链霉菌次级代谢调控机制进展

链霉菌除具有复杂的形态分化特征外 ,还可以产生多种具有重要应用价值的次级代谢产物 ,这两个过程密切相关。因此 ,链霉菌存在着原核生物中罕见的庞大而复杂的调控网络。链霉菌在遗传水平有三个层次的调控 ,分别是 :途径特异性调控、多效调控和全局调控。阐明这些调控网络将为利用代谢工程手段提高次级代谢产物的产量并对其进行结构改造奠定理论基础 ,还将有助于发现新的有价值的天然产物。     

对羟基扁桃酸合酶基因的克隆表达及催化特性

【目的】比较两种不同来源基因重组的对羟基扁桃酸合酶(HmaS),考察其在大肠杆菌中的表达效率。【方法】分别对东方拟无枝酸菌(Amycolatopsis orientalis)和天蓝色链霉菌(Streptomyces coelicolor)来源的hmas进行异源表达,经离子交换层析和凝胶过滤色谱分离纯化获得HmaS,并检测HmaS的酶活和催化特性。【结果】来源于S.coelicolor的HmaSSC2比酶活是来源于A.orientalis的3.6倍;来源于A.orientalis的HmaSAO最适反应温度为28°C,在弱碱性条件下的酶活稳定性较好;来源于S.coelicolor的HmaSSC2最适反应温度为35°C,在28-45°C内保持较高的酶活,具有良好耐热性,在pH 7.0左右酶活最高,更易在偏中性的条件下发挥功能。【结论】HmaSSC2更适用于代谢工程改造大肠杆菌发酵法生产扁桃酸。     

Medium optimization for the production of avermectin B1a by Streptomyces avermitilis 14-12A using response surface methodology

Response surface methodology was employed to optimize the composition of medium for the production of avermectin B1a by Streptomyces avermitilis 14-12A in shaker flask cultivation. Corn starch and yeast extract were found to have significant effects on avermectin B1a production by the Plackett–Burman design. The steepest ascent method was used to access the optimal region of the medium composition, followed by an application of response surface. The analysis revealed that the optimum values of the tested variables were 149.57 g/l corn starch and 8.92 g/l yeast extract. A production of 5128 mg/l, which was in agreement with the prediction, was observed in verification experiment. In comparison to the production of original level (3528 mg/l), 1.45-fold increase had been obtained.     

Influence of Al3+ on the titer of spiramycin and effective components in fermentor

Spiramycin is a multicomponent antibiotic, and different components have different antibacterial activities. In Streptomyces spiramyceticus 16-10-2, spiramycin II and spiramycin III (SPMII and SPMIII) are the main components, while spiramycin I (SPMI) needs to be controlled below 12%. Based on this, the influences of Al³⁺ on total spiramycin titer and components were investigated in this work. Those experiments were mainly performed in 15?L fermentor and Al³⁺ made a great improvement in spiramycin titer. The optimal adding concentration and adding time of Al³⁺ were 0.32?g/L at 12?hr. Under this condition, spiramycin titer was increased by 19.51% compared with the control. Moreover, the percentage of SPMII and SPMIII was increased by 7.14%. At the same time, the time of mycelia autolysis was lengthened. In addition, the specific activities of acetyl-CoA synthetase, acetate kinase, acetylphosphotransferase, and acylating enzyme were much higher than those of control. The content of acetic acid and succinic acid was beyond 3 and 4.5 times than that of control, respectively.     

Protein secretion in streptomycetes

Some aspects of the current knowledge on protein secretion in streptomycetes are presented, including recent data on the identification of genes involved in the general secretory pathway, on the importance of the signal peptide structure and on the number of ribosome-binding sites inside signal peptides which can influence the production level of a gene product.     

Inoculum Density and Population Dynamics of Suppressive and PathogenicStreptomycesStrains and Their Relationship to Biological Control of Potato Scab

SeveralStreptomycesstrains are capable of suppressing potato scab caused byStreptomyces scabies.Although these strains have been successful in the biocontrol of potato scab in the field, little is known about how populations of pathogenicStreptomycesin the potato rhizosphere are influenced by inoculation of the suppressive strains. The effects of inoculum densities of pathogenic and suppressiveStreptomycesstrains on their respective populations on roots and in rhizosphere soil were examined during the growing season. The relationships between inoculum density or rhizosphere population densities and disease severity were also investigated. Populations of suppressiveStreptomycesstrain 93 increased significantly on roots with increasing inoculum dose. At its highest inoculum dose, the suppressive strain reached a population density greater than 10⁶CFU/g root 14 weeks after planting. The ability of the suppressive strain to increase its populations with increasing inoculum density was hindered at high inoculum doses of the pathogen, suggesting that density-dependent competitive interactions may be occurring between the two antagonists. Strain 93 was most effective at preventing scab early in the growing season (8 weeks after planting), when tubers were most susceptible to the scab disease. Population densities of the suppressive strain in soil were more highly negatively correlated with scab severity than were populations on roots, suggesting that rhizosphere soil rather than potato roots may be the primary source of inoculum of the suppressive strain for tubers.     

Regulation of amino acid transport in growing cells of Streptomyces hydrogenans

The uptake of various amino acids into Streptomyces hydrogenans grown in chemostatically and turbidostatically controlled steady state cultures has been investigated. A close correlation between transport capacity and the growth rates of the cells was found. As shown by kinetic analysis, the increased transport is due to elevated maximum uptake rates, the apparent Michaelis constants remaining unchanged. Analysis of the unidirectional fluxes of cycloleucine revealed that not only the influx is raised as the growth rate is increased but also the efflux. Hence, the conclusion is drawn that the growth-rate dependent modulation of transport capacity is, at least, partially due to the variation of the concentration of active transport components. Since the cells were grown in the absence of external amino acids the results suggest that amino acid transport into S. hydrogenans is under the control of endogenous effectors.List of Abbreviations AIB 2-aminoisobutyric acid - Cycloleucine 1-aminocyclopentane-1-carboxylic acid     

Factors affecting co-inoculation with antibiotic-producing bacteria to enhance rhizobial colonization and nodulation

Co-inoculation with antibiotic-producing bacteria and rhizobia resistant to those antibiotics has been proposed as a means of promoting colonization and nodulation of legumes by root-nodule bacteria. A study was conducted to establish some of the factors affecting co-inoculation with antibiotic-producing strains of Bacillus and Streptomyces griseus. The stimulation of Rhizobium meliloti and yield and N uptake by alfalfa was enhanced with increasing inoculum size of Bacillus sp. S. griseus and chitin added to soil increased nodulation of soybeans by Bradyrhizobium japonicum and increased nodulation, yield, and number of pods on a second crop grown in the same soil. Bacillus sp. persisted in soil in sufficient numbers for at least 51 days to increase colonization of soybean roots by B. japonicum. The populations of S. griseus, Bacillus sp., and antibiotic-resistant isolates of R. meliloti and B. japonicum fell after their addition to seeds. Nevertheless, a benefical effect by the antibiotic-producing bacteria was evident on R. meliloti colonization of the rhizosphere, nodulation, and yield of alfalfa grown from seeds stored 94 days and on B. japonicum colonization, nodule number, yield, and seed weight of soybeans grown from seeds stored 90 days. Because non-antibiotic-producing derivatives of Bacillus sp. and S. griseus did not promote colonization or nodulation of alfalfa roots by R. meliloti, the benefit of this co-inoculation is a result of antibiotic formation.     

Streptomyces genes involved in aerial mycelium formation

Abstract Cloning of genes as suppressors of the aerial mycelium-defective phenotype of Streptomyces griseus HH1 resulting from A-factor-deficiency has led to the identification of several genes, including amfR, amfAlamfB, amfC , and orf1590 . These genes are involved in aerial mycelium formation independent of secondary metabolic function. Among these, AmfR which belongs to the family of response regulators of two-component regulatory systems and AmfA/AmfB similar to ATP-dependent membrane translocators are analogous to the multicomponent phosphorelay and the Spo0K system, respectively, both of which are required for the initiation of sporulation in Bacillus subtilis . Involvement of a protein serine/threonine kinase in aerial mycelium formation is also suggested, because the Streptomyces coelicolor A3(2) afsK gene encoding a 'eukaryotic'-type protein kinase reverses the aerial mycelium-defective phenotype of strain HH1, independent of secondary metabolic function.     

Evaluation of Streptomyces spp. and Bacillus spp. for biocontrol of Fusarium wilt in chickpea (Cicer arietinum L.)

A study was carried out to test direct and indirect antagonistic effect against Fusarium wilt, caused by Fusarium oxysporum f. sp. ciceri (FOC), and plant growth-promoting (PGP) traits of bacteria isolated from rhizosphere soils of chickpea (Cicer arietinum L.). A total of 40 bacterial isolates were tested for their antagonistic activity against FOC and of which 10 were found to have strong antagonistic potential. These were found to be Streptomyces spp. (five isolates) and Bacillus spp. (five isolates) in the morphological and biochemical characterisation and 16S rDNA analysis. Under both greenhouse and wilt sick field conditions, the selected Streptomyces and Bacillus isolates reduced disease incidence and delayed expression of symptoms of disease, over the non-inoculated control. The PGP ability of the isolates such as nodule number, nodule weight, shoot weight, root weight, grain yield and stover yield were also demonstrated under greenhouse and field conditions over the non-inoculated control. Among the ten isolates, Streptomyces sp. AC-19 and Bacillus sp. BS-20 were found to have more potential for biocontrol of FOC and PGP in chickpea. This investigation indicates that the selected Streptomyces and Bacillus isolates have the potential to control Fusarium wilt disease and to promote plant growth in chickpea.