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。     

Production of xylanases from rice bran by Streptomyces actuosus A-151

In this study, the agricultural waste was used to screen for an organism that is capable of producing enzymes for degrading xylan and cellulose. Results showed that Streptomyces actuosus A-151, isolated from northern Taiwan, produced β-xylanase when rice bran was used as the sole carbon source. Four xylanases, designated as FI-A, FI-B, FII-A, FII-B, were identified and purified from the culture filtrate of S. actuosus A-151. Their specific activities after purification were 41.3, 86.2, 20.4, 85.2 U/mg, respectively. The pH stability of the four enzymes was: FI-A, 5–8; FI-B, 3–8; FII-A, 5–9; and FII-B, 3–9. The optimum pH for FII-B was 4, and the others were near 5–6. The optimum temperatures for enzyme activities were 60 °C for FII-B, and 70 °C for the others. The thermal stability for all four enzymes were up to 60 °C. The molecular weights of FI-A, FI-B, FII-A, and FII-B xylanases were 30,000, 45,000, 26,000, and 20,000, respectively, by sodium dodecylsulfate–polyacrylamide gel electrophoresis and 30,000, 43,000, 25,000, and 21,000, respectively, by gel filtration. Addition of xylan, shrimp and crab shell powder, and orange peel to the culture medium was found to enhance the production of xylanase.     

The talc formulation of Streptomyces antagonist against Mycosphaerella foot rot in pea (Pisum sativum l.) seedlings

Pea is highly susceptible to pre-emergence damping off and foot rot after emergence caused by Mycosphaerella pinodes in western Algerian regions. Rhizosphere Actinomycetes which were antagonistic to the growth of this pathogen were isolated from chellif soils. An isolate of Streptomyces St7c5 provided superior seed protection. An increased in both germination and plant growth were recorded following treatment of seeds with Streptomyces formulated with inert or organic charge when compared to control. Application of the antagonist agent resulted in a significant reduction of Mycosphaerella foot rot to 5% compared with untreated seeds (25%). Hence, the talc formulation of Streptomyces agent can be recommended as one of the crop strategies for the management of foot rotting and blight caused by Mycosphaerella pinodes.     

High-yield actinorhodin production in fed-batch culture by a Streptomyces lividans strain overexpressing the pathway-specific activator gene actll-ORF4

Streptomyces lividans 1326 usually does not produce the red/blue colored polyketide actinorhodin in liquid culture even though it carries the entire actinorhodin biosynthesis gene cluster. The bacterium can be forced to produce this secondary metabolite by introducing actII-ORF4, the actinorhodin pathway-specific activator gene from Streptomyces coelicolor, on a multicopy plasmid. The production of actinorhodin by such a strain has been optimized by medium and process manipulations in fed-batch cultures. With high-yield cultivation conditions, 5 g actinorhodin/l are produced during 7 days of cultivation; or approximately 0.1 g actinorhodin/g dry weight (DW)/day in the production phase. The yield in this phase is 0.15 Cmol actinorhodin/Cmol glucose, which is in the range of 25% to 40% of the maximum theoretical yield. This high-level production mineral medium is phosphate limited. In contrast, nitrogen limitation resulted in low-level production of actinorhodin and high production of α-ketoglutaric acid. Ammonium as nitrogen source was superior to nitrate supporting an almost three times higher actinorhodin yield as well as a two times higher specific production rate. The wild-type strain lacking the multicopy plasmid did not produce actinorhodin when cultivated under any of these conditions. This work examines the actinorhodin-producing potential of the strain, as well as the necessity to improve the culture conditions to fully utilize this potential. The overexpression of biosynthetic pathway-specific activator genes seems to be a rational first step in the design of secondary metabolite overproducing strains prior to alteration of primary metabolic pathways for redirection of metabolic fluxes. Journal of Industrial Microbiology & Biotechnology (2002) 28, 103–111 DOI: 10.1038/sj/jim/7000219 Received 04 April 2001/ Accepted in revised form 30 October 2001     

Cloning, sequencing and heterologous expression of a new chitinase gene, chi92, from Streptomyces olivaceoviridis ATCC 11238

A new chitinase gene, chi92, encoding the largest known chitinase from Streptomyces olivaceoviridisATCC 11238 was sequenced by means of different PCR-methods. The cloned gene was expressed in E. coliand the recombinant protein could be detected by Western-blot analysis. The multiplicity of chitinolytic enzymes of this strain is discussed.     

Detecting un-authorized genetically modified organisms (GMOs) and derived materials

Genetically modified plants, in the following referred to as genetically modified organisms or GMOs, have been commercially grown for almost two decades. In 2010 approximately 10% of the total global crop acreage was planted with GMOs (James, 2011). More than 30 countries have been growing commercial GMOs, and many more have performed field trials. Although the majority of commercial GMOs both in terms of acreage and specific events belong to the four species: soybean, maize, cotton and rapeseed, there are another 20 + species where GMOs are commercialized or in the pipeline for commercialization. The number of GMOs cultivated in field trials or for commercial production has constantly increased during this time period. So have the number of species, the number of countries involved, the diversity of novel (added) genetic elements and the global trade. All of these factors contribute to the increasing complexity of detecting and correctly identifying GMO derived material. Many jurisdictions, including the European Union (EU), legally distinguish between authorized (and therefore legal) and un-authorized (and therefore illegal) GMOs. Information about the developments, field trials, authorizations, cultivation, trade and observations made in the official GMO control laboratories in different countries around the world is often limited, despite several attempts such as the OECD BioTrack for voluntary dissemination of data. This lack of information inevitably makes it challenging to detect and identify GMOs, especially the un-authorized GMOs. The present paper reviews the state of the art technologies and approaches in light of coverage, practicability, sensitivity and limitations. Emphasis is put on exemplifying practical detection of un-authorized GMOs. Although this paper has a European (EU) bias when examples are given, the contents have global relevance.     

High production of a class III lantipeptide AmfS in Streptomyces griseus

AmfS, a class III lantipeptide serves as a morphogen in Streptomyces griseus. Here, we constructed a high production system of AmfS in S. griseus. We isolated S. griseus Grd1 strain defective in glucose repression of aerial mycelium formation and found it suitable for the overproduction of AmfS. Two expression vectors carrying the strong and constitutive ermE2 promoter were constructed using a multicopy number plasmid, pIJ702. The use of the Grd1 strain combined with the expression vectors enabled high production of AmfS by S. griseus into its culture broth. The expression system was also effective for the generation of abundant AmfS derived from Streptomyces avermitilis. In addition, site-directed mutagenesis revealed the amino acid residues essential for the morphogen activity of AmfS. These results indicate that the constructed system enables efficient production of class III lantipeptides by Streptomyces.