Characterisation of actI-homologous DNA encoding polyketide synthase genes from the monensin producer Streptomyces cinnamonensis

Summary Cloned DNA encoding polyketide synthase (PKS) genes from one Streptomyces species was previously shown to serve as a useful hybridisation probe for the isolation of other PKS gene clusters from the same or different species. In this work, the actI and actIII genes, encoding components of the actinorhodin PKS of Streptomyces coelicolor, were used to identify and clone a region of homologous DNA from the monensin-producing organism S. cinnamonensis. A 4799 by fragment containing the S. cinnamonensis act-homologous DNA was sequenced. Five open reading frames (ORFs 1–5) were identified on one strand of this DNA. The five ORFs show high sequence similarities to ORFs that were previously identified in the granaticin, actinorhodin, tetracenomycin and whiE PKS gene clusters. This allowed the assignment of the following putative functions to these five ORFS : a heterodimeric -ketoacyl synthase (ORF1 and ORF2), an acyl carrier protein (ORF3), a -ketoacyl reductase (ORF5), and a bifunctional cyclase/dehydrase (ORF4). The ORFs are encoded in the order ORFl-ORF2-ORF3-ORF5-ORF4, and ORFs-1 and -2 show evidence for translational coupling. This act-homologous region therefore appears to encode a PKS gene cluster. A gene disruption experiment using the vector pGM 160, and other evidence, suggests that this cluster is not essential for monensin biosynthesis but rather is involved in the biosynthesis of a cryptic aromatic polyketide in S. cinnamonensis. An efficient plasmid transformation system for S. cinnamonensis has been established, using the multicopy plasmids pWOR120 and pWOR125.     

Targeted gene inactivation for the elucidation of deoxysugar biosynthesis in the erythromycin producer Saccharopolyspora erythraea

The production of erythromycin A by Saccharopolysporaerythraea requires the synthesis of dTDP-D-desosamine and dTDP-L-mycarose, which serve as substrates for the transfer of the two sugar residues onto the macrolactone ring. The enzymatic activities involved in this process are largely encoded within the ery gene cluster, by two sets of genes flanking the eryA locus that encodes the polyketide synthase. We report here the nucleotide sequence of three such ORFs located immediately downstream of eryA, ORFs 7, 8 and 9. Chromosomal mutants carrying a deletion either in ORF7 or in one of the previously sequenced ORFs 13 and 14 have been constructed and shown to accumulate erythronolide B, as expected for eryB mutants. Similarly, chromosomal mutants carrying a deletion in either ORF8, ORF9, or one of the previously sequenced ORFs 17 and 18 have been constructed and shown to accumulate 3-α-mycarosyl erythronolide B, as expected for eryC mutants. The ORF13 (eryBIV ), ORF17 (eryCIV ) and ORF7 (eryBII ) mutants also synthesised small amounts of macrolide shunt metabolites, as shown by mass spectrometry. These results considerably strengthen previous tentative proposals for the pathways for the biosynthesis of dTDP-D-desosamine and dTDP-L-mycarose in Sac. erythraea and reveal that at least some of these enzymes can accommodate alternative substrates. Received: 29 July 1997 / Accepted: 16 October 1997     

Gene cluster for biosynthesis of thermophilin 1277--a lantibiotic produced by Streptococcus thermophilus SBT1277, and heterologous expression of TepI, a novel immunity peptide

Aims: To identify genes cluster for thermophilin 1277 produced by Streptococcus thermophilus SBT1277. Methods and Results: To identify genes for thermophilin 1277 production, the chromosomal DNA region surrounding the structural gene, tepA, was sequenced using a primer‐walking method. The thermophilin 1277 biosynthesis gene locus (tep) is a 9·9‐kb region, which consists of at least ten open reading frames (ORFs) in the following order: tepAMTFEGKRI and ORF4. Homology analysis showed high similarity to genes involved in bovicin HJ50 production by Streptococcus bovis HJ50. tepI encodes a novel, small, positively charged hydrophobic peptide of 52 amino acids, which contains a putative transmembrane segment. By heterologous expression in Lactococcus lactis ssp. cremoris MG1363, the TepI‐expressing strain exhibited at least 1·3 times higher resistance to thermophilin 1277. Conclusions: Thermophilin 1277 biosynthesis genes were encoded by a 9·9‐kbp region containing at least ten ORFs. TepI is a novel immunity peptide, which protected Strep. thermophilus SBT1277 against thermophilin 1277 in addition to TepFEG, a putative ABC transporter. Significance and Impact of the Study: This is the first report regarding a lantibiotic gene cluster produced by Strep. thermophilus strain.     

Common evolutionary origin of the central portions of the Ri TL-DNA of Agrobacterium rhizogenes and the Ti T-DNAs of Agrobacterium tumefaciens

Analysis of published sequences for Ri TL-DNA (root-inducing left-hand transferred DNA) of Agrobacterium rhizogenes revealed several unsuspected structural features. First, Ri TL-DNA genes are redundant. Using redundancy as a criterion, three regions (left, middle and right) were discerned. The left one, ORFs (open reading frames) 1–7, contains no detectable redundancy. In the middle region a highly diverged gene family was detected in ORFs 8, 11, 12, 13 and 14. The right region contains an apparently recent duplication (ORF 15 =18+17). We interpret the phenomenon of redundancy, particularly in the central region that encodes the transformed phenotype, to be an adaptation that ensures function in a variety of host species. Comparison of Ri TL-DNA and Ti T-DNAs from Agrobacterium tumefaciens revealed common structures, unpredicted by previous nucleic acid hybridization studies. Ri TL-DNA ORF 8 is a diverged Ti T-DNA tms1. Both Agrobacterium genes consist of a member of the diverged gene family detected in the central part of the Ri TL-DNA, but fused to a sequence similar to iaaM of Pseudomonas savastonoi. Other members of this gene family were found scattered throughout Ti T-DNA. We argue that the central region of Ri and the part of Ti T-DNA including ORFs 5–10 evolved from a common ancestor. We present the hypothesis that the gene family encodes functions that alter developmental plasticity in higher plants.     

Targeted gene inactivation for the elucidation of deoxysugar biosynthesis in the erythromycin producer Saccharopolyspora erythraea

The production of erythromycin A by Saccharopolysporaerythraea requires the synthesis of dTDP-D-desosamine and dTDP-L-mycarose, which serve as substrates for the transfer of the two sugar residues onto the macrolactone ring. The enzymatic activities involved in this process are largely encoded within the ery gene cluster, by two sets of genes flanking the eryA locus that encodes the polyketide synthase. We report here the nucleotide sequence of three such ORFs located immediately downstream of eryA, ORFs 7, 8 and 9. Chromosomal mutants carrying a deletion either in ORF7 or in one of the previously sequenced ORFs 13 and 14 have been constructed and shown to accumulate erythronolide B, as expected for eryB mutants. Similarly, chromosomal mutants carrying a deletion in either ORF8, ORF9, or one of the previously sequenced ORFs 17 and 18 have been constructed and shown to accumulate 3-α-mycarosyl erythronolide B, as expected for eryC mutants. The ORF13 (eryBIV?), ORF17 (eryCIV?) and ORF7 (eryBII?) mutants also synthesised small amounts of macrolide shunt metabolites, as shown by mass spectrometry. These results considerably strengthen previous tentative proposals for the pathways for the biosynthesis of dTDP-D-desosamine and dTDP-L-mycarose in Sac. erythraea and reveal that at least some of these enzymes can accommodate alternative substrates.     

Nucleotide sequence analysis of five putative Streptomyces griseus genes, one of which complements an early function in daunorubicin biosynthesis that is linked to a putative gene cluster involved in TDP-daunosamine formation

Sequence analysis of the lkmB region of the daunorubicin biosynthetic gene cluster of Streptomyces griseus JA3933 revealed two contiguous open reading frames (ORF) in the same orientation, and three ORFs in the opposite orientation together extending over a 4.6 kb region adjacent to a homologue of the S. peucetius dnrJ gene. ORF1 complemented in trans the lkmB mutation, which seems to affect an early step in daunorubicin biosynthesis. Its deduced product showed no similarity to any known enzyme in the databases. The mutation in ORF1 was localised to a C-T transition at position 1172, leading to the change from a glycine to aspartic acid in the deduced protein. The lack of any homology to known polyketide synthesis enzymes indicates a regulatory role for the product of ORF1, despite the ability of lkmB mutants to further metabolise aklanonic acid. The genes of the oppositely oriented cluster seem to be involved in sugar metabolism. The putative ORF3 protein revealed strong homology to eukaryotic acyl CoA dehydrogenases and might encode an enzyme for the oxidoreduction preceding the introduction of the amino group into daunosamine, and the ORF4 protein is homologous to several epimerases, central enzymes in the formation of the l,-2,3,6-trideoxy-3-aminohexoses from TDP-d-glucose. ORF5 seems also to be related to enzymes metabolising nucleotide-activated hexoses.     

Molecular analysis of a complex locus from Haemophilus influenzae invoked in phase-variable lipopolysaccharide biosynthesis

A chromosomal locus, lic3, one of several involved in lipopolysaccharide (LPS) biosynthesis by Haemophilus influenzae, was cloned and its DNA sequence determined. lic3 comprises four closely apposed open reading frames (ORFs). ORF1 includes tandem repeats of the tetramer CAAT and two start codons out of frame with each other are found upstream of the repeats. ORF1 encodes a protein with no known homologues. ORF2 encodes the UDP-galactose-4-epimerase (galE) gene. ORF3 encodes a hydrophobic protein with no known homologues. ORF4 encodes the adenylate kinase (adk) gene. A deletion/insertion mutation lacking the 3' end of ORF1, all of galE, and the 5' end of ORF3 was constructed in the parent Hib strain (RM7004). These mutants had a galE phenotype, as evidenced by galactose sensitivity, altered LPS when grown in the absence of exogenous galactose, and reduced virulence in infant rats.     

Cloning and characterization of a regulatory gene of the SARP family and its flanking region from Streptomyces ambofaciens

In a search for activators of secondary metabolism we isolated a 12.6-kb DNA fragment from a genomic library of Streptomyces ambofaciens NRRL 2240 (the spiramycin producer ). Sequencing of 6 kb of the cloned fragment revealed a cluster of four ORFs (ORF1–4) whose deduced products showed similarities to those of other genes involved in polyketide biosynthesis, including a pathway-specific regulatory gene of the SARP family. The results of insertional inactivation of some of the cloned genes clearly indicate that the isolated cluster does not code for spiramycin production, suggesting that some other polyketide compound might well be produced by this strain. Received: 14 May 1999 / Accepted: 28 July 1999     

The pcd Gene Encoding Piperideine-6-Carboxylate Dehydrogenase Involved in Biosynthesis of α-Aminoadipic Acid Is Located in the Cephamycin Cluster of Streptomyces clavuligerus

Three open reading frames (ORFs) have been located downstream of cefE in the cephamycin C gene cluster of Streptomyces clavuligerus. ORF13 (pcd) encodes a 496-amino-acid protein (molecular weight [MW], 52,488) with an N-terminal amino acid sequence identical to that of pure piperideine-6-carboxylate dehydrogenase. ORF14 (cmcT) encodes a 523-amino-acid protein (MW, 54,232) analogous to Streptomyces proteins for efflux and resistance to antibiotics. ORF15 (pbp74) encodes a high molecular weight penicillin-binding protein (MW, 74,094).     

Identification and Functional Analysis of dTDP-Glucose-4,6-Dehydratase Gene and Its Linked Gene Cluster in an Aminoglycoside Antibiotics Producer of <Emphasis Type="Italic">Streptomyces tenebrarius</Emphasis> H6

Streptomyces tenebrarius H6 produces a variety of aminoglycoside antibiotics, such as apramycin, tobramycin, and kanamycin B. Primers were designed according to the highly conserved sequences of the dTDP-glucose-4,6-dehydratase genes, and a 0.6-kb PCR product was obtained from S. tenebrarius H6 genomic DNA. With the 0.6-kb PCR product as a probe, a BamHI 7.0-kb fragment was isolated. DNA sequence analysis of the 7.0-kb fragment revealed four ORFs and an incomplete ORF. In search of databases, the deduced product of one ORF (orfE) showed 62% identity to the dTDP-glucose-4,6-dehydratase, StrE of S. griseus. Three other ORFs (orfG1, orfG2, and orfGM) showed 55%, 62%, and 42% similarities, respectively, to glycosyltransferase from Clostridium acetobutylicum and mannosyltransferase from Xanthomonas axonopodis pv. citri str. 306 and glycosyltransferase from Pseudomonas putida KT2440. Upstream of the orfE was an incomplete ORF, and the deduced product showed 56% similarity to dTDP-4-dehydrorhamnose, StrL from S. griseus. The function of the orfE gene was studied by targeted gene disruption. The resulting mutant failed to produce tobramycin and kanamycin B, but still produced apramycin, suggesting that the orfE gene and linked gene cluster are essential for the biosynthesis of tobramycin and kanamycin B in S. tenebrarius H6.     

Evolution of a novel lysine decarboxylase in siderophore biosynthesis

Structural backbones of iron‐scavenging siderophore molecules include polyamines 1,3‐diaminopropane and 1,5‐diaminopentane (cadaverine). For the cadaverine‐based desferroxiamine E siderophore in Streptomyces coelicolor, the corresponding biosynthetic gene cluster contains an ORF encoded by desA that was suspected of producing the cadaverine (decarboxylated lysine) backbone. However, desA encodes an l ‐2,4‐diaminobutyrate decarboxylase (DABA DC) homologue and not any known form of lysine decarboxylase (LDC). The only known function of DABA DC is, together with l ‐2,4‐aminobutyrate aminotransferase (DABA AT), to synthesize 1,3‐diaminopropane. We show here that S. coelicolor desA encodes a novel LDC and we hypothesized that DABA DC homologues present in siderophore biosynthetic clusters in the absence of DABA AT ORFs would be novel LDCs. We confirmed this by correctly predicting the LDC activity of a DABA DC homologue from a Yersinia pestis siderophore biosynthetic pathway. The corollary was confirmed for a DABA DC homologue, adjacent to a DABA AT ORF in a siderophore pathway in the cyanobacterium Anabaena variabilis, which was shown to be a bona fide DABA DC. These findings enable prediction of whether a siderophore pathway will utilize 1,3‐diaminopropane or cadaverine, and suggest that the majority of bacteria use DABA AT and DABA DC for siderophore, rather than norspermidine/polyamine biosynthesis.     

Organization and Sequence of Histidine Biosynthesis Genes hisH, -A, -F, and -IE in Thermoanaerobacter ethanolicus

Nucleotide sequence analysis of a 3.5-kb chromosomal fragment from the low G + C Gram-positive bacterium Thermoanaerobacter ethanolicus revealed a cluster of five contiguous open reading frames (ORFs) designated hisH, hisA, hisF, hisIE, and ORF5. The first four ORFs showed homology to genes of the histidine biosynthesis pathway, and ORF5 encoded a product with no significant similarities to polypeptides presently known. The hisH ORF was partial (truncated by cloning) and ORF5 was adjacent to xylF, which codes for a xylose-binding periplasmic protein. The five genes encoded putative proteins of >104, 237, 254, 216, and 169 amino acids, respectively. Amino acid sequence comparison of the four his gene products indicated closely related homologs in prokaryotes, varying from low G + C Gram-positive bacteria to archaea. This is the first report of his anabolic genes in a thermophilic anaerobic bacterium. Received: 8 July 1999 / Accepted: 23 August 1999     

Cloning and functional analysis of the sequences flanking mini-Tn5 in the magnetosomes deleted mutant NM4 of <Emphasis Type="Italic">Magnetospirillum gryphiswaldense</Emphasis> MSR-1

A magnetosome deleted mutant NM4 of Magnetospirillum gryphiswaldense MSR-1 was generated by mini-Tn5 transposon mutagenesis, and a 5045-bp fragment flanking mini-Tn5 in NM4 was cloned by Anchored PCR. Sequencing analysis showed that this fragment involved six putative open reading frames (ORFs); the mini-Tn5 was inserted into ORF4. Functional complementary test indicated that the 5045-bp fragment was required for biosynthesis of magnetosomes in M. gryphiswaldense MSR-1. The protein encoded by ORF4 had 25% of identity with the chemotaxis protein CheYIII of Caulobacter crescentus CB15, and the protein encoded by ORF4 contained a conserved signal receiver domain that can receive the signal from the sensor partner of the bacterial two-component systems. It was suggested that the protein encoded by ORF4 may take part in the signal transduction relating to biosynthesis of magnetosomes.