Complete genome sequence of the erythromycin-producing bacterium Saccharopolyspora erythraea NRRL23338

Saccharopolyspora erythraea is used for the industrial-scale production of the antibiotic erythromycin A, derivatives of which play a vital role in medicine. The sequenced chromosome of this soil bacterium comprises 8,212,805 base pairs, predicted to encode 7,264 genes. It is circular, like those of the pathogenic actinomycetes Mycobacterium tuberculosis and Corynebacterium diphtheriae, but unlike the linear chromosomes of the model actinomycete Streptomyces coelicolor A3(2) and the closely related Streptomyces avermitilis. The S. erythraea genome contains at least 25 gene clusters for production of known or predicted secondary metabolites, at least 72 genes predicted to confer resistance to a range of common antibiotic classes and many sets of duplicated genes to support its saprophytic lifestyle. The availability of the genome sequence of S. erythraea will improve insight into its biology and facilitate rational development of strains to generate high-titer producers of clinically important antibiotics.     

Novel family of cholesterol esterases produced by actinomycetes bacteria

Although cholesterol esterase (CHE; EC 3.1.1.13) is widespread in nature, CHEs from Streptomyces lavendulae and Streptomyces sp. X9 are the only known CHEs produced by actinomycetes. We purified CHEs from S. avermitilis JCM5070, and S. griseus IFO13350 and identified four new CHEs from actinomycetes. The enzymic properties of the CHEs from Streptomyces sp. X9, S. avermitilis, and S. griseus including substrate specificity, sensitivity to inhibitors and optimal conditions for catalysis were similar. We identified genes for the CHEs from Streptomyces sp. X9 and S. avermitilis and the encoded predicted sequences comprised 217 and 214 amino acid residues, respectively, with 64% similarity. The CHEs from Streptomyces sp. X9 and S. avermitilis were also 54 and 57% similar, respectively, to S. lavendulae CHE, indicating that these CHEs are orthologs. Phylogenetic analysis showed that they are distantly related to the conventional lipase/esterase type CHEs from mammals, yeasts and other bacteria. The actinomycetes CHEs did not have the Gly-Xaa-Ser-Xaa-Gly sequence that is conserved in the lipase/esterase family. A database search showed that orthologs of this type of CHE were restricted to actinomycetes. These findings imply that the actinomycetes CHEs constitute a novel family of cholesterol esterases.     

桑氏链霉菌KJ40全基因组测序及分析

【背景】桑氏链霉菌(Streptomyces sampsonii)KJ40是一株具有防病、促生多重功能的放线菌,有作为生物农药的潜力。目前还没有相关研究报道S.sampsonii全基因组序列,这限制了其功能基因、代谢产物合成途径及比较基因组学等研究。【目的】解析S.sampsonii KJ40的基因组序列信息,以深入研究该菌株防病促生机制及挖掘次级代谢产物基因资源。【方法】利用Illumina HiSeq高通量测序平台对KJ40菌株进行全基因组测序,使用相关软件对测序数据进行基因组组装、基因预测和功能注释、预测次级代谢产物合成基因簇、共线性分析等。【结果】基因组最后得到9个Scaffolds和578个Contigs,总长度为7 261 502 bp,G+C%含量平均为73.41%,预测到6 605个基因、1 260个串联重复序列、804个小卫星序列、67个微卫星序列、90个tRNA、9个rRNA和19个sRNA。其中,2 429、3 765、2 890、6 063和1 911个基因分别能够在COG、GO、KEGG、NR和Swiss-Prot数据库提取到注释信息。同时,还预测得到21个次级代谢产物合成基因簇。基因组测序数据提交至NCBI获得Gen Bank登录号:LORI00000000。S.sampsonii KJ40与Streptomyces coelicolor A3(2)、Streptomyces griseus subsp.griseus NBRC 13350三株链霉菌基因组存在翻转、易位等基因组重排,3个基因组共有1 711个蛋白聚类簇。【结论】研究为从基因组层面上解析KJ40菌株具有良好促生防病效果的内在原因提供基础数据,为深入了解链霉菌次级代谢合成途径提供参考信息,对S.sampsonii后续相关研究具有重要意义。     

Analysis of Streptomyces avermitilis genes required for avermectin biosynthesis utilizing a novel integration vector.

An integration vector for gene analysis in Streptomyces has been constructed. This vector replicates in Escherichia coli, and integrates into Streptomyces by homologous recombination between a cloned fragment and the genome. To overcome methylation-specific restriction barriers, an E. coli mutant triply defective in DNA methylation was constructed as a source for the integration plasmids. The frequency of integration of pVE616 derivatives into the Streptomyces avermitilis genome was proportional to the size of the cloned DNA. Derivatives of pVE616, containing fragments from pVE650, a plasmid with a 24-kb insert of S. avermitilis DNA, were used in complementation analyses of seven S. avermitilis mutants defective in glycosylation of avermectin (Av). Three complementation groups, located in a 7-kb region, were identified. Derivatives of pVE616, containing fragments from the 18-kb of DNA adjacent to the glycosylation region, were integrated into an Av producer. Av produced from the integrants was substantially reduced, indicating that the 18 kb also encodes gene products which are involved in Av biosynthesis.     

A genetic and bioinformatic analysis of Streptomyces coelicolor genes containing TTA codons, possible targets for regulation by a developmentally significant tRNA

The rarest codon in the high G+C genome of Streptomyces coelicolor is TTA, corresponding in mRNA to the UUA codon that is recognized by a developmentally important tRNA encoded by the bldA gene. There are 145 TTA-containing genes in the chromosome of S. coelicolor. Only 42 of these are represented in the genome of Streptomyces avermitilis, among which only 12 have a TTA codon in both species. The TTA codon is less represented in housekeeping genes and orthologous genes, and is more represented in functional-unknown, extrachromosomal or weakly expressed genes. Twenty one TTA-containing chromosomal genes in S. coelicolor were disrupted, including 12 of the 42 genes that are common to both S. avermitillis and S. coelicolor. None of the mutant strains showed any obvious phenotypic differences from the wild-type strain under tested conditions. Possible reasons for this, and the role and evolution of the observed distribution of TTA codons among Streptomyces genes were discussed.     

Cytochrome p450 complement (CYPome) of the avermectin-producer Streptomyces avermitilis and comparison to that of Streptomyces coelicolor A3(2)

The genus Streptomyces produces about two-thirds of naturally occurring antibiotics and a wide array of other secondary metabolites, including antihelminthic agents, antitumor agents, antifungal agents, and herbicides. The newly completed genome sequence of the avermectin-producing bacterium Streptomyces avermitilis contains 33 cytochromes p450 (CYPs), many more than the 18 observed in Streptomyces coelicolor A3(2). Some of the likely metabolic functions are reported together with their genomic location and bioinformatic analysis. Seven entirely new CYP families were found together with close homologues of some forms observed in S. coelicolor A3(2). The presence of unusual CYP forms associated with conservons is revealed and of these, CYP157 forms in both S. avermitilis and S. coelicolor A3(2) deviate from the previously accepted rule for an EXXR motif within the K-helix of CYPs. Amongst this range of CYPs are forms associated with avermectin, filipin, geosmin, and pentalenolactone biosynthesis as well as unknown pathways of secondary metabolism.     

Evolution of the terminal regions of the Streptomyces linear chromosome

Comparative analysis of the Streptomyces chromosome sequences, between Streptomyces coelicolor, Streptomyces avermitilis, and Streptomyces ambofaciens ATCC23877 (whose partial sequence is released in this study), revealed a highly compartmentalized genetic organization of their genome. Indeed, despite the presence of specific genomic islands, the central part of the chromosome appears highly syntenic. In contrast, the chromosome of each species exhibits large species-specific terminal regions (from 753 to 1,393 kb), even when considering closely related species (S. ambofaciens and S. coelicolor). Interestingly, the size of the central conserved region between species decreases as the phylogenetic distance between them increases, whereas the specific terminal fraction reciprocally increases in size. Between highly syntenic central regions and species-specific chromosomal parts, there is a notable degeneration of synteny due to frequent insertions/deletions. This reveals a massive and constant genomic flux (from lateral gene transfer and DNA rearrangements) affecting the terminal contingency regions. We speculate that a gradient of recombination rate (i.e., insertion/deletion events) toward the extremities is the force driving the exclusion of essential genes from the terminal regions (i.e., chromosome compartmentalization) and generating a fast gene turnover for strong adaptation capabilities.     

纳他霉素高产菌株Streptomyces gilvosporeus F607基因组及其生物合成基因簇分析

【背景】纳他霉素(Natamycin)是一种天然、广谱、高效的多烯大环内酯类抗真菌剂,褐黄孢链霉菌(Streptomyces gilvosporeus)是一种重要的纳他霉素产生菌。目前S. gilvosporeus基因组序列分析还未有报道,限制了该菌中纳他霉素及其他次级代谢产物合成及调控的研究。【目的】解析纳他霉素高产菌株S. gilvosporeus F607的基因组序列信息,挖掘其次级代谢产物基因资源,为深入研究该菌株的纳他霉素高产机理及生物合成调控机制奠定基础。【方法】利用相关软件对F607菌株的基因组序列进行基因预测、功能注释、进化分析和共线性分析,并预测次级代谢产物合成基因簇;对纳他霉素生物合成基因簇进行注释分析,比较分析不同菌种中纳他霉素生物合成基因簇的差异;分析预测S.gilvosporeusF607中纳他霉素生物合成途径。【结果】F607菌株基因组总长度为8482298bp,(G+C)mol%为70.95%,分别在COG、GO、KEGG数据库提取到5 062、4 428、5063个基因的注释信息。同时,antiSMASH软件预测得到29个次级代谢产物合成基因簇,其中纳他霉素基因簇与S.natalensis、S. chattanoogensis等菌株的纳他霉素基因簇相似性分别为81%和77%。除2个参与调控的sngT和sgnH基因和9个未知功能的orf基因有差异外,S. gilvosporeus F607基因簇中其他纳他霉素生物合成基因及其排列顺序与已知的纳他霉素基因簇高度一致。【结论】分析了S. gilvosporeus全基因组信息,预测了S. gilvosporeus F607中纳他霉素生物合成的途径,为从基因组层面上解析S. gilvosporeus F607菌株高产纳他霉素的内在原因提供了基础数据,为揭示纳他霉素高产的机理及工业化生产和未来新药的发现奠定了良好的基础。     

负调节基因nsdA在链霉菌中同源性及激活沉默抗生素合成基因簇的研究

nsdA基因是在天蓝色链霉菌中发现的抗生素合成负调控基因。以nsdA基因片段为探针,通过Southern杂交发现nsdA存在于多种链霉菌中。根据天蓝色链霉菌和阿维链霉菌的nsdA序列设计PCR引物,扩增多种链霉菌中nsdA基因并测序。发现在不同链霉菌中nsdA基因的相似性高达77%~100%。其中变铅青链霉菌与天蓝色链霉菌A3(2)的nsdA序列100%一致。变铅青链霉菌通常不合成放线紫红素,中断nsdA获得的突变菌株WQ2能够合成放线紫红素;在WQ2中重新引入野生型nsdA,又失去产抗生素能力。表明nsdA的中断可以激活变铅青链霉菌中沉默的放线紫红素生物合成基因簇的表达;nsdA的广泛存在及其序列高度保守则提示可以尝试用于这些菌种的抗生素高产育种。     

除虫链霉菌10个聚酮类抗生素生物合成基因簇的敲除对阿维菌素产量的影响

【目的】考察除虫链霉菌基因组中其它聚酮合成酶类(Polyketide synthase,PKS)抗生素生物合成基因簇的敲除突变对于阿维菌素产量的影响。【方法】构建了11个PKS基因簇的打靶Cosmid和质粒载体,导入除虫链霉菌中筛选突变株。【结果】在工业菌株MMR630中成功敲除了10个PKS基因簇。发酵结果显示7个PKS基因簇敲除突变株中阿维菌素的产量均有不同程度的提高,而2个突变株不能产生阿维菌素。然而,在3个连续敲除2个PKS基因簇的突变株中阿维菌素产量没有能够超过单个PKS敲除突变株的提升幅度。【结论】除虫链霉菌基因组的一些PKS基因簇的敲除可以提高阿维菌素的产量,同时暗示同一类次生代谢产物的代谢流之间存在复杂的相互作用关系。     

Transposon mutagenesis by Tn4560 and applications with avermectin-producing Streptomyces avermitilis.

The Tn3-like Streptomyces transposon Tn4560 was used to mutagenize Streptomyces avermitilis, the producer of anthelmintic avermectins and the cell growth inhibitor oligomycin. Tn4560 transposed in this strain from a temperature-sensitive plasmid to the chromosome and from the chromosome to a plasmid with an apparent frequency of about 10(-4) to 10(-3) at both 30 and 39 degrees C. Auxotrophic and antibiotic nonproducing mutations were, however, obtained only with cultures that were kept at 37 or 39 degrees C. About 0.1% of the transposon inserts obtained at 39 degrees C caused auxotrophy or abolished antibiotic production. The sites of insertion into the S. avermitilis chromosome were mapped. Chromosomal DNA fragments containing Tn4560 insertions in antibiotic production genes were cloned onto a Streptomyces plasmid with temperature-sensitive replication and used to transport transposon mutations to other strains, using homologous recombination. This technique was used to construct an avermectin production strain that no longer makes the toxic oligomycin.     

A gene cluster for biosynthesis of the sesquiterpenoid antibiotic pentalenolactone in Streptomyces avermitilis

Streptomyces avermitilis, an industrial organism responsible for the production of the anthelminthic avermectins, harbors a 13.4 kb gene cluster containing 13 unidirectionally transcribed open reading frames corresponding to the apparent biosynthetic operon for the sesquiterpene antibiotic pentalenolactone. The advanced intermediate pentalenolactone F, along with the shunt metabolite pentalenic acid, could be isolated from cultures of S. avermitilis, thereby establishing that the pentalenolactone biosynthetic pathway is functional in S. avermitilis. Deletion of the entire 13.4 kb cluster from S. avermitilis abolished formation of pentalenolactone metabolites, while transfer of the intact cluster to the pentalenolactone nonproducer Streptomyces lividans 1326 resulted in production of pentalenic acid. Direct evidence for the biochemical function of the individual biosynthetic genes came from expression of the ptlA gene (SAV2998) in Escherichia coli. Assay of the resultant protein established that PtlA is a pentalenene synthase, catalyzing the cyclization of farnesyl diphosphate to pentalenene, the parent hydrocarbon of the pentalenolactone family of metabolites. The most upstream gene in the cluster, gap1 (SAV2990), was shown to correspond to the pentalenolactone resistance gene, based on expression in E. coli and demonstration that the resulting glyceraldehyde-3-phosphate dehydrogenase, the normal target of pentalenolactone, was insensitive to the antibiotic. Furthermore, a second GAPDH isozyme (gap2, SAV6296) has been expressed in E. coli and shown to be inactivated by pentalenolactone.     

Cloning of a DNA fragment involved in pigment production in Streptomyces avermitilis

Streptomyces avermitilis has the ability to synthesize a diffusible, brown, melanin-like pigment, a common property among many Streptomyces species. A region of the S. avermitilis chromosome involved in the production of this pigment was cloned in Escherichia coli. Production of the brown pigment was attained in E. coli, and is optimal when medium is supplemented with copper ions, tyrosine and IPTG. The cloned S. avermitilis pigment-producing DNA fragment is under the control of the lac promoter carried in the E. coli vector. The gene involved in pigment production could be used as a tool to analyse gene expression in S. avermitilis, and as an alternative cloning marker in Streptomyces-Escherichia coli vectors.     

透明颤菌血红蛋白基因在阿维链霉菌中的表达

将含有自身启动子的透明颤菌血红蛋白基因（ ｖｈｂ） 克隆至大肠杆菌—链霉菌穿梭质粒载体ｐＩＪ６５３ 中构建成表达载体ｐ ＷＹ１０１ 和ｐ ＷＹ１０２ ,用它们转化阿维菌素（ａｖｅｒｍｅｃｔｉｎｓ） 产生菌———阿维链霉菌（ Ｓｔｒｅｐｔｏｍｙｃｅｓ ａｖｅｒｍｉｔｉｌｉｓ） ,经Ｗｅｓｔｅｒｎ ｂｌｏｔｔｉｎｇ 分析并未检测到ｖｈｂ 基因表达,但用穿梭载体ｐＨＺ１２５２（ 其中的ｖｈｂ 基因位于受硫链丝菌素诱导的链霉菌强启动子ＰｔｉｐＡ之下） 转化阿维链霉菌并经硫链丝菌素诱导,则在该菌中表达出了有活性的ＶＨｂ 蛋白。ｐＨＺ１２５２ 在阿维链霉菌中发生了重组缺失,但缺失的ｐＨＺ１２５２ 上仍含有完整的ｖｈｂ 基因及诱导型强启动子,且可在阿维链霉菌中稳定遗传,却不能再转化大肠杆菌。     

Cloning and characterization of the gene encoding endo-beta-1,3-glucanase from Arthrobacter sp. NHB-10

The gluA gene, encoding an endo-beta-1,3-glucanase from Arthrobacter sp. (strain NHB-10), was cloned and analyzed. The deduced endo-beta-1,3-glucanase amino acid sequence was 750 amino acids long and contained a 42 amino acid signal peptide with a mature protein of 708 amino acids. There was no similarity to known endo-beta-1,3-glucanases, but GluA was partially similar to two fungal exo-beta-1,3-glucanases in glycoside hydrolase (GH) family 55. Of five possible residues for catalysis and two motifs in two beta-helix heads of GH family 55, three residues and one motif were conserved in GluA, suggesting that GluA is the first bacterial endo-beta-1,3-glucanase in GH family 55. Significant similarity was also found to two proteins of unknown function from Streptomyces coelicolor A3(2) and S. avermitilis.