圈卷产色链霉菌7100分化相关基因——sawE的结构与功能

以天蓝色链霉菌的whiB基因为探针,从圈卷产色链霉菌7100的总DNA部分文库中克隆了含有whiB同源序列的28kb DNA片段,并对其中的14kb片段进行了序列测定。序列分析表明,该片段含有一个完整的开放阅读框—sawE。预测的蛋白质结构及同源性分析显示,sawE与天蓝色链霉菌孢子形成早期的关键基因whiB高度同源,编码产物为一个调控蛋白。sawE的破坏使圈卷产色链霉菌7100的分化终止在气生菌丝阶段,在延长培养时间的情况下仍保持白色的表型,菌丝不能分隔,不能形成成熟的灰色孢子,结果表明sawE基因是一个与圈卷产色链霉菌分化有关的重要基因。     

The genome of <Emphasis Type="Italic">Streptomyces rimosus</Emphasis> subsp. <Emphasis Type="Italic">rimosus</Emphasis> shows a novel structure compared to other <Emphasis Type="Italic">Streptomyces</Emphasis> using DNA/DNA microarray analysis

DNA/DNA genome microarray analysis together with genome sequencing suggests that the genome of members of the genus Streptomyces would seem to have a common structure including a linear genomic structure, a core of common syntenous Actinomycete genes, the presence of species specific terminal regions and two intermediate group of syntenous genes that seem to be genus specific. We analyzed Streptomyces species using DNA/DNA microarray comparative genome analysis. Only Streptomyces rimosus failed to give a congruent genome pattern for the genes found in Streptomyces coelicolor. We expanded the analysis to include a number of strains related to the type strain of S. rimosus and obtained a similar divergence from the main body of Streptomyces species. These strains showed very close identity to the original strain with no gene deletion or duplication detected. The 16S rRNA sequences of these S. rimosus strains were confirmed as very similar to the S. rimosus sequences available from the Ribosomal Database Project. When the SSU ribosomal RNA phylogeny of S. rimosus is analyzed, the species is positioned at the edge of the Streptomyces clade. We conclude that S. rimosus represents a distinct evolutionary lineage making the species a worthy possibility for genome sequencing.     

Characteristics of the surface-located carbohydrate-binding protein CbpC from Streptomyces coelicolor A3(2)

Streptomyces coelicolor A32 produces a 35.6-kDa carbohydrate-binding protein (named CbpC) in the presence of cellobiose, cellulose or chitin as sole carbon source. The protein was found secreted (a typical signal sequence was present at the N-terminus) and linked to the peptidoglycan layer of the mycelia. At its C-terminal end a putative cell-wall sorting signal was identified, consisting of (1) Streptomyces specific recognition site for a transpeptidase (LAETG instead of generic LPXTP consensus), (2) a hydrophobic region and (3) a tail of positively charged residues. The deletion of this sorting signal abolished the cell-wall attachment because the resulting CbpC-form was found extracellular. After purification this protein was shown to interact strongly with crystalline cellulose; different crystalline chitin-forms were recognised moderately and chitosan not. As demonstrated by analysing further truncated CbpC-forms a glycine-aspartate/serine rich region, which separates the carbohydrate-binding module from the sorting signal, plays an important role in protein stability.     

NdgR,an IclR-like regulator involved in amino-acid-dependent growth,quorum sensing,and antibiotic production in <Emphasis Type="Italic">Streptomyces coelicolor</Emphasis>

NdgR (regulator for nitrogen source-dependent growth and antibiotic production), an IclR-like regulator, has been initially identified as a binding protein to the promoters of doxorubicin biosynthetic genes in Streptomcyes peucetius by DNA affinity capture assay method. NdgR is well conserved throughout the Streptomcyes species and many other bacteria such as Mycobacteria and Corynebacteria. In Streptomcyes coelicolor, ndgR deletion mutant showed slow cell growth and defects in differentiation and enhances the production of actinorhodin (ACT) in minimal media containing certain amino acids where wild-type strain could not produce ACT. Although deletion mutant of ndgR showed different antibiotic production in minimal media containing Leu or Gln, it only showed reduced mRNA expression levels of the genes involved in leucine metabolism. Neither NdgR-dependent expression of glnA nor direct binding of NdgR protein to glnA, glnII, and glnR promoters was observed. However, ScbR, which is governed by NdgR shown by gel mobility shift assay, binds to promoter of glnR, suggesting indirect regulation of glutamine metabolism by NdgR. NdgR protein binds to intergenic region of ndgR–leuC, and scbR–scbA involved in γ-butyrolactone. Two-dimensional gel analysis has shown a global effect of ndgR deletion in protein expression, including up-regulated proteins involved in ACT synthesis and down-regulation of chaperones such as GroEL, GroES, and DnaK. These results suggest a global regulatory role for NdgR in amino acid metabolisms, quorum sensing, morphological changes, antibiotic production, and expression of chaperonines in S. coelicolor. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Cloning and DNA sequence analysis of the mercury resistance genes of Streptomyces lividans

Summary A broad-spectrum mercury resistance locus (mer) from a spontaneous chloramphenicol-sensitive (Cm^s), arginine auxotrophic (Arg^–) mutant of Streptomyces lividan 1326 was isolated on a 6 kb DNA fragment by shotgun cloning into the mercury-sensitive derivative S. lividans TK64 using the vector pIJ702. The mer genes form part of a very large amplifiable DNA sequence present in S. lividans 1326. This element was amplified to about 20 copies per chromosome in the Cm^s Arg^– mutant and was missing from strains like S. lividans TK64, cured for the plasmid SLP3. DNA sequence analysis of a 5 kb region encompassing the whole region required for broad-spectrum mercury resistance revealed six open reading frames (ORFs) transcribed in opposite directions from a common intercistronic region. The protein sequences predicted from the two ORFs transcribed in one direction showed a high degree of similarity to mercuric reductase and organomercurial lyase from other gram-negative and gram-positive sources. Few, if any, similarities were found between the predicted polypeptide sequences of the other four ORFs and other known proteins.     

The Histidinol Phosphate Phosphatase Involved in Histidine Biosynthetic Pathway Is Encoded by <Emphasis Type="Italic">SCO5208</Emphasis> (<Emphasis Type="Italic">hisN</Emphasis>) in <Emphasis Type="Italic">Streptomyces coelicolor</Emphasis> A3(2)

Through the screening of a Streptomyces coelicolor genomic library, carried out in a histidinol phosphate phosphatase (HolPase) deficient strain, SCO5208 was identified as the last unknown gene involved in histidine biosynthesis. SCO5208 is a phosphatase, and it can restore the growth in minimal medium in this HolPase deficient strain when cloned in a high or low copy number vector. Moreover, it shares sequence homology with other HolPases recently identified in Actinobacteria. During this work a second phosphatase, SCO2771, sharing no homologies with SCO5208 and all so far described phosphatases was identified. It can complement HolPase activity mutation only at high copy number. Sequence analysis of SCO5208 and SCO2771, amplified from the HolPase mutant strain, revealed that SCO5208 shows a mutation in a conserved amino acid, whereas SCO2771 does not show any mutation. All these results show that S. coelicolor SCO5208, recently renamed hisN, is the HolPase involved in histidine biosynthesis.