A ketoreductase gene fromStreptomyces mycarofaciens 1748 DNA involved in biosynthesis of a spore pigment

An efficient plasmid transformation system forS. mycarofaciens 1748 has been established. In order to determine the function of MKR gene in S.mycarofaciens 1748, the gene disruption experiment was carried out. For this purpose the plasmid pKC1139 was used. A recombinant strain with white spore appeared, in contrast to the grey-colour spore of S.myarofaciens 1748. This suggested that homologous recombination between plasmidborne MKR gene sequence and the chromosome of S.mycarofaciens 1748 had occurred. A Southern hybridization experiment using a-³²P-labelled MKR gene as probe indicated that the desired integration event had occurred in the recombinant. The result of gene disruption showed that the alteration of this gene in the chromosome of S.mycarofaciens 1748 made sporulating colonies remain white instead of taking on the typical grey colour of sporulating wild type colonies, suggesting that MKR gene is involved in the biosynthesis of a spore pigment. The recombinant strain was incubated with fermentation medium optimised for midecamycin production. A TLC assay showed that the recombinant strain produced midecamycin in quantities comparable to that ofS. mycarofaciens 1748. A pCN8B12 was a clone from genomic library of midecamycin producing strain which contained a 28-kb DNA insert. The 28-kb DNA fragment contained act I-homologous and act III-homologous regions. he PKS (act I-homologous) and MKR (act III-homologous) genes that define spore pigment of midecamycin producing strain were Jocalized by restriction endonuclease digestion with pCN8B12, indicating that they are separated by about 10 kb DNA. The polyketide synthase gene cluster of simila; organization has not been reported yet.     

利用强启动功能片段提高麦迪霉素4”，-羟基丙酰化酶基因的表达

利用PCR技术将本室克隆到的强启动功能片段取代麦迪霉素丙酰化酶基因(mpt)的启动子或与mpt基因自身启动子串连,获得含mPt重组质粒pCHFPE3和pCHFPE2。用含有这两个质粒的Streptomyces lividans TK24对螺旋霉素进行微生物转化,结果表明,与含有原启动子的mpt.S.lividans TK24(p.WFPE)相比,丙酰螺旋霉素的组分比例分别提高了89.02％和58.53％。含重组质粒pCHFPE2的螺旋霉素产生菌S.spiramyceticus发酵产物中丙酰螺旋霉素的组分也有较大辐度的提高。说明利用该强启动功能片段可以提高麦迪霉素丙酰化酶基因的表达。     

A ketoreductase gene from Streptomyces mycarofaciens 1748 DNA involved in biosynthesis of a spore pigment

An efficient plasmid transformation system forS. mycarofaciens 1748 has been established. In order to determine the function of MKR gene in S.mycarofaciens 1748, the gene disruption experiment was carried out. For this purpose the plasmid pKC1139 was used. A recombinant strain with white spore appeared, in contrast to the grey-colour spore of S.myarofaciens 1748. This suggested that homologous recombination between plasmidborne MKR gene sequence and the chromosome of S.mycarofaciens 1748 had occurred. A Southern hybridization experiment using a-³²P-labelled MKR gene as probe indicated that the desired integration event had occurred in the recombinant. The result of gene disruption showed that the alteration of this gene in the chromosome of S.mycarofaciens 1748 made sporulating colonies remain white instead of taking on the typical grey colour of sporulating wild type colonies, suggesting that MKR gene is involved in the biosynthesis of a spore pigment. The recombinant strain was incubated with fermentation medium optimised for midecamycin production. A TLC assay showed that the recombinant strain produced midecamycin in quantities comparable to that ofS. mycarofaciens 1748. A pCN8B12 was a clone from genomic library of midecamycin producing strain which contained a 28-kb DNA insert. The 28-kb DNA fragment contained act I-homologous and act III-homologous regions. he PKS (act I-homologous) and MKR (act III-homologous) genes that define spore pigment of midecamycin producing strain were Jocalized by restriction endonuclease digestion with pCN8B12, indicating that they are separated by about 10 kb DNA. The polyketide synthase gene cluster of simila; organization has not been reported yet. Project supported by the National Natural Science Foundation of China.     

A macrolide 3-O-acyltransferase gene from the midecamycin-producing species Streptomyces mycarofaciens.

The Streptomyces mycarofaciens mdmB gene encodes a 3-O-acyltransferase that catalyzes the addition of acetyl and propionyl groups to position 3 of the lactone ring in 16-member macrolide antibiotics like midecamycin and spiramycin. A putative O-methyltransferase gene (mdmC) is immediately downstream of mdmB, and both of these genes are closely linked to the mdmA midecamycin resistance gene.     

麦迪霉素产生菌酮基还原酶基因的研究

将麦迪霉素产生菌基因文库中与放线紫红索酮基还原酶基因actⅢ有同源性的4·0kb DNA片段克隆到质粒载体pWHM3中,构成重组质粒pCB4。将质粒pCB4转入酮基还原酶基因缺陷菌株——加利利链霉菌ATCC3167l中,得到转化子。转化子发酵产物经TLC和HPLC分析证明是阿克拉菌酮,与加利利链霉菌原株ATCC31133的产物相同,说明麦迪霉素产生菌酮基还原酶基因互补了加利利链霉菌ATCC31671中缺陷的酮基还原酶基因,使其恢复了产生阿克拉菌酮的能力。4．Okb DNA片段插入方向相反的重组质粒pCBR4在加利利链霉菌ATCC31671中发酵产物经TLC分析证明也是阿克拉菌酮,这说明4．0kbDNA片段中麦迪霉素产生菌酮基还原酶基因具有自身的启动子。对4．0kb DNA片段进行了限制酶酶切分析,建立了其酶切图谱。以actⅢ基因为探针,经分子杂交以及亚克隆和DNA转化实验,将麦迪霉索产生菌酮基还原酶基因定位于BssH Ⅱ—BamH Ⅰ 1．3kb DNA片段上。对1．3kb DNA片段核苷酸序列分析结果表明：此1．3kbDNA片段中含有一个独立的ORF,起始密码ATG,终止密码TAG,含783bp;在起始密码上游有GGAGG5个核苷酸SD序列;此ORF编码260个氨基酸,与actⅢ基因编码的261个氨基酸相似性为77．4%,相同性为66．7％,对麦迪霉素产生苗酮基还原酶基因的可能作用进行了讨论。     

Construction of 4″-Isovalerylspiramycin-I-Producing Strain by In-Frame Partial Deletion of 3-<Emphasis Type="Italic">O</Emphasis>-Acyltransferase Gene in <Emphasis Type="Italic">Streptomyces spiramyceticus</Emphasis> WSJ-1, the Bitespiramycin Producer

Bitespiramycin (BT), a multi-component antibiotic consisted mainly of 4″-isovalerylspiramycin I, II and III, is produced by Streptomyces spiramyceticus WSJ-1, a recombinant spiramycin-production strain that harbored the 4″-O-acyltransferase gene (ist) from Streptomyces mycarofaciens 1748, which could isovalerylate the 4″-OH of spiramycin. To eliminate the production of components 4″-isovalerylspiramycin II and III, therefore reducing the component complexity of BT, inactivation of the sspA gene, which encodes the 3-O-acyltransferase responsible for the acylation of spiramycin I to spiramycin II and III, was performed in Streptomyces spiramyceticus WSJ-1, by in-frame partial deletion. The resulting strain, Streptomyces spiramyceticus WSJ-2, is a 4″-isovalerylspiramycin-I-producing strain as expected.     

麦迪霉素产生菌具有启动功能的DNA片段的克隆和分析

利用启动子探针质粒载体pIJ486从麦迪霉素产生菌总DNA中克隆得到了一段具有启动功能的DNA片段.通过限制性酶酶切分析,测定插入DNA片段大小为2.3kb.又利用载体pIJ486和pIJ487的新霉素抗性结构基因上游有多酶切点方向相反的性质,分析了插入片段在两个不同方向上的启动能力.结果表明,在两个方向上均有启动功能,但强弱相差六倍.其中在XbaI-HindIII方向上具有较强的启动能力,在变铅青链霉菌中新霉素抗性水平可达20mg/ml以上.进一步对插入片段的三个BamHI小片段进行分析的结果表明,较强启动子区域集中在BamHI-BamHI 0.79kb DNA片段上.     

NepA is a structural cell wall protein involved in maintenance of spore dormancy in Streptomyces coelicolor

Streptomycetes have a complex morphogenetic programme culminating in the formation of aerial hyphae that develop into chains of spores. After spore dispersal, environmental signals trigger dormant spores to germinate to establish a new colony. We here compared whole genome expression of a wild-type colony of Streptomyces coelicolor forming aerial hyphae and spores with that of the chp null mutant that forms few aerial structures. This revealed that expression of 244 genes was significantly altered, among which genes known to be involved in development. One of the genes that was no longer expressed in the Δ chpABCDEFGH mutant was nepA , which was previously shown to be expressed in a compartment connecting the substrate mycelium with the sporulating parts of the aerial mycelium. We here show that expression is also detected in developing spore chains, where NepA is secreted to end up as a highly insoluble protein in the cell wall. Germination of spores of a nepA deletion mutant was faster and more synchronous, resulting in colonies with an accelerated morphogenetic programme. Crucially, spores of the Δ nepA mutant also germinated in water, unlike those of the wild-type strain. Taken together, NepA is the first bacterial structural cell wall protein that is important for maintenance of spore dormancy under unfavourable environmental conditions.     

In vivo functions of the γ-butyrolactone autoregulator receptor in <Emphasis Type="Italic">Streptomyces ambofaciens</Emphasis> producing spiramycin

A gene encoding a γ-butyrolactone autoregulator receptor was cloned in to E. coli from Streptomyces ambofaciens producing spiramycin, a macrolide antibiotic used in both veterinary medicine and human medicine. A 714-bp intact receptor gene (saaR) was obtained by PCR and genomic Southern hybridization with the 100-bp PCR product as a probe. To clarify the in vivo function of saaR, a saaR-disrupted strain was constructed by means of homologous recombination, and phenotypes were compared with those of the wild-type strain. The number of saaR-disruptant spores was 4-fold less than that of the wild-type strain. In addition, saaR deletion from the S. ambofaciens chromosome resulted in complete loss of spiramycin production suggesting that saaR is a rare positive regulator, controlling both spiramycin biosynthesis and sporulation.     

Cloning of spiramycin biosynthetic genes and their use in constructing Streptomyces ambofaciens mutants defective in spiramycin biosynthesis

Several cosmid clones from Streptomyces ambofaciens containing the spiramycin resistance gene srmB were introduced into S. fradiae PM73, a mutant defective in tylosin synthesis, resulting in tylosin synthesis. The DNA responsible for this complementation was localized to a 10.5-kilobase EcoRI fragment. A 32-kilobase DNA segment which included the srmB spiramycin resistance gene and DNA which complemented the defect in strain PM73 were mutagenized in vivo with Tn10 carrying the gene for Nmr (which is expressed in Streptomyces spp.) or in vitro by insertional mutagenesis with a drug resistance gene (Nmr) cassette. When these mutagenized DNA segments were crossed into the S. ambofaciens chromosome, three mutant classes blocked in spiramycin synthesis were obtained. One mutant accumulated two precursors of spiramycin, platenolide I and platenolide II. Two mutants, when cofermented with the platenolide-accumulating mutant, produced spiramycin. Tylactone supplementation of these two mutants resulted in the synthesis of a group of compounds exhibiting antibiotic activity. Two other mutants failed to coferment with any of the other mutants or to respond to tylactone supplementation.