Cloning of modular type I polyketide synthase genes from salinomycin producing strain of Streptomyces albus

Cloning of polyether polyketide synthase (PKS) genes for salinomycin biosynthesis was attempted from Streptomyces albus. Seven beta-ketoacyl synthase (KS) core regions were obtained by PCR amplification using primers designed based on the conserved KS domains of type I PKSs. Using the KS fragment as a probe, screening of an S. albus genomic DNA library was carried out by colony hybridization. From the positive cosmid clone isolated, a 4.5-kbBamHI fragment was subcloned and sequenced. It showed high homology with bacterial type I PKSs and was deduced to code for KS, malonyl transferase, and ketoreductase motifs. By gene disruption with this 4.5-kb BamHI fragment, the cloned gene was shown to be a part of the salinomycin biosynthetic gene cluster of S. albus.     

基于皱皮软海绵宏基因组的PKS基因筛选的研究

提取皱皮软海绵及其共附生微生物的宏基因组总DNA,使用聚酮合酶(PKS)基因的酮酰合酶(KS)域引物PCR扩增PKS基因片段获得一条671bp的片段,以pUCm-T vector为载体将该基因片段克隆到大肠杆菌中,从阳性克隆中分离出PKS基因片段,测序推导出氨基酸序列。通过BLAST比对发现此氨基酸序列与红细菌目的Rhodobacterales bacterium PKS基因KS域的氨基酸序列有96%的同源性。通过基于氨基酸序列的系统发育分析,推测此筛选得到的PKS基因属于trans-AT型。本文首次证实了皱皮软海绵中存在细菌来源的PKS基因。     

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.     

Minimal Streptomyces sp. strain C5 daunorubicin polyketide biosynthesis genes required for aklanonic acid biosynthesis.

The structure of the Streptomyces sp. strain C5 daunorubicin type II polyketide synthase (PKS) gene region is different from that of other known type II PKS gene clusters. Directly downstream of the genes encoding ketoacylsynthase alpha and beta (KS alpha, KS beta) are two genes (dpsC, dpsD) encoding proteins of unproven function, both absent from other type II PKS gene clusters. Also in contrast to other type II PKS clusters, the gene encoding the acyl carrier protein (ACP), dpsG, is located about 6.8 kbp upstream of the genes encoding the daunorubicin KS alpha and KS beta. In this work, we demonstrate that the minimal genes required to produce aklanonic acid in heterologous hosts are dpsG (ACP), dauI (regulatory activator), dpsA (KS alpha), dpsB (KS beta), dpsF (aromatase), dpsE (polyketide reductase), and dauG (putative deoxyaklanonic acid oxygenase). The two unusual open reading frames, dpsC (KASIII homolog lacking a known active site) and dpsD (acyltransferase homolog), are not required to synthesize aklanonic acid. Additionally, replacement of dpsD or dpsCD in Streptomyces sp. strain C5 with a neomycin resistance gene (aphI) results in mutant strains that still produced anthracyclines.     

Cloning, sequencing, and analysis of the griseusin polyketide synthase gene cluster from Streptomyces griseus.

A fragment of DNA was cloned from the Streptomyces griseus K-63 genome by using genes (act) for the actinorhodin polyketide synthase (PKS) of Streptomyces coelicolor as a probe. Sequencing of a 5.4-kb segment of the cloned DNA revealed a set of five gris open reading frames (ORFs), corresponding to the act PKS genes, in the following order: ORF1 for a ketosynthase, ORF2 for a chain length-determining factor, ORF3 for an acyl carrier protein, ORF5 for a ketoreductase, and ORF4 for a cyclase-dehydrase. Replacement of the gris genes with a marker gene in the S. griseus genome by using a single-stranded suicide vector propagated in Escherichia coli resulted in loss of the ability to produce griseusins A and B, showing that the five gris genes do indeed encode the type II griseusin PKS. These genes, encoding a PKS that is programmed differently from those for other aromatic PKSs so far available, will provide further valuable material for analysis of the programming mechanism by the construction and analysis of strains carrying hybrid PKS.     

Identification of unique type II polyketide synthase genes in soil

Many bacteria, particularly actinomycetes, are known to produce secondary metabolites synthesized by polyketide synthases (PKS). Bacterial polyketides are a particularly rich source of bioactive molecules, many of which are of potential pharmaceutical relevance. To directly access PKS gene diversity from soil, we developed degenerate PCR primers for actinomycete type II KS(alpha) (ketosynthase) genes. Twenty-one soil samples were collected from diverse sources in New Jersey, and their bacterial communities were compared by terminal restriction fragment length polymorphism (TRFLP) analysis of PCR products generated using bacterial 16S rRNA gene primers (27F and 1525R) as well as an actinomycete-specific forward primer. The distribution of actinomycetes was highly variable but correlated with the overall bacterial species composition as determined by TRFLP. Two samples were identified to contain a particularly rich and unique actinomycete community based on their TRFLP patterns. The same samples also contained the greatest diversity of KS(alpha) genes as determined by TRFLP analysis of KS(alpha) PCR products. KS(alpha) PCR products from these and three additional samples with interesting TRFLP pattern were cloned, and seven novel clades of KS(alpha) genes were identified. Greatest sequence diversity was observed in a sample containing a moderate number of peaks in its KS(alpha) TRFLP. The nucleotide sequences were between 74 and 81% identical to known sequences in GenBank. One cluster of sequences was most similar to the KS(alpha) involved in ardacin (glycopeptide antibiotic) production by Kibdelosporangium aridum. The remaining sequences showed greatest similarity to the KS(alpha) genes in pathways producing the angucycline-derived antibiotics simocyclinone, pradimicin, and jasomycin.     

Cloning and characterization of a new polyketide synthase gene cluster in Streptomyces aureofaciens CCM 3239.

We cloned a new polyketide gene cluster, aur2, in Streptomyces aureofaciens CCM3239. Sequence analysis of the 9531-bp DNA fragment revealed 10 open reading frames, majority of which showed high similarity to the previously characterized type II polyketide synthase (PKS) genes. An unusual feature of the aur2 cluster is a disconnected organization of minimal PKS genes; ACP is located apart from the genes for ketosynthases KSalpha and KSbeta. The aur2 gene cluster was disrupted in S. aureofaciens CCM3239 by a homologous recombination, replacing the four genes (aur2A, E, F, G) including ketosynthase KSalpha, with antibiotic resistance marker gene. The disruption did not affect growth and differentiation, and disrupted strain produced spores with wild-type grey-pink pigmentation. The biochromatographic analysis of the culture extracts from S. aureofaciens wild type and aur2-disrupted strains did not reveal any difference in the pattern of antibacterial compounds.     

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.     

6-MSAS-like polyketide synthase genes occur in lichenized ascomycetes

Lichenized and non-lichenized filamentous ascomycetes produce a great variety of polyketide secondary metabolites. Some polyketide synthase (PKS) genes from non-lichenized fungi have been characterized, but the function of PKS genes from lichenized species remains unknown. Phylogenetic analysis of keto synthase (KS) domains allows prediction of the presence or absence of particular domains in the PKS gene. In the current study we screened genomic DNA from lichenized fungi for the presence of non-reducing and 6-methylsalicylic acid synthase (6-MSAS)-type PKS genes. We developed new degenerate primers in the acyl transferase (AT) region to amplify a PKS fragment spanning most of the KS region, the entire linker between KS and AT, and half of the AT region. Phylogenetic analysis shows that lichenized taxa possess PKS genes of the 6-MSAS-type. The extended alignment confirms overall phylogenetic relationships between fungal non-reducing, 6-MSAS-type and bacterial type I PKS genes.     

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。     

产Macrolactins的海洋细菌X-2中Ⅰ型PKS基因簇的筛选鉴定与功能分析

Macrolactins是近年来从Actinomadura sp.和Bacillus sp.等海洋来源的微生物中分离的一群24元大环内酯类化合物,具有抗菌、抗病毒和抗肿瘤等生物学活性.本室从东海海泥中分离到一株海洋细菌X-2,可产生多种Macrolactins.本研究自行设计了一套针对I型聚酮合酶(polyketidesynthase,PKS)基因中酮缩合酶(ketosynthase,KS)片段的简并引物,使用PCR方法直接克隆到了X-2基因组中的一段长约645 bp的Ⅰ型KS基因片段,提交GenBank获登录号EF486351,并以之为探针筛选X-2的fosmid基因组文库,得到了3个阳性克隆,测序获得的序列经同源性分析和功能预测,初步证实获得了该菌中负责生物合成Macrolactin的部分Ⅰ型PKS基因簇的功能序列.     

Biogeography of actinomycete communities and type II polyketide synthase genes in soils collected in New Jersey and Central Asia

Soil microbial communities are believed to be comprised of thousands of different bacterial species. One prevailing idea is that "everything is everywhere, and the environment selects," implying that all types of bacteria are present in all environments where their growth requirements are met. We tested this hypothesis using actinomycete communities and type II polyketide synthase (PKS) genes found in soils collected from New Jersey and Uzbekistan (n = 91). Terminal restriction fragment length polymorphism analysis using actinomycete 16S rRNA and type II PKS genes was employed to determine community profiles. The terminal fragment frequencies in soil samples had a lognormal distribution, indicating that the majority of actinomycete phylotypes and PKS pathways are present infrequently in the environment. Less than 1% of peaks were detected in more than 50% of samples, and as many as 18% of the fragments were unique and detected in only one sample. Actinomycete 16S rRNA fingerprints clustered by country of origin, indicating that unique populations are present in North America and Central Asia. Sequence analysis of type II PKS gene fragments cloned from Uzbek soil revealed 35 novel sequence clades whose levels of identity to genes in the GenBank database ranged from 68 to 92%. The data indicate that actinomycetes are patchily distributed but that distinct populations are present in North American and Central Asia. These results have implications for microbial bioprospecting and indicate that the cosmopolitan actinomycete species and PKS pathways may account for only a small proportion of the total diversity in soil.     

Diversity of polyketide synthase genes from bacteria associated with the marine sponge Pseudoceratina clavata: culture-dependent and culture-independent approaches

Diverse ketosynthase (KS) genes were retrieved from the microbial community associated with the Great Barrier Reef sponge Pseudoceratina clavata. Bacterial isolation and metagenomic approaches were employed. Phylogenetic analysis of 16S rRNA of culturable sponge-associated bacterial communities comprised eight groups over four phyla. Ten KS domains were amplified from four genera of isolates and phylogenetics demonstrated that these KS domains were located in three clusters (actinobacterial, cyanobacterial and trans-AT type). Metagenomic DNA of the sponge microbial community was extracted to explore community KS genes by two approaches: direct amplification of KS domains and construction of fosmid libraries for KS domain screening. Five KS domains were retrieved from polymerase chain reaction (PCR) amplification using sponge metagenome DNA as template and five fosmid clones containing KS domains found using multiplex PCR screening. Analysis of selected polyketide synthase (PKS) from one fosmid showed that the PKS consists of two modules. Open reading frames located up- and downstream of the PKS displayed similarity with membrane synthesis-related proteins such as cardiolipin synthase. Metagenome approaches did not detect KS domains found in sponge isolates. All KS domains from both metagenome approaches formed a single cluster with KS domains originating from metagenomes derived from other sponge species from other geographical regions.     

Biosynthetic origin of hydrogen atoms in the lipase inhibitor lipstatin

The lipase inhibitor lipstatin is biosynthesized in Streptomyces toxytricini via condensation of a C(14) precursor and a C(8) precursor, which are both obtained from fatty acid catabolism. To study the mechanism of this reaction in more detail, S. toxytricini was grown in medium containing a mixture of U-(13)C,U-(2)H-lipids and unlabeled sunflower oil or in a medium containing 70% D(2)O. Lipstatin was isolated and analyzed by (1)H,(2)H, and (13)C NMR spectroscopy. Hydrogen atoms at C-2, C-3, and C-4 of lipstatin were found to be derived from solvent protons. The formation of the lipstatin precursor 3-hydroxy-Delta(5,8)-tetradecadienoyl-CoA by beta oxidation of linoleic acid explains the incorporation of solvent hydrogen into the 4 position of lipstatin. The hydrogen in position 3 of lipstatin is most probably introduced from solvent by proton/deuterium exchange of a redox cofactor involved in the reduction of the keto group in the branched chain beta keto acid arising by a decarboxylative condensation. The incorporation of solvent hydrogen at position 2 can be explained by epimerization of a chiral intermediate at C-2 and C-3. Epimerization may involve a dehydration-rehydration mechanism.     

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.     

Complementation and regulatory interaction between two cloned fimbrial gene clusters of Escherichia coli strain KS71

Summary Complementation experiments with cloned DNA fragments encoding either the KS71A, the KS71B or the KS71C fimbriae of the pyelonephritogenic Escherichia coli strain KS71 were used to localise the P-fimbrillin genes and to demonstrate regulatory interactions between the cloned genes. The structural genes of the KS71A and KS71B fimbriae were located within a common 1.1 kilobase pair ClaI-SmaI fragment, and it was shown that the gene clusters for these fimbriae could complement each other in trans. The gene cluster encoding the KS71C fimbriae did not complement for the other KS71 fimbriae. A DNA fragment, located near the KS71A fimbrillin gene, was found to enhance the production of the KS71B fimbriae in trans.     

A novel gene——samfR involved in early stage of Streptomyces ansochromogenes differentiation

A 4.6 kb DNA fragment was cloned from the DNA library of Streptomyces ansochromogenes using a partial DNA fragment located in the downstream of promoter-P_(TH4) as probe. The experiments revealed that this DNA fragment consists of saw D gene and a 1.4 kb Pvu Ⅱ fragment which can accelerate mycelium formation of S. ansochromogerms. The nucleofide sequence of 1.4 kb DNA fragment was determined and analysed; the result indicated that the fragment contains one complete open reading frame (ORF) which encodes a protein with 213 amino acids, and this gene was desiguated as samfR. The deduced protein has 36% amino acid identities and 52% amino acid similarities in comparison with that encoded by hppR gene, which is involved in the regulation of catabolism for 3-(3-hydroxyphenyl) propionate (3HPP) in Rhodococcus globerulus. The function of samfR gene was studied using strategy of gene disruption, and the resulting samfR mutant failed to form aerial hyphae and spores, its development and differentiation stopped     

Biogeography of Actinomycete Communities and Type II Polyketide Synthase Genes in Soils Collected in New Jersey and Central Asia

Soil microbial communities are believed to be comprised of thousands of different bacterial species. One prevailing idea is that “everything is everywhere, and the environment selects,” implying that all types of bacteria are present in all environments where their growth requirements are met. We tested this hypothesis using actinomycete communities and type II polyketide synthase (PKS) genes found in soils collected from New Jersey and Uzbekistan (n = 91). Terminal restriction fragment length polymorphism analysis using actinomycete 16S rRNA and type II PKS genes was employed to determine community profiles. The terminal fragment frequencies in soil samples had a lognormal distribution, indicating that the majority of actinomycete phylotypes and PKS pathways are present infrequently in the environment. Less than 1% of peaks were detected in more than 50% of samples, and as many as 18% of the fragments were unique and detected in only one sample. Actinomycete 16S rRNA fingerprints clustered by country of origin, indicating that unique populations are present in North America and Central Asia. Sequence analysis of type II PKS gene fragments cloned from Uzbek soil revealed 35 novel sequence clades whose levels of identity to genes in the GenBank database ranged from 68 to 92%. The data indicate that actinomycetes are patchily distributed but that distinct populations are present in North American and Central Asia. These results have implications for microbial bioprospecting and indicate that the cosmopolitan actinomycete species and PKS pathways may account for only a small proportion of the total diversity in soil.     

Site-specific mutagenesis and domain substitutions in the loading module of the nystatin polyketide synthase,and their effects on nystatin biosynthesis in Streptomyces noursei

The loading module for the nystatin polyketide synthase (PKS) in Streptomyces noursei is represented by the NysA protein composed of a ketosynthase (KS(S)), acyltransferase, dehydratase, and an acyl carrier protein. The absolute requirement of this protein for initiation of nystatin biosynthesis was demonstrated by the in-frame deletion of the nysA gene in S. noursei. The role of the NysA KS(S) domain, however, remained unclear, since no data on the significance of the "active site" serine (Ser-170) residue in the loading modules of type I PKSs were available. Site-specific mutagenesis of Ser-170 both in the wild-type NysA and in the hybrid loading module containing malonyl-specific acyltransferase domain from the extender module had no effect on nystatin biosynthesis. A second mutation (S413N) of the NysA KS(S) domain was discovered that completely abolished the ability of the hybrids to restore nystatin biosynthesis, presumably by affecting the ability of the resulting proteins to catalyze the required substrate decarboxylation. In contrast, NysA and its Ser-170 mutants bearing the same S413N mutation were able to restore nystatin production to significant levels, probably by using acetyl-CoA as a starter unit. Together, these data suggest that the KS(S) domain of NysA differs from the KS(Q) domains found in the loading modules of several PKS type I systems in that the active site residue is not significant for its activity.