The Use of PCR for Detecting Genes That Encode Type I Polyketide Synthases in Genomes of Actinomycetes

PCR screening of type I polyketidesynthase genes (PKS) was conducted in genomes of actinomycetes, producers of antibiotics. Some DNA fragments from the Streptomyces globisporus 1912 strain, a producer of a novel angucycline antibiotic landomycin E, were amplified. These fragments shared appreciable homology with type I PKS controlling the biosynthesis of polyene antibiotics (pymaricin and nistatin). The cloned regions were used to inactivate putative type I PKS genes in S. globisporus 1912. Strains with inactivated genes of PKS modular do not differ from the original strain in the spectrum of synthesized polyketides. Apparently, these are silent genes, which require specific induction for their expression. The method of PCR screening can be used in a large-scale search for producers of new antibiotics.__________Translated from Genetika, Vol. 41, No. 5, 2005, pp. 595–600.Original Russian Text Copyright © 2005 by Ostash, Ogonyan, Luzhetskyy, Bechthold, Fedorenko.     

Diversity of type I polyketide synthase genes in the wood-decay fungus Xylaria sp. BCC 1067

Fungal type I polyketide (PK) compounds are highly valuable for medical treatment and extremely diverse in structure, partly because of the enzymatic activities of reducing domains in polyketide synthases (PKSs). We have cloned several PKS genes from the fungus Xylaria sp. BCC 1067, which produces two polyketides: depudecin (reduced PK) and 19,20-epoxycytochalasin Q (PK-nonribosomal peptide (NRP) hybrid). Two new degenerate primer sets, KA-series and XKS, were designed to amplify reducing PKS and PKS-NRP synthetase hybrid genes, respectively. Five putative PKS genes were amplified in Xylaria using KA-series primers and two more with the XKS primers. All seven are predicted to encode proteins homologous to highly reduced (HR)-type PKSs. Previously designed primers in LC-, KS-, and MT-series identified four additional PKS gene fragments. Selected PKS fragments were used as probes to identify PKS genes from the genomic library of this fungus. Full-length sequences for five PKS genes were obtained: pks12, pks3, pksKA1, pksMT, and pksX1. They are structurally diverse with 1-9 putative introns and products ranging from 2162 to 3654 amino acids in length. The finding of 11 distinct PKS genes solely by means of PCR cloning supports that PKS genes are highly diverse in fungi. It also indicates that our KA-series primers can serve as powerful tools to reveal the genetic potential of fungi in production of multiple types of HR PKs, which the conventional compound screening could underestimate.     

Metabolic diversity in myxobacteria: identification of the myxalamid and the stigmatellin biosynthetic gene cluster of Stigmatella aurantiaca Sg a15 and a combined polyketide-(poly)peptide gene cluster from the epothilone producing strain Sorangium cellulosum So ce90.

Myxobacterial strains producing polyketides (PKs) assumed to be biosynthesized by a type I polyketide synthase (PKS) were analysed. Myxobacteria also produce a variety of polypeptides (PP) and PKs with incorporated amino acids ('mixed PK-PP'). In order to be able to identify the biosynthetic gene clusters for these metabolites a PCR based approach has been developed to clone ketosynthase (KS) domains of PKS genes from these organisms. Conserved regions of peptide synthetases of the non-ribosomal type (NRPS) were also amplified via PCR. KS fragments from Stigmatella aurantiaca Sg a15 were used for chromosomal gene inactivation experiments resulting in a series of mutants including such that were unable to produce stigmatellins and myxalamids. A NRPS fragment and PKS fragments from Sorangium cellulosum So ce90 were used to identify cosmids hybridizing with both types of probes from a genomic library. Both a NRPS and a PKS fragment were cloned and sequenced from a relatively short restriction fragment of one of these cosmids. The method described here should be very useful to clone and identify PKS, NRPS and mixed PKS-NRPS from myxobacteria in general and thereby open opportunities to use the biochemical diversity of these bacteria for genetic engineering and combinatorial biosynthesis.     

Investigation of the biosynthetic potential of endophytes in traditional Chinese anticancer herbs

Traditional Chinese medicine encompasses a rich empirical knowledge of the use of plants for the treatment of disease. In addition, the microorganisms associated with medicinal plants are also of interest as the producers of the compounds responsible for the observed plant bioactivity. The present study has pioneered the use of genetic screening to assess the potential of endophytes to synthesize bioactive compounds, as indicated by the presence of non-ribosomal peptide synthetase (NRPS) and polyketide synthase (PKS) genes. The total DNA extracts of 30 traditional Chinese herbs, were screened for functional genes involved in the biosynthesis of bioactive compounds. The four PCR screens were successful in targeting four bacterial PKS, six bacterial NRPS, ten fungal PKS and three fungal NRPS gene fragments. Analysis of the detected endophyte gene fragments afforded consideration of the possible bioactivity of the natural products produced by endophytes in medicinal herbs. This investigation describes a rapid method for the initial screening of medicinal herbs and has highlighted a subset of those plants that host endophytes with biosynthetic potential. These selected plants can be the focus of more comprehensive endophyte isolation and natural product studies.     

An approach for obtaining perfect hybridization probes for unknown polyketide synthase genes: a search for the epothilone gene cluster

An approach is described for obtaining 'perfect probes' for type I modular polyketide synthase (PKS) gene clusters that in turn enables the identification of all such gene clusters in a genome. The approach involves sequencing small fragments of a random genomic DNA library containing one or more modular PKS gene clusters, and identifying which fragments emanate from PKS genes. Knowing the approximate sizes of the genome and the target gene cluster, one can predict the the frequency that a PKS gene fragment will be present in the library sequenced. Computer simulations of the approach were applied to the known PKS and non-ribosomal peptide synthetase (NRPS) gene clusters in the Bacillus subtilus genome. The approach was then used to identify PKS gene fragments in a strain of Sorangium cellulosum that produces epothilone. In addition to identifying fragments of the epothilone gene cluster, we obtained 11 unique fragments from other PKS gene clusters; the results suggest that there may be six to eight PKS gene clusters in this organism. In addition, we identified four unique fragments of NRPS genes, demonstrating that the approach is also applicable for identification of these modular gene clusters.     

Production of landomycins in Streptomyces globisporus 1912 and S cyanogenus S136 is regulated by genes encoding putative transcriptional activators

The regulatory genes lanI and lndI have been cloned from the landomycin A (LaA) producer Streptomyces cyanogenus S136 and from the landomycin E (LaE) producer Streptomyces globisporus 1912, respectively and both have been sequenced. A culture of S. globisporus I2-1 carrying a disrupted lndI gene did not produce LaE and other related intermediates. Complementation of S. globisporus I2-1 with either the lndI or lanI gene reconstituted LaE production indicating that LanI and LndI are involved in activation of structural genes in the respective clusters. Structural features of these regulatory genes are discussed.     

Bacteria of the Roseobacter Clade Show Potential for Secondary Metabolite Production

Members of the Roseobacter clade are abundant and widespread in marine habitats and have very diverse metabolisms. Production of acylated homoserine lactones (AHL) and secondary metabolites, e.g., antibiotics has been described sporadically. This prompted us to screen 22 strains of this group for production of signaling molecules, antagonistic activity against bacteria of different phylogenetic groups, and the presence of genes encoding for nonribosomal peptide synthetases (NRPS) and polyketide synthases (PKS), representing enzymes involved in the synthesis of various pharmaceutically important natural products. The screening approach for NRPS and PKS genes was based on polymerase chain reaction (PCR) with degenerate primers specific for conserved sequence motifs. Additionally, sequences from whole genome sequencing projects of organisms of the Roseobacter clade were considered. Obtained PCR products were cloned, sequenced, and compared with genes of known function. With the PCR approach genes showing similarity to known NRPS and PKS genes were found in seven and five strains, respectively, and three PKS and NRPS sequences from genome sequencing projects were obtained. Three strains exhibited antagonistic activity and also showed production of AHL. Overall production of AHL was found in 10 isolates. Phylogenetic analysis of the 16S rRNA gene sequences of the tested organisms showed that several of the AHL-positive strains clustered together. Three strains were positive for three or four categories tested, and were found to be closely related within the genus Phaeobacter. The presence of a highly similar hybrid PKS/NRPS gene locus of unknown function in sequenced genomes of the Roseobacter clade plus the significant similarity of gene fragments from the strains studied to these genes argues for the functional requirement of the encoded hybrid PKS/NRPS complex. Our screening results therefore suggest that the Roseobacter clade is indeed employing PKS/NRPS biochemistry and should thus be further studied as a potential and largely untapped source of secondary metabolites.     

Interspecies conjugation of Escherichia coli-Streptomyces globisporus 1912 using integrative plasmid pSET152 and its derivatives]

Streptomyces globisporus 1912 produces a novel angucycline antitumor antibiotic landomycin E (LE). To study the LE biosynthetic gene cluster in detail, a system for the conjugal transfer of the integrative plasmid pSET152 from Escherichia coli into S. globisporus 1912 has been developed. It was shown that this plasmid integrates into two sites of the S. globisporus chromosome and is stably inherited under nonselective conditions. pSET152+ exconjugants of the strain 1912 are characterized by a significant decrease in LE synthesis (by 50-90%). A negative effect of pSET152 integration on antibiotic production was observed even upon the use of the recipient strain with increased LE synthesis, although in this case, the level of LE production in ex-conjugants was 120-150% of that in the original strain 1912. Based on pSET152, a vector system for gene knockouts in S. globisporus was developed. The effectivity of this system was shown in the example of disruption of the lndA gene encoding the key enzyme of LE synthesis (beta-ketoacylsynthase). Inactivation of this gene was shown to lead to the cessation of LE biosynthesis.     

吸水链霉菌Streptomyces hygroscopicus 17997中噬菌体基因转移系统的建立及其应用

由吸水链霉菌Streptomyces hygroscopicus 17997产生的格尔德霉素geldanamycin(GA)属安莎类抗生素,具有良好的抗肿瘤和抗病毒活性。本文应用链霉菌温和噬菌体ΦC31衍生的KC515载体,在吸水链霉菌S．hygroscopicus 17997中建立并优化了S．hygroscopicus 17997的基因转染体系。利用所建立的基因转染体系,以基因阻断技术从S．hygroscopicus 17997基因文库含有多组PKS基因柯斯质粒中,鉴定了与GA PKS生物合成相关基因的柯斯质粒,该工作为GA生物合成基因簇的克隆奠定了基础。     

Polyketide synthase genes in insect- and nematode-associated fungi

Production of polyketides is accomplished through complex enzymes known as polyketide synthases (PKS); these enzymes have highly conserved domains that might be useful in screens for PKSs in diverse groups of organisms. A degenerate PCR-based approach was used to amplify PKS fragments of the ketosynthase domain from genomic DNA of a group of insect- and nematode-associated fungi. Of 157 isolates (representing 73 genera and 144 species) screened, 92 isolates generated PCR products of predicted size (approximately 300 bp). The ability to detect PKS domains was a function of the number of different primer pairs employed in the screen. Cloning and sequencing revealed that 66 isolates had at least one unique PKS sequence; ten members of this set contained multiple PKS fragments, for a total of 76 unique PKS fragments. Since PKS genes appear to be widespread among fungi, a PCR-based screening system appears to be an efficient, directed means to identify organisms having the potential to produce polyketides.     

The stability of plasmid pSG 1912 inheritance by the cells of Streptomyces globisporus 1912 and of heterologous streptomycete strains]

Streptomyces globisporus 1912 strain contains plasmid pSG1912 (11, 2kb) determining some phenotypic properties. The plasmid is able to exist and to provide for exhibition of these properties both in autonomous and integrated state. It is established that plasmid pSG1912 and constructed derivatives are stably inherited by cells of S. globisporus 1912 and heterologous hosts, and besides, molecular size and determined properties being retained.     

The cloning of fragments of the streptomycete plasmid pSG1912 as a part of the vector pUC19]

DNA fragments of plasmid pSG1912 isolated from Streptomyces globisporus 1912 have been cloned into vector pUC19 in the E. coli cells. Stability of inheritance of hybrid derivatives in enterobacteria has been studied. The clones where recombinant plasmids are stably inherited have been chosen. The detailed restriction maps of cloned DNA fragments of pSG1912 have been constructed.     

四种红树植物根际土壤微生物Ⅰ型和Ⅱ型PKS基因的检测与多样性分析

[目的]探究红树林土壤中聚酮合酶(Polyketide synthase,PKS)基因的多样性和新颖性.[方法]用Ⅰ型和Ⅱ型PKS基因酮基合成酶(Ketosynthase,KS)域的简并引物对海南清澜港红树林海莲、黄槿、银叶、老鼠簕4种红树根际土壤样品中DNA进行PCR扩增,之后利用PCR-限制性酶切片段多样性(PCR-RFLP)和测序分析法对Ⅰ型和Ⅱ型PKS基因的多样性进行探讨.[结果]对得到的72条Ⅰ型PKS基因的酮基合成酶(Ketosynthase,KS)域DNA序列进行PCR-RFLP分析,共得到51个可操作分类单元(Operational taxonomic unit,OTUs),其中37个OTUs为单克隆产生,没有明显的优势OTU.选取了26个代表不同OTU的克隆进行测序分析,这些序列与GenBank中已知序列的最大相似率均未超过85％. KS域氨基酸序列的系统发育分析显示,所得KS域来源广泛,包括蓝细菌门(Cyanobacteria)、变形杆菌门(Proteobacteria)、厚壁菌门(Firmicutes)、放线菌门(Actinobacteria)和一些未可培养细菌;对55条PKSⅡ基因KS域DNA序列的PCR-RFLP分析后共得到25个OTUs,有两个明显的优势OTUs,代表的克隆子数所占比例超过10％.[结论]PCR-RFLP分析表明红树林根际土壤中存在着丰富多样的Ⅰ型和Ⅱ型PKS基因,且前者多样性更高;低的序列相似度表明所获得的PKSⅠ基因KS域序列独特;系统发育分析表明得到的PKSⅠ基因来源广泛.     

Investigation of bacteria with polyketide synthase genes and antimicrobial activity isolated from South China Sea sponges

Aims:  To obtain bacteria with PKS (polyketide synthase) genes and antimicrobial activity from sponges.
Methods and Results:  Eighteen bacteria with KS (ketosynthase) genes were identified by polymerase chain reaction (PCR) screening of 98 isolates from South China Sea sponges, Stelletta tenuis , Halichondria rugosa , Dysidea avara and Craniella australiensis . 16S rRNA gene-based B last analysis indicated that 15 isolates belonged to the phylum Firmicutes , among which 14 isolates were closely related to genus Bacillus , and 1 to Staphylococcus lentus . Two isolates were identified as actinomycetes, and one as Alcaligenes sp. in the phylum Proteobacteria . The 18 KS domains belong to trans-AT type I PKS and match PKS of marine bacterial symbionts. The 18 bacteria exhibited broad-spectrum antimicrobial activities against fungi, gram-positive and gram-negative bacteria. A 21·8-kb PKS gene cluster fragment containing five modules was isolated from the Staphylococcus lentus isolate A75 by screening of a fosmid library.
Conclusions:  The PKS gene diversity and different antimicrobial spectra indicate the potential of bacteria associated with South China Sea sponges for diverse polyketide production.
Significance and Impact of the Study:  Combined with bioactivity assay the PKS gene-based approach can be applied to efficient screening of strains of pharmaceutical value and the prediction of related compounds.     

海南东寨港真红树植物内生放线菌多样性及其抗菌活性

【目的】勘探海南东寨港真红树植物内生放线菌多样性,为发现放线菌新物种和新抗生素奠定基础。【方法】样品经表面消毒后粉碎,用10种不同培养基分离放线菌;通过PCR扩增、测定并比对16S r RNA基因序列,开展放线菌多样性分析;通过发酵、萃取等处理方法得到四类样品,包括发酵原液、乙酸乙酯提取液及水层和菌体的丙酮浸泡提取液;采用纸片扩散法对样品进行抗菌活性筛选;基于PCR的基因筛选技术探测活性菌株可能存在的NRPS、PKS I、PKS II抗生素生物合成基因。【结果】经形态特征排重,从14种真红树植物样品中共得到放线菌146株,16S r RNA基因序列比对表明它们分布于13个科18个属,其中链霉菌属为优势菌属,菌株S3Cf-2和S3Af-1的16S r RNA基因序列分别与有效发表菌株Couchioplanes caeruleus DSM44103T(X93202)和Microlunatus terrae BS6T(JF806519)的相似率最高,分别为97.45%和97.43%,可能为新物种。对其中46株放线菌发酵样品的抗菌活性检测表明,40株具有抗菌活性,总阳性率为86.96%;活性菌株中,38株菌存在至少一种所探测的生物合成基因簇,阳性率为95%,其中14株同时具有所探测的3种抗生素生物合成基因簇。【结论】海南东寨港真红树植物中存在多样性丰富的药用放线菌资源,具有从中发现放线菌新物种及新抗生素的潜力。     

Targeting polyketide synthase gene pool within actinomycetes: new degenerate primers

Natural products provide a unique element of molecular diversity and biological functionality and they are still indispensable for drug discovery. The polyketides, comprising a large and structurally diverse family of bioactive natural products, have been isolated from a group of mycelia-forming Gram-positive microorganisms, the actinomycetes. Relatively high amino acid sequence identity of the actinomycetes type I polyketide synthases (PKSs) was used to design three degenerate primer pairs for homology-based PCR detection of novel PKS genes, with particular interest into PKSs involved in biosynthesis of immunosuppressive-like metabolites. The stepdown PCR method, described here, enables fast insight into the PKS arsenal within actinomycetes. Designed primers and stepdown PCR were applied for the analysis of two natural isolates, Streptomyces sp. strains NP13 and MS405. Sequence analysis of chosen clones revealed the presence of two distinctive sequences in strain Streptomyces sp. NP13, but only one of these showed homology to PKS-related sequences. On analysing PCR amplicons derived from Streptomyces sp. strain MS405, three different PKS-related sequences were identified demonstrating a potential of designed primers to target PKS gene pool within single organism.     

Multiple hybrid polyketide synthase/non-ribosomal peptide synthetase gene clusters in the myxobacterium Stigmatella aurantiaca

Many bacterial and fungal secondary metabolites are produced by polyketide synthases (PKS) and non-ribosomal peptide synthetases (NRPS). Recently, it has been discovered that these modular enzymatic systems can also closely cooperate to form natural products. The analysis of the corresponding biosynthetic machineries, in the form of hybrid systems, is of special interest for combinatorial biosynthesis, because the combination of PKS and NRPS can lead to an immense variety of structures that might be produced. During our screening for hybrid PKS/NRPS systems from myxobacteria, we scanned the genome of Stigmatella aurantiaca DW4/3-1 for the presence of gene loci that encode both the PKS and NRPS genes. In addition to the previously characterized myxothiazol system, we identified three further hybrid loci, three additional PKS and one further NRPS gene locus. These were analyzed by hybridization, physical mapping, PCR with degenerate oligonucleotides and sequencing of fragments of the gene clusters. The function of these genes was not known but it had already been speculated that one compound produced by the strain and detected via HPLC was a secondary metabolite. This was based on the observation that its production is dependent on an active copy of the phosphopantetheinyl transferase gene mtaA. We show here that one of the identified hybrid gene loci is responsible for the formation of this secondary metabolite. In agreement with the genetic data, the chemical structure resembles a cyclic polypeptide with a PKS sidechain. Our data show that S. aurantiaca has a broader genetic capacity to produce natural products than the number of compounds isolated from the strain so far suggests.     

Designing and Implementing an Assay for the Detection of Rare and Divergent NRPS and PKS Clones in European,Antarctic and Cuban Soils

The ever increasing microbial resistome means there is an urgent need for new antibiotics. Metagenomics is an underexploited tool in the field of drug discovery. In this study we aimed to produce a new updated assay for the discovery of biosynthetic gene clusters encoding bioactive secondary metabolites. PCR assays targeting the polyketide synthases (PKS) and non-ribosomal peptide synthetases (NRPS) were developed. A range of European soils were tested for their biosynthetic potential using clone libraries developed from metagenomic DNA. Results revealed a surprising number of NRPS and PKS clones with similarity to rare Actinomycetes. Many of the clones tested were phylogenetically divergent suggesting they were fragments from novel NRPS and PKS gene clusters. Soils did not appear to cluster by location but did represent NRPS and PKS clones of diverse taxonomic origin. Fosmid libraries were constructed from Cuban and Antarctic soil samples; 17 fosmids were positive for NRPS domains suggesting a hit rate of less than 1 in 10 genomes. NRPS hits had low similarities to both rare Actinobacteria and Proteobacteria; they also clustered with known antibiotic producers suggesting they may encode for pathways producing novel bioactive compounds. In conclusion we designed an assay capable of detecting divergent NRPS and PKS gene clusters from the rare biosphere; when tested on soil samples results suggest the majority of NRPS and PKS pathways and hence bioactive metabolites are yet to be discovered.