Effective production of chitinase and chitosanase byStreptomyces griseus HUT 6037 using colloidal chitin and various degrees of deacetylation of chitosan

The advantages of the organismStreptomyces griseus HUT 6037 is that the chitinase and chitosanase using chitinaceouse substrate are capable of hydrolyzing both amorphous and crystalline chitin and chitosan. We attempted to investigate the optimization of induction protocol for high-level production and secretion of chitosanase and the influence of chitin and partially deacetylated chitosan sources (75–99% deactylation). The maximum specific activity of chitinase has been found at 5 days cultivation with the 48 hours induction time using colloidal chitin as a carbon source. To investigate characteristic of chitosan activity according to substrate, we used chitosan with various degree of deacetylation as a carbon source and found that this strain accumulates chitosanase in the culture medium using chitosanaceous substrates rather than chitinaceous substrates. The highest chitosanase activity was also presented on 4 days with 99% deacetylated chitosan. The partially 53% deacetylated chitosan can secrete both chitinase and chitosanase which was defined as a soluble chitosan. The specific activities of chitinase and chitosanase were 0.89 at 3 days and 1.33 U/mg protein at 5 days, respectively. It indicate that chitosanase obtained fromS. griseus HUT 6037 can hydrolyze GlcNAc-GlcN and GlcN-GlcN linkages by exo-splitting manner. This activity increased with increasing degree of deacetylation of chitosan. It is the first attempt to investigate the effects of chitosanase on various degrees of deacetylations of chitosan byS. griseus HUT 6037. The highest specific activity of chitosanase was obtained with 99% deacetylated chitosan.     

Structural studies of a two-domain chitinase from Streptomyces griseus HUT6037

Chitinase C (ChiC) from Streptomyces griseus HUT6037 was the first glycoside hydrolase family 19 chitinase that was found in an organism other than higher plants. An N-terminal chitin-binding domain and a C-terminal catalytic domain connected by a linker peptide constitute ChiC. We determined the crystal structure of full-length ChiC, which is the only representative of the two-domain chitinases in the family. The catalytic domain has an alpha-helix-rich fold with a deep cleft containing a catalytic site, and lacks three loops on the domain surface compared with the catalytic domain of plant chitinases. The chitin-binding domain is an all-beta protein with two tryptophan residues (Trp59 and Trp60) aligned on the surface. We suggest the binding mechanism of tri-N-acetylchitotriose onto the chitin-binding domain on the basis of molecular dynamics (MD) simulations. In this mechanism, the ligand molecule binds well on the surface-exposed binding site through two stacking interactions and two hydrogen bonds and only Trp59 and Trp60 are involved in the binding. Furthermore, the flexibility of the Trp60 side-chain, which may be involved in adjusting the binding surface to fit the surface of crystalline chitin by the rotation of chi2 angle, is shown.     

Effect of aminoglycoside antibiotics on the autolytic enzyme of Streptomyces griseus

The isolated cell wall of Streptomyces griseus 52–1 strain labelled with fluorescein isothiocyanate (FITC) and containing wall-bound autolytic enzyme was lysed as a function of different cations. The autolysis was accelerated by aminoglycoside antibiotics (streptomycin and the structurally closely related neomycin) which have a polycationic character. Since this strain is a streptomycin producer it is suggested that streptomycin may have a regulatory function on autolysis.     

来自拟青霉属真菌的壳聚糖酶的分离纯化、理化性质及降解产物的分析(英文)

从来自拟青霉属真菌Paecilomyces sp.CS-Z的发酵液中获得一种壳聚糖酶,该酶被纯化了9.4倍,产率为48.2%。经SDS-PAGE分析确定为单一条带,分子量为29kDa,其最适pH为6.0–6.5,最适温度为55℃,在80℃处理60min后,能保持较好的热稳定性,Hg2+完全抑制了酶活,对脱乙酰度85%–95%的壳聚糖具有较高的水解活性,而对几丁质和羧甲基纤维素无活性。薄层层析和质谱分析表明该酶是一种内切酶,其水解产物为聚合度大于6的壳寡糖,其理化性质与至今报道的壳聚糖酶有所不同,为壳聚糖酶的开发提供了重要的实验依据。     

Penicillin-binding proteins of protoplast and sporoplast membranes of Streptomyces griseus strains

Membrane-bound penicillin-binding proteins (PBPs) of two Streptomyces griseus strains that sporulate well in liquid and solid medium have been investigated during the course of their life-cycle. The PBP patterns were analyzed by sodium dodecylsulphate polyacrylamide-gel electrophoresis and fluorography. One strain (No. 45 H) has only a single band (mol wt: 27,000) in early log phase, and two additional PBPs of higher mol wt (69,000 and 80,000) in the late log phase. The other strain (No. 2682) possessed two bands with mol wts 27,000 and 38,000 which did not change during its vegetative phase. In strain No. 2682, a new PBP with a mol wt of 58,000 appeared in spore membranes while one of those (mol wt 38,000) present in mycelial membranes disappeared. Our results suggest that appearance of the new PBP in the spore may be associated with the sporulation process. The major PBP band (mol wt: 27,000) present in all stages of the life cycle of these strains, may be characteristic of S. griseus while the other PBPs reflect certain stages of the life cycle. A new method was developed for the production of spore protoplasts by consecutive enzymatic treatments.Abbreviation PBP penicillin-binding protein     

A-factor and streptomycin biosynthesis inStreptomyces griseus

Accumulating data have shown that the metabolites with a -butyrolactone ring functions as an autoregulatory factor or a microbial hormone for the expression of various phenotypes not only in a variety ofStreptomyces spp. but also in the distantly related bacteria. A-factor, as a representative of this type of autoregulators, triggers streptomycin biosynthesis and cellular differentiation inStreptomyces griseus. A model for the A-factor regulatory cascade on the basis of recent work is as follows. At an early step in the A-factor regulatory relay, the positive A-factor signal is first received by an A-factor receptor protein that is comparable in every aspect to eukaryotic hormone receptors, and then, via one or more regulatory steps, transmitted to an A-factor-responsive protein that binds to the upstream activation sequence of thestrR gene, a regulatory gene in the streptomycin biosynthetic gene cluster. The StrR protein thus induced appears to activate the other streptomycin biosynthetic genes. This review summarizes the characteristics of A-factor as a microbial hormone and the A-factor regulatory relay leading to streptomycin production.     

Hexavalent chromate reduction by immobilized Streptomyces griseus

Hexavalent chromium, which is a mutagen and carcinogen, was efficiently reduced by Streptomyces griseus. This activity was associated with the cell. Cr⁶⁺ reduction by free as well as immobilized cells was studied: cells in PVA-alginate had the highest (100%) Cr⁶⁺ removal efficiency in 24 h with reduction rates similar to free cells. Immobilized cells completely reduced 25 mg Cr⁶⁺ l⁻¹ in 24 h. PVA-alginate immobilized cells could be reused four times to completely reduce 25 mg Cr⁶⁺ l⁻¹ in 24 h each time. Chromate in a simulated effluent containing Cu²⁺, Mg²⁺, Mn²⁺ and Zn²⁺ was completely reduced by PVA-alginate immobilized cells within 9 h.     

PCR-mediated screening and cloning of a malate synthase genefrom Streptomyces griseus NCIMB 9001

Malate synthase is an essential metabolic enzyme of the glyoxylate bypass that makes possible the replenishment of carbon intermediates to cells grown on acetate. A polymerase chain reaction (PCR)-based molecular screening investigation of full-length malate synthase genes from Streptomyces spp. was initiated by our group. To this end, consensus primers were designed based on known streptomycete malate synthase sequences and successful amplification was obtained for Streptomyces griseus, S. fimbriatus and S. lipmanii. The putative full-length malate synthase gene from S. griseus was subsequently cloned, sequenced and expressed. Sequence analysis of this gene showed very high identity with other streptomycete malate synthase genes. Furthermore, high malate synthase activity was detected after heterologous expression in Escherichia coli, thus demonstrating successfully the rapid cloning and functional verification of a streptomycete malate synthase gene. Growth studies of S. griseus revealed that malate synthase activity was induced by the presence of acetate, which is a two-carbon source. Interestingly, the activity peaked during late growth phase when the biomass was declining, suggesting that the enzyme may have a late role in metabolism.     

Effect of aeration on antibiotic production byStreptomyces clavuligerus

Summary During the rapid growth phase ofStreptomyces clavuligerus in a 10 litre fermentor, the level of dissolved oxygen (DO) was found to drop to almost zero for a period of approximately 10 h, delaying the appearance of and lowering the production of the antibiotic cephamycin C. Controlling the DO at either 50% or 100% throughout the fermentation did not significantly alter the specific growth rate of the culture, but did elevate final antibiotic levels two- and three-fold respectively. The improved oxygen availability affected antibiotic production both by increasing the rate of specific cephamycin C bisosynthesis and by maintaining this higher rate throughout the production period. These results demonstrate that controlling dissolved oxygen levels close to saturation during periods of rapid growth markedly improves the efficiency and duration of cephamycin C biosynthesis inS. clavuligerus.     

Effects of several metals on spore,biomass, and geosmin production byStreptomyces tendae andPenicillium expansum

Cultures ofStreptomyces tendae andPenicillium expansum grown on Actinomyces and Czapek's media, respectively, were exposed to 5 mg L^–1 of manganese, magnesium, iron, cobalt, nickel, copper and zinc, supplied as sulfate salts. Only copper markedly increased geosmin (1, 10-dimethyl-9-decalol), biomass, and spore production. inductively coupled plasma-atomic emission spectrometric analysis ofS. tendae andP. expansum cells did not indicate an accumulation of copper. Both 1 and 5 mg L^–1 copper, as copper sulfate, increased total geosmin production in cultures ofS. tendae on several media, but decreased production on others, suggesting that substrate composition affects responses to copper.     

Synthesis of hydrolytic enzymes during production of tylosin byStreptomyces fradiae

Summary The exposure of a wild-type tylosin producing strain ofStreptomyces fradiae to mutagenic agents resulted in the isolation of several tylosin over-producing strains. Examination of three mutants, T4310, 612 and 3204 showed that improved tylosin production was associated with increased hydrolytic enzyme activity and cell growth. The wild-type strain showed lower levels of hydrolytic activity including, protease, amylase, lipase and esterase activities and attained a lower cell density than the mutants.     

The effect of feedback regulation and in situ product removal on the conversion of sugar to cycloheximide by Streptomyces griseus

An addition of cycloheximide to cycloheximide-producing Streptomyces griseus cultures resulted in reductions in the production rate and in the conversion of sugar into cycloheximide. In situ cycloheximide adsorption was observed to enhance: total cycloheximide titers; productivities; and the conversion of sugar to cycloheximide. During the secondary metabolite-producing phase, sugar consumption was observed to be linearly dependent on cycloheximide productivity. From this analysis a true product yield and maintenance coefficient were estimated to be 0.08 g cycloheximide/g glucose and 0.028 g glucose/g cell-h, respectively. The sixfold difference between this true product yield and a theoretical value obtained from knowledge of the biosynthetic pathway is discussed. Since the maintenance sugar requirement for cycloheximide production is large, stimulation of biosynthesis through in situ adsorption significantly increases the overall efficiency of sugar conversion to this secondary metabolite.     

Seed stage development for improved fermentation performance: Increased milbemycin production byStreptomyces hygroscopicus

Fermentation development for improved culture productivity can be achieved in a number of ways. Conventional approaches usually concentrate initially on optimisation of the final stage fermentation. However an understanding of the seed stage and its further development can lead to an improvement in final stage productivity. A significant increase in the production of milbemycin VM44866 byStreptomyces hygroscopicus was achieved by manipulation of several factors associated with the seed stage fermentation. Juvenile seeds and seed media containing reduced levels of carbohydrates overcame the detrimental effects of passaging and seed age associated with the standard (control) process. The effect of final stage inoculum level was seed medium-dependent and seed fermentation incubation temperature also affected subsequent milbemycin VM44866 production. These findings were extended to a second milbemycin-producing strain and these results have demonstrated the potential benefits of seed stage optimisation for improved final stage production.     

两端融合表达几丁质结合结构域提高几丁质酶抗真菌活性

【目的】通过两端融合表达几丁质结合结构域来提高几丁质酶的活性和生物防治植物病原真菌能力。【方法】以苜蓿链霉菌(Streptomyces alfalae)ACCC40021中唯一的GH19家族几丁质酶为模板,构建两端融合表达几丁质结合结构域的几丁质酶,并进行原核表达;利用3,5-二硝基水杨酸法(DNS)测定几丁质酶活。【结果】成功构建了CatD_(ChiB) (催化结构域)、rChiB (含N-端几丁质结合结构域)、DChBD_(ChiB)(含两端几丁质结合结构域)三种形式的酶,并在大肠杆菌中得到了高效表达;与CatD_(ChiB)和rChiB相比,DChBD_(ChiB)显著地提高了对α-几丁质、胶体几丁质和黑曲霉几丁质的结合能力和活性;同时增强了其对病原真菌长枝木霉的抑制作用。【结论】两端融合表达几丁质结合结构域是简单有效的提高几丁质酶活性及抗真菌活性的策略。     

An extracellular Bacillus sp. chitinase for the production of chitotriose as a major chitinolytic product

An extracellular chitinase of Bacillus sp. WY22 was purified by 9.6-fold. It had a Mr of 35 kDa, an apparent K _m value for colloidal chitin of 3 mg ml^–1 and was optimally active at 37 °C and pH 5.5 over 1 h. The enzyme could also hydrolyse swollen chitin, glycol chitin and chitosan with relative activities of 76%, 34% and 23% compared with colloidal chitin. It formed chitotriose as a major product from colloidal chitin and glycol chitin.     

Reevaluation of the teleomorph of the genus Histoplasma by ubiquinone systems

A study was performed to investigate the ability of Streptomyces griseus to cause experimental mycetoma in the skin and in the foot pads of mice. The lesions appeared as palpable subcutaneous nodules discharging pale yellow cheesy pus and granules of S. griseus. The inoculated foot pads of the mice also developed nodular lesions which later became oedematous with bone destruction and fibrosis.     

产壳聚糖酶内生真菌的筛选、鉴定及酶活力初步研究

植物内生真菌是挖掘不同类型壳聚糖酶及发现新酶的资源宝库。该研究从122株柑橘和血散薯内生真菌中筛选能产生壳聚糖酶的菌株,对其进行鉴定/初步研究酶活力影响因素,为后期其酶学性质及产壳聚糖酶内生真菌与宿主植物病害防御互作关系的研究奠定基础。通过透明圈法初筛结合液体发酵法进行复筛,得到2株可产生壳聚糖酶的内生真菌Stdif9和Stdif9-4,并发现Stdif9-4最高酶活力(0.968 U·mL^-1)显著高于Stdif9(0.780 U·mL^-1)。采用形态学和分子生物学结合的方法将菌株Stdif9-4鉴定为青霉属菌株,即Penicillium sp.Stdif9-4。通过DNS试剂法初步研究影响该菌株产壳聚糖酶活力的因素,发现不同培养时间对菌株壳聚糖酶活力具有显著影响,在培养96 h时,壳聚糖酶活力达到最大值。9种金属离子对菌株的酶活力具有不同影响,其中Mn²⁺和Ca²⁺对壳聚糖酶活力具有明显的激活作用;Ag⁺、Zn²⁺、Cd²⁺、Ba...     

Effect of 20-hydroxyecdysone and diflubenzuron on chitin production by a cockroach cell line

Summary Twelve insect cell lines were tested for their ability to synthesize chitin. Three of the 7 lepidopteran lines tested (UMN-PIE, IAL-PID2, MRRL-CH) produced a hyamine-resistant material, that was digested by chitinase. The material did not withstand a more rigorous base digestion, and 20-hydroxyecdysone and diflubenzuron had no consistent effect on the production of the, material. One of the 5 cockroach cell lines (UMBGE-4), which is an ecdysone-producing vesicle line, produced a material resistant to a strong base which was degraded to chitobiose andN-acetylglucosamine by chitinase. Production of this material by the cells is increased by 20-hydroxyecdysone and inhibited by diflubenzuron. The UMBGE-4 vesicles are covered with microvilli which bear membrane plaques and produce extra cellular material that resembles insect cuticle. Published with the approval of the Director of the North Dakota Agricultural Experiment Station as journal article No. 1622. Mention of a company name or propiertary product does not imply endorsement, by the U.S. Department of Agriculture.     

Conditions for the production of jadomycin B byStreptomyces venezuelae ISP5230: Effects of heat shock,ethanol treatment and phage infection

Summary The novel benzoxazolophenanthridine antibiotic, jadomycin B, is produced byStreptomyces venezuelae ISP5230 following a 42 °C heat shock or exposure to ethanol. To further characterize these unusual culture conditions, studies were carried out using different media, varying nutrient concentrations, initial pH, and time of application of heat or ethanol stress. Highest titers of jadomycin B accumulated 48 h afterS. venezuelae ISP5230 was inoculated into ad-galactose-l-isoleucine production medium (pH 7.5) which was supplemented with ethanol (6%, v/v) between 6 and 13 h. Cultures supplemented with ethanol later than 17 h post inoculation into the production medium produced little or no jadomycin B. Among other heat-shock inducing treatments examined, infection with phage SV1 was associated with increased jadomycin B production. Although jadomycin B titers showed little change with variations in the concentration of phosphate in the production medium, the nature of the nitrogen source was found to be important. Different colored pigments, presumed to be jadomycin B analogs, were formed when other amino acids replacedl-isoleucine in the medium as the sole nitrogen source. Increased jadomycin B titers accompanied increasedl-isoleucine andd-galactose concentrations in the production medium.