantly about 39 nucleotides (nt) upstream from the start codon of melC1, the first open reading frame in the melC locus. Deletion of nt 112-197 upstream from the melC1 start codon reduced melC expression to less than 10%, and deletion of nt 28-107 or 28-120 upstream from melC1 totally inactivated melC. High-resolution nuclease S1 mapping identified the in vitro transcriptional start point (tsp) at 33-34 nt upstream from the start codon of melC1. No sequence resembling the E. coli consensus promoter sequence was found in this region, and site-directed mutagenesis of such a sequence located 101-132 nt upstream from melC1 did not influence melC expression. These studies suggest that transcription of melC is principally from a single tsp and is positively regulated by a mechanism that involves sequences 87-163 nt upstream from the tsp.

Unusual transcriptional and translational features of the aminoglycoside phosphotransferase gene (aph) from Streptomyces fradiae

The aminoglycoside phosphotransferase gene (aph) from the neomycin producer Streptomyces fradiae encodes an enzyme (APH) that phosphorylates, and thereby inactivates, the antibiotic neomycin. Two promoters were identified upstream of and oriented toward the aph coding sequence. One promoter (aphp1) initiated transcription at the A of the ATG translational initiation codon, or one to two bases upstream. Mutations made in this promoter region identified functionally important nucleotides and verified that the aphp1 transcript was translated to yield the APH protein, despite the lack of a conventional ribosome binding site. A second aph promoter, aphp2, initiated transcription 315 bp upstream of the translational initiation codon but gave transcripts that appeared to terminate before reaching the coding sequence. Multiple transcriptional initiation sites (pA1-pA5) were identified also in the aph regulatory region oriented in the opposite direction to aph transcription. Promoters for the pA2 and pA4 transcripts overlap with aphp1 such that down-promoter mutations in aphp1 also reduce transcription from the overlapping pA promoters.

Construction and shuttling of novel bifunctional vectors for Streptomyces spp. and Escherichia coli

Shuttle vectors for gene transfer between Streptomyces spp. and Escherichia coli have been constructed by fusion of an artificial multicopy E. coli replicon and DNA fragments of pIJ702. Stable transfer to Streptomyces lividans was obtained. Marked differences in transformation efficiency were observed when plasmid DNA isolated from E. coli GM119 was used instead of that from strain HB101.

Development of pLR591, a Streptomyces-Escherichia coli positive selection shuttle vector

The Escherichia coli positive selection vector pEcoR251 was ligated with the broad host range, high copy number Streptomyces plasmid pIJ702 to produce pLR591, a Streptomyces-E. coli positive selection shuttle vector. The EcoRI and thiostrepton resistance genes of pLR591 were expressed in E. coli and Streptomyces lividans respectively. The positive selection shuttle vector pLR591 facilitates the construction in E. coli of genomic libraries which can be screened in Streptomyces strains.

Nucleotide sequence of the gene for cholesterol oxidase from a Streptomyces sp

The nucleotide sequence of a 2.1-kilobase-pair fragment containing the Streptomyces choA gene, which codes a secreted cholesterol oxidase, was determined. A single open reading frame encodes a mature cholesterol oxidase of 504 amino acids, with a calculated Mr of 54,913. The leader peptides extend over 42 amino acids and have the characteristics of a signal sequence, including basic amino acids near the amino terminus and a hydrophobic core near the signal cleavage site. Analyses of the total amino acid composition and amino acid sequencing of the first 21 amino acids from the N terminus of the purified extracellular enzyme agree with the values deduced from nucleotide sequencing data.

Nucleotide sequence of the ribostamycin phosphotransferase gene and of its control region in Streptomyces ribosidificus

The nucleotide sequence of an aminoglycoside phosphotransferase gene (rph) from Streptomyces ribosidificus (a ribostamycin producer) was determined. Molecular size, amino acid composition and N-terminal amino acid sequence of the purified rph product confirmed the position of the coding region deduced from the nucleotide sequence. The 5' region of rph has been tested for its transcriptional controls; high-resolution mung-bean nuclease mapping of in vivo transcripts revealed one major start point, rphS1, controlled by the rphP1 promoter. This transcript was also observed in vitro in run-off experiments using purified Streptomyces RNA polymerase. This transcriptional start point coincided with the translational start site, with the mRNA 5' terminus being pppATG. The results of promoter-probing tests and insertion of a transcriptional termination fragment into the rph promoter region have shown that the rphP1 transcript was sufficient and essential for rph expression.

Transformation of Arthrobacter and studies on the transcription of the Arthrobacter ermA gene in Streptomyces lividans and Escherichia coli

We report the development of a plasmid-mediated transformation system for Arthrobacter sp. NRRLB3381, using the Streptomyces cloning vector pIJ702. Our procedure gives a transformation frequency of 10(3)/micrograms of plasmid DNA. In addition we have explored the expression of the Arthrobacter ermA gene in Streptomyces lividans and Escherichia coli, and shown that the ermA promoter is recognized in S. lividans not E. coli. The relationship between Arthrobacter, Streptomyces and E. coli promoters is discussed.

Cloning and expression in Escherichia coli of a hygromycin B phosphotransferase gene from Streptomyces hygroscopicus

The Streptomyces hygroscopicus hyg gene encoding a hygromycin B phosphotransferase has been introduced into different sites of both the Escherichia coli plasmid pBR322 and the Escherichia coli-Saccharomyces cerevisiae shuttle vector YRp7. When this gene was inserted into the BamHI site of pBR322 and then cloned in E. coli phosphorylating activity was not detected, indicating that the hyg gene promoter was not functional in this bacterium. However, when the hyg gene was inserted into either the unique PstI site of pBR322 or into each of the two PstI sites of YRp7, phosphotransferase activity was observed. Analysis of the translation products from these constructions by coupled in vitro transcription-translation systems suggested that in all cases transcrition was regulated by a promoter not provided by the inserted hyg gene and that the synthesized polypeptide was identical to that present in S. hygroscopicus.

Cloning and expression of a Streptomyces cholesterol oxidase gene in Streptomyces lividans with plasmid pIJ702

The cholesterol oxidase gene (cho) of Streptomyces sp. was cloned into Streptomyces lividans with the vector pIJ702. Deletion analysis of the recombinant plasmid showed that entire coding sequence of the cho gene was located within a 2.5-kilobase segment of the chromosomal DNA obtained from the cholesterol oxidase-producing strain. When cloned cells of S. lividans were grown in an appropriate medium, the cells produced severalfold more cholesterol oxidase extracellularly than did the producing strain.

A cell-free system from Rhizobium meliloti to study the specific expression of nodulation genes

An in vitro transcription-translation system was developed using cell-free extracts from the symbiotic nitrogen-fixing bacterium Rhizobium meliloti strain 41. Conditions for preparation of the 30,000 X g supernatant extract and for measurement of protein-synthesizing activity were determined and compared to the activity of an Escherichia coli cell-free system. Genes expressed in the free-living or in the symbiotic state were studied. The product of a recA-like gene (41-kDa protein) was synthesized both in R. meliloti and E. coli extracts, although less efficiently in the heterologous system. In agreement with earlier results obtained in E. coli minicells, three proteins (44, 28.5 and 23 kDa) were synthesized from a cloned 3.3 X 10(3)-base DNA region carrying genes for nodulation (nod). However, differences in the transcription-translation of nod and host specificity (hsn) genes were observed when protein expression was compared in R. meliloti and E. coli cell-free extracts, and the possible explanations of these findings are discussed.

Construction and characterisation of a series of multi-copy promoter-probe plasmid vectors for Streptomyces using the aminoglycoside phosphotransferase gene from Tn5 as indicator

Several versatile, multi-copy, promoter-probe plasmid vectors have been constructed that replicate in a wide range of Streptomyces species. Transcriptional activity is detected by the expression of a promoter-less aminoglycoside phosphotransferase gene (neo) derived from the transposon Tn5; expression of this gene confers kanamycin and neomycin resistance on Streptomyces lividans. An efficient transcriptional terminator from E. coli phage fd has been inserted upstream of the neo coding region to prevent significant transcriptional read-through from vector promoters. A translational stop codon situated downstream from the site(s) used for cloning and preceding and in frame with the ATG start codon of the neo gene ensures the detection of transcriptional, rather than translational, fusions. Relative promoter strengths can be determined by gradient plate assays of kanamycin resistance, by measuring the amount of aminoglycoside phosphotransferase produced or by estimating neo mRNA synthesised. The high copy number of the vectors facilitates the rapid isolation and characterisation of promoter-active fragments and convenient restriction sites are available for DNA sequencing and S1 mapping of cloned inserts. Some derivatives contain a polylinker that facilitates the insertion, excision and analysis of cloned fragments and which enhances the use of these plasmids as general cloning vectors.

Identification and localization of pre-s-encoded polypeptides from woodchuck and ground squirrel hepatitis viruses

A segment from the pre-s region of the woodchuck hepatitis virus (WHV) was inserted into an open reading frame vector allowing for the expression in Escherichia coli of viral determinants as part of a fusion protein. The bacterially synthesized fusion molecule contained eight amino acids from beta-galactosidase (beta-gal) at the N terminus, followed by 89 pre-s-encoded amino acids and 219 amino acids of chloramphenicol acetyltransferase (CAT) at the C terminus (beta-gal:pre-s:CAT). This tribrid protein was used to generate antiserum which had a significant titer to the viral portion of the fusion polypeptide. Anti-beta-gal:pre-s:CAT was used in Western blot analysis to identify viral proteins containing pre-s-encoded determinants. Antiserum to the tribrid molecule recognized four WHV polypeptides with molecular masses of 33, 36, 45, and 47 kilodaltons, each of which was also recognized by a monoclonal antibody to WHV surface antigen. Using the same anti-tribrid serum, we also identified analogous polypeptides from ground squirrel hepatitis virus. The antiserum was also used to immunoprecipitate virus particles containing endogenous DNA polymerase activity, indicating that pre-s determinants are found on the surface of mature virions. Based on previous computer studies and the location of pre-s-encoded molecules on the surface of virus particles, a role in hepadnavirus host cell entry is suggested for these polypeptides.

Hepatitis B virus polypeptide X: expression in Escherichia coli and identification of specific antibodies in sera from hepatitis B virus-infected humans

Sequence analysis of the hepatitis B virus (HBV) genome revealed the presence of an open reading frame (ORF X) which has the potential to encode a 154-amino acid polypeptide. A fusion protein containing 145 of the amino acids encoded by ORF X and 8 amino acids of beta-galactosidase was expressed and characterized in bacterial extracts. Immunoprecipitations with the ORF X fusion protein as a radioactively labeled antigen were performed to screen sera of humans infected with HBV for the presence of antibodies against ORF X-encoded determinants (anti-X). Such antibodies were identified in 9 samples from a set of 26 sera characterized as positive for HBV surface antigen but were not found in 16 normal human sera. The data reported here demonstrate that sera from some patients with markers of HBV infection contain antibodies directed against the polypeptide encoded by ORF X. As such, these findings represent evidence that ORF X constitutes a gene, or a portion of a gene, which is expressed during HBV infection. Although there does not appear to be a direct relationship between anti-X and any individual markers of HBV infection, our data suggest that anti-X is more prevalent in HBV-positive sera containing antibodies to HBe3 antigen (anti-HBe3).

Cloning and expression in biologically active form of the gene for human interferon alpha 2 in Streptomyces lividans

A fragment of human DNA encoding the mature form of interferon alpha 2 (hIFN-alpha 2), and carrying both an in-phase ATG initiation codon and the ribosome binding site (RBS) of the Escherichia coli membrane lipoprotein gene (lpp), was fused to the aminoglycoside phosphotransferase gene (aph) promoter (aphP) from Streptomyces fradiae. When this construction was inserted, in the two possible orientations, in the Streptomyces plasmid pIJ702, plasmids pNIS19 and pNIS91 were obtained. A 20-kDa polypeptide that immunoreacted with an hIFN-alpha 2 monoclonal antibody was expressed in S. lividans clones carrying these plasmids. Moreover, these clones contained an intracellular antiviral activity similar to that of hIFN-alpha 2. When plasmids pNIS19 and pNIS91 were deprived of the aphP no expression of activity was found. Therefore, it is concluded that the hIFN gene can be efficiently expressed in Streptomyces as directed by the aph gene promoter.

Efficient plasmid transformation of Streptomyces ambofaciens and Streptomyces fradiae protoplasts

A procedure for efficient transformation of Streptomyces ambofaciens and Streptomyces fradiae protoplasts with plasmid DNA was developed. Transformation frequencies with S. fradiae protoplasts were strongly influenced by the temperatures for cell growth, protoplast formation, and protoplast regeneration. Transformation frequencies for both species were also influenced by the culture age before protoplast formation, the source and concentration of polyethylene glycol, the transformation-inducing agent, the concentration of protoplasts used in the transformation procedure, and the number of protoplasts added to regeneration plates. Transformation frequencies were substantially higher for both species when calf thymus DNA and protamine sulfate were added to the transformation mix. With S. fradiae, transformation frequencies were much lower with plasmid DNA prepared from other species than with the same plasmids prepared from S. fradiae, suggesting that S. fradiae expresses restriction and modification. With the modified transformation procedures using DNA prepared from homologous hosts, S. ambofaciens and S. fradiae are now transformed routinely at frequencies of 10(6) to 10(7) transformants per micrograms of plasmid DNA.

Nucleotide sequences encoding and promoting expression of three antibiotic resistance genes indigenous to Streptomyces

Promoter-probe plasmid vectors were used to isolate putative promoter-containing DNA fragments of three Streptomyces antibiotic resistance genes, the rRNA methylase (tsr) gene of S. azureus, the aminoglycoside phosphotransferase (aph) gene of S. fradiae, and the viomycin phosphotransferase (vph) gene of S. vinaceus. DNA sequence analysis was carried out for all three of the fragments and for the protein-coding regions of the tsr and vph genes. No sequences resembling typical E. coli promoters or Bacillus vegetatively-expressed promoters were identified. Furthermore, none of the three DNA fragments found to be transcriptionally active in Streptomyces could initiate transcription when introduced into E. coli. An extremely biased codon usage pattern that reflects the high G + C composition of Streptomyces DNA was observed for the protein-coding regions of the tsr and vph genes, and of the previously sequenced aph gene. This pattern enabled delineation of the protein-coding region and identification of the coding strand of the genes.

DNA-directed in vitro synthesis and assembly of the form II D-ribulose-1,5-bisphosphate carboxylase/oxygenase from Rhodopseudomonas sphaeroides

A biochemical analysis of the in vitro assembly of the form II ribulose-1,5-bisphosphate carboxylase/oxygenase from Rhodopseudomonas sphaeroides after transcription and translation from cloned DNA is presented. The predominant enzymatically active oligomeric forms of the in vitro-synthesized and -assembled ribulose-1,5-bisphosphate carboxylase are tetramers and hexamers. Assembly of the monomeric subunits to form active enzyme appears to be dependent on the presence of a minimum number of subunits in the cell extract. Assembly of ribulose-1,5-bisphosphate carboxylase also was observed when the protein-synthesizing extracts were prepared from cells which were partially derepressed for ribulose-1,5-bisphosphate carboxylase expression.

Cloning and analysis of the promoter region of the erythromycin resistance gene (ermE) of Streptomyces erythraeus

A DNA fragment containing the coding and regulatory sequences of the erythromycin (Er) resistance (ermE) gene of the Er produces Streptomyces erythraeus was cloned in Streptomyces lividans using the plasmid vector pIJ61. The approximate location and orientation of ermE were deduced from studies of its expression after subcloning in Escherichia coli. Sequences responsible for transcription of ermE in Streptomyces were studied by nucleotide (nt) sequencing, high resolution S1 and exonuclease VII mapping, in vitro transcription and in vivo promoter-probing. Tandemly arranged promoters of typical prokaryotic appearance initiate transcription of the coding region of ermE; a promoter of similar sequence was identified that initiates transcription of a likely coding region running in the opposite direction to ermE. It is suggested that these sites represent a class of vegetatively expressed Streptomyces promoter that is utilised by a form of RNA polymerase holoenzyme that also recognizes typical promoters of other bacterial genera.

Cloning of a chloramphenicol acetyltransferase gene of Streptomyces acrimycini and its expression in Streptomyces and Escherichia coli

A gene (cat) for chloramphenicol (Cm) acetyltransferase (CAT) was cloned from Streptomyces acrimycini into S. lividans 66 on the plasmid vector pIJ61. The cat gene was localized on a 1.7-kb BclI fragment, which probably also carries the cat promoter. This DNA fragment conferred Cm resistance, through CAT activity, on S. lividans, S. coelicolor and S. parvulus, but not on Escherichia coli when inserted in the BamHI site of the tetracycline-resistance(TcR) gene of pBR322. However, when inserted in a particular orientation in this site, spontaneous deletions of 0.7 kb led to CAT activity and Cm resistance. DNA homologous to the 1.7-kb BclI cat fragment was found in most, but not all, of a series of other streptomycetes that have CAT activity. The cat provides a potentially useful screening marker for Streptomyces cloning vectors.

Codon usage can affect efficiency of translation of genes in Escherichia coli

By inserting synthetic oligonucleotides into a highly expressed gene in E. coli it has been shown that unfavourable codon usage can reduce the maximum translation rate of a protein. However, in the case of the codon used (AGG), a significant effect on translation was only seen at very high transcription rates from a gene containing multiple copies of the unfavourable codon.

Plasmid formation in Streptomyces: excision and integration of the SLP1 replicon at a specific chromosomal site

We present data showing that the SLP1 plasmids found in Streptomyces lividans after mating with S. coelicolor strain A3(2) originate as deletion mutants of a 17 kb segment of the S. coelicolor chromosome. Excision of the entire 17 kb segment yields a transiently existing plasmid containing a site for integration into the chromosome of recipient SLP1- S. lividans strains at a unique locus that corresponds to the original chromosomal location of SLP1 in S. coelicolor. The deletion mutants of SLP1 lack the attachment site and/or other regions required for its integration, and thus persist in the recipient as autonomously replicating plasmids. Plasmids that contain the complete 17 kb sequence of the chromosomally integrated SLP1 segment were constructed in vitro by circularization of restriction endonuclease-generated fragments of chromosomal DNA carrying a tandemly-duplicated integrant of SLP1. Transformation of an SLP1- S. lividans strain with such plasmids results in chromosomal integration of the SLP1 sequence at the same site at which it is integrated in S. lividans cells that acquire the sequence by mating with S. coelicolor. A model for the site-specific excision and integration of SLP1 is presented.

Restriction of bacteriophage plaque formation in Streptomyces spp

Several Streptomyces species that produce restriction endonucleases were characterized for their ability to propagate 10 different broad host range bacteriophages. Each species displayed a different pattern of plaque formation. A restrictionless mutant of S. albus G allowed plaque formation by all 10 phages, whereas the wild-type strain showed plaques with only 2 phages. DNA isolated from three of the phages was analyzed for the presence of restriction sites for Streptomyces species-encoded enzymes, and a very strong correlation was established between the failure to form plaques on Streptomyces species that produced particular restriction enzymes and the presence of the corresponding restriction sites in the phage DNA. Also, the phages that lacked restriction sites in their DNA generally formed plaques on the corresponding restriction endonuclease-producing hosts at high efficiency. The DNAs from the three phages analyzed also generally contained either many or no restriction sites for the Streptomyces species-produced enzymes, suggesting a strong evolutionary trend to either eliminate all or tolerate many restriction sites. The data indicate that restriction plays a major role in host range determination for Streptomyces phages. Analysis of bacteriophage host ranges of many other uncharacterized Streptomyces hosts has identified four relatively nonrestricting hosts, at least two of which may be suitable hosts for gene cloning. The data also suggest that several restriction systems remain to be identified in the genus Streptomyces.

Coupled transcription--translation in extracts of Streptomyces lividans

A coupled transcription-translation system has been developed using extracts of Streptomyces lividans. Analysis by polyacrylamide gel electrophoresis revealed that proteins of the expected sizes were produced in systems programmed by pBR 322 or the Streptomyces plasmid pIJ 350. Also, linear forms of these plasmids retained template activity with no apparent loss of fidelity.

Effects of alterations in the translation control region on bacterial gene expression: use of cat gene constructs transcribed from the lac promoter as a model system

The region controlling translation of the cat gene, which codes for chloramphenicol acetyltransferase, has been varied structurally in a series of plasmids that place the gene under control of the lac promoter. These plasmid constructs have enabled study of the structural features that affect the efficiency of mRNA translation. Altering the potential for secondary structure formation within the translation control region caused a tenfold variation in the synthesis of CAT enzyme, whereas varying the distance between the Shine-Dalgarno sequence (SD) and the translation start codon from 7 to 13 bases did not significantly affect the yield of CAT. If the SD was situated in a region of mRNA that is capable of base pairing, the efficiency of translation was decreased; however, the translation start codon, AUG, can initiate translation efficiently even when located in a segment capable of duplex formation. Overlapping of the cat translation control region by translation initiated upstream markedly affected initiation of translation within the cat gene: out-to-frame overlapping translation reduced CAT production by 90%; in-frame overlapping translation prevented detectable initiation of protein synthesis at the cat gene translation start codon, and yielded only fusion proteins. The enzymatic activity of such proteins was influenced by the length of the adventitious peptide segment added to the amino-terminus of the CAT polypeptide.

Restriction endonuclease mapping and cloning of Mycobacterium intracellulare plasmid pLR7

A restriction map of Mycobacterium intracellulare plasmid pLR7 was developed. This 15.3-kb plasmid had unique sites for BamHI, HindIII, and XbaI. Various large fragments of pLR7 were cloned into pBR322 or pHP34 and propagated in Escherichia coli. A hybrid pLR7 ::pBR322 plasmid carrying the complete pLR7 sequence was constructed by joining the plasmids at their HindIII sites. The construction of these hybrids will facilitate the analysis and manipulation of pLR7 and may allow the development of this plasmid as a model system for genetic analysis in mycobacteria.

Physical and genetic analyses of streptococcal plasmid pAM beta 1 and cloning of its replication region

Plasmid pAM beta 1, originally isolated from Streptococcus faecalis DS5, mediates resistance to the MLS (macrolide, lincosamide, and streptogramin B alpha) group of antibiotics. A restriction endonuclease map of the 26.5-kilobase (kb) pAM beta 1 molecule was constructed by using the enzymes AvaI, HpaII, EcoRI, PvuII, Kpn1, BstEII, HpaI, HhaI, and HindIII. A comparison of this map to those of four independently isolated deletion derivatives of pAM beta 1 located the MLS resistance determinant within a 2-kb DNA segment and at least one conjugative function within an 8-kb region. The 5.0-kb EcoRI-B fragment from pAM beta 1 was ligated onto the 4.0-kb Escherichia coli plasmid vector, pACKC1, and used to transform E. coli HB101. The 9.0-kb chimeric plasmid was then used to transform Streptococcus sanguis Challis with concurrent expression of the E. coli kanamycin resistance determinant. The 5.0-kb EcoRI-B fragment from pAM beta 1 was subsequently used as a vector to clone a streptomycin resistance determinant from a strain of Streptococcus mutans containing no detectable plasmid DNA. Subcloning experiments, using a HindIII partial digest of pAM beta 1 DNA, narrowed the replication region of this plasmid to a 2.95-kb fragment.

Gene cloning in the actinomycetes

The production of antibiotics by soil-borne micro-organisms, the actinomycetes, has considerable economic importance. The manipulation of antibiotic producers has become a prime target for the application of recombinant DNA technology. Certain technical requirements have had to be met for gene cloning to be successful in the actinomycetes. These requirements, including the development of cloning vectors and transformation procedures, have been satisfied, in part, for some members of the Streptomyces genus. Some problems including sequence rearrangement and stability of plasmid maintenance are now being recognized. A number of genes have been cloned in Streptomyces and some preliminary results characterizing the gene for a Streptomyces-derived beta-galactosidase-like activity were described.

Expression in Streptomyces ambofaciens of an Escherichia coli K-12 gene which confers resistance to hygromycin B

We have constructed two plasmid vectors (pKC293 and pKC305) that can replicate in Escherichia coli K-12 and Streptomyces ambofaciens. These shuttle vectors were used to demonstrate the expression of two E. coli genes, hygromycin B (Hm) resistance and Tn5 neomycin (Nm) resistance, in S. ambofaciens.

Nucleotide sequence of a streptomycete aminoglycoside phosphotransferase gene and its relationship to phosphotransferases encoded by resistance plasmids

The DNA sequence of an aminoglycoside phosphotransferase gene (aph) from Streptomyces fradiae ATCC 10745 (a neomycin producer) was determined. The gene was localized by in vitro subcloning and insertional inactivation. Molecular weight, amino acid composition, and amino-terminal analysis of the purified aph gene product confirmed the accuracy and position of the aph gene sequence. Pairwise comparisons of S. fradiae aph with the aph genes encoded by bacterial transposons Tn5 and Tn903 showed significant nucleotide and amino acid homologies which indicated a common evolutionary origin for these antibiotic-resistance genes.