Demethylation of Veratrole by Cytochrome P-450 in Streptomyces setonii

The actinomycete Streptomyces setonii 75Vi2 demethylates vanillic acid and guaiacol to protocatechuic acid and catechol, respectively, and then metabolizes the products by the β-ketoadipate pathway. UV spectroscopy showed that this strain could also metabolize veratrole (1,2-dimethoxybenzene). When grown in veratrole-containing media supplemented with 2,2′-dipyridyl to inhibit cleavage of the aromatic ring, S. setonii accumulated catechol, which was detected by both liquid chromatography and gas chromatography. Reduced cell extracts from veratrole-grown cultures, but not sodium succinate-grown cultures, produced a carbon monoxide difference spectrum with a peak at 450 nm that indicated the presence of soluble cytochrome P-450. Addition of veratrole or guaiacol to oxidized cell extracts from veratrole-grown cultures produced difference spectra that indicated that these compounds were substrates for cytochrome P-450. My results suggest that S. setonii produces a cytochrome P-450 that is involved in the demethylation of veratrole and guaiacol to catechol, which is then catabolized by the β-ketoadipate pathway.     

Colonization and degradation of oxidized bituminous and lignite coals by fungi

Summary APenicillium sp. previously shown to grow on lignite coals degraded an air-oxidized bituminous coal (Illinois #6) to a material that was more than 80% soluble in 0.5 N NaOH. Scanning electron microscopy of the oxidized Illinois #6 revealed colonization of the surface by thePenicillium sp., production of conidia, and erosion of the coal surface. The average molecular weight (MW) of Illinois #6 degraded by the fungus and base-solubilized was approximately 1000 Da. The average MW for base-solubilized Illinois #6 that was not exposed to the fungus was 6000 Da, suggesting solubilizing mechanisms other than base catalysis. A spectrophotometric assay to quantify the microbial conversion of biosolubilized coal was developed. Standard curves were constructed based on the absorbance at 450 nm of different quantities of microbe-solubilized coal. An acid precipitation step was necessary to remove medium and/or microbial metabolites from solubilized coal to prevent overestimation of the extent of coal biosolubilization. Furthermore, the absorption spectra for different coal products varied, necessitating construction of standard curves for individual coals.     

Influence of coal source and treatment upon indigenous microbial communities

Summary The leaching of six Eastern coals was investigated using experimental coal columns subjected to simulated leaching events. Measurements of CO₂ assimilation and specific enrichment cultures indicated that the microbial communities of all leachates were dominated by iron- and sulfur-oxidizing chemoautotrophic bacteria. Comparison of CO₂ assimilation rates in leachates and core samples of leached coal indicated that most chemoautotrophs remained within coal columns during leaching. Mean numbers of chemoautotrophic bacteria in leachate samples were correlated with concentrations of dissolved iron and sulfate. Leachates from unwashed, run-of-mine coals contained more chemoautotrophs and more iron and sulfate than did leachates from washed, final product coals. After several leachings, the ratio of sulfur oxidizers to iron oxidizers tended to increase. These data suggest that the chemoautotrophic community of final product coals may be pyritelimited. Aerobic heterotrophs constituted a minor component of the microbial community in leachates from the six coals and their abundance and metabolic activity were apparently not influenced by the beneficiation history of the coal. Changes in rates of acetate metabolism may have been related to microbial succession within the heterotrophic community of coal columns. In all leachates, rates of tritiated methylthymidine assimilation were correlated with rates of acetate incorporation but not with CO₂ assimilation, even though autotrophs dominated the microflora. Thus, thymidine assimilation rates appear to reflect activities or growth of mainly heterotrophic microorganisms in leachate.     

Degradation of Softwood, Hardwood, and Grass Lignocelluloses by Two Streptomyces Strains

Two Streptomyces strains, S. viridosporus T7A and S. setonii 75Vi2, were grown on softwood, hardwood, and grass lignocelluloses, and lignocellulose decomposition was followed by monitoring substrate weight loss, lignin loss, and carbohydrate loss over time. Results showed that both Streptomyces strains substantially degraded both the lignin and the carbohydrate components of each lignocellulose; however, these actinomycetes were more efficient decomposers of grass lignocelluloses than of hardwood or softwood lignocelluloses. In particular, these Streptomyces strains were more efficient decomposers of grass lignins than of hardwood or softwood lignins.     

Carotenoid synthesis in Streptomyces setonii ISP5395 is induced by the gene crtS, whose product is similar to a sigma factor

In many species of actinomycetes, carotenogenesis can be photoinduced. The capacity to respond to photoinduction is, however unstable and, in various strains of Streptomyces, is lost at a relatively high frequency. In Streptomyces setonii ISP5395, which normally produces no carotenoids, carotenoid-producing mutants can be obtained following protoplast regeneration. We report here the characterization of a gene, crtS, which was isolated from one such mutant and can confer on wild-type S. setonii ISP5395 cells the capacity to synthesize carotenoids. Sequence analysis of crtS reveals an open reading frame, which shows homology to genes that encode alternative sigma factors in Bacillus subtilis. We propose that crtS encodes a sigma factor which is necessary for the expression of a cryptic gene(s) for carotenoid biosynthesis in S. setonii ISP5395.     

Isolation from haddock tissue of psychrophilic bacteria with maximum growth temperature below 20 degrees C.

Protoplast fusion was investigated as a technique for genetically manipulating two lignin-degrading Streptomyces strains, Streptomyces viridosporus T7A and Streptomyces setonii 75Vi2. Four of 19 recombinants tested showed enhanced production of acid-precipitable polymeric lignin (APPL), producing 155 to 264% more APPL from corn stover lignocellulose than was produced by the wild-type S. viridosporus T7A. APPLs are lignin degradation intermediates known to be potentially valuable chemical products produced by bioconversion of lignin with Streptomyces spp. The prospects of utilizing protoplast fusion to construct APPL-overproducing Streptomyces strains was considered especially promising.     

>Decolourisation and depolymerisation of solubilised low-rank coal by the white-rot basidiomycete Phanerochaete chrysosporium

Peroxidases secreted by the white-rot basidiomycete Phanerochaete chrysosporium can oxidise a wide range of recalcitrant compounds including lignin and aromatic xenobiotics. Since low-rank coals such as brown coal and lignite retain structural features of the parent lignin, we investigated the possibility that P. chrysosporium is capable of acting on a brown coal, with the production of useful low-molecular-mass compounds. In nitrogen-limiting liquid medium containing 0.03% solubilised Morwell brown coal, P. chrysosporium was found to convert about 85% of the coal after 16 days incubation to a form not recoverable by alkali-washing and acid-precipitation. The modal molecular mass of the residual coal macromolecules was reduced from the initial 65kDa to 32 kDa. Extensive bleaching of the coal coincided with the presence of extracellular lignin peroxidase (LiP) and manganese-dependent peroxidase (MnP), although both LiP and MnP activity were lower in cultures containing coal. These reductions are accounted for by interference with the enzyme assays by solubilised coal and by binding of MnP to precipitated coal. LiP was about eight times more sensitive than MnP to inhibition by solubilised coal. In nitrogen-sufficient medium containing solubilised coal, neither coal modification nor LiP activity were observed, suggesting that LiP is an essential component of the bleaching process.     

Bioconversion of coal,lignin, and dimethoxybenzyl alcohol byPenicillium citrinum

Summary Bioconversion of alkali-soluble coal, sulfonated lignin, and dimethoxybenzyl alcohol (DMBA) byPenicillium citrinum was investigated with respect to the effects of (1) these compounds on growth and metabolism, and (2) the organism on the chemical nature of coal and DMBA. Alkali-soluble coal caused a slight enhancement of grwoth and metabolism; DMBA and lignin partially inhibited growth and metabolism. Both whole cells and cell-free extracts were capable of oxidation of DMBA to dimethoxybenzaldehyde. Whole cells demonstrated the capability of modifying alkali-soluble Beulah Zap and Ugljevik lignite coals by producing compounds that were of lower and higher molecular weight than the original coal. In vivo conversion of alkali-soluble Ugljevik coal resulted in a substantial decrease in the sulfur content of the coal (52% decrease). Cell-free extracts were able to degrade alkali-soluble Ugljevik lignite coal. The results suggest a potential usefulness of this microorganism for coal bioprocessing.Nomenclature A light absorption - DMBA 3,4-dimethoxybenzyl alcohol - HPSEC high performance size exclusion chromatography - MW molecular weight     

Genetic and biochemical properties of an extracellular neutral metalloprotease from Staphylococcus hyicus subsp. hyicus

The gene encoding the extracellular neutral metalloprotease ShpI from Staphylococcus hyicus subsp. hyicus was cloned. DNA sequencing revealed an ORF of 1317 nucleotides encoding a 438 amino acid protein with Mr of 49698. When the cloned gene was expressed in Staphylococcus carnosus, a 42 kDa protease was found in the culture medium. The protease was purified from both S. carnosus (pCAshp1) and S. hyicus subsp. hyicus. The N-terminal amino acid sequences of the two proteases revealed that ShpI is organized as a pre-pro-enzyme with a proposed 26 amino acid signal peptide, a 75 amino acid hydrophilic pro-region, and a 337 amino acid extracellular mature form with a calculated Mr of 38394. The N-termini showed microheterogeneity in both host strains. ShpI had a maximum proteolytic activity at 55°C and pH 7.4–8.5. The protease, which had a low substrate specificity, could be inhibited by metal- and zinc-specific inhibitors, such as EDTA and 1,10-phenanthroline. Insensitivity to phosphoramidon separates ShpI from the thermolysin-like family. The conserved Zn²⁺ binding motif, the only homology to other proteases, and the reactivation of the apoenzyme by Zn²⁺, indicated that Zn²⁺ is the catalytic ion. Ca²⁺ very probably acts as a stabilizer. We also demonstrated the presence of a second extracellular protease in S. hyicus subsp. hyicus.     

Cloning and characterization of an alpha-enolase of the oral pathogen Streptococcus mutans that binds human plasminogen

Streptococcus mutans is the etiologic agent of dental caries and is a causative agent of infective endocarditis. While the mechanisms by which S. mutans cells colonize heart tissue is not clear, it is thought that bacterial binding to extracellular matrix and blood conponents is crucial in the development of endocarditis. Previously, we have demonstrated that S. mutans cells have the capacity to bind and activate plasminogen to plasmin. Here we report the first cloning and characterization of an α-enolase of S. mutans that binds plasminogen. The functional identity of the purified recombinant α-enolase protein was confirmed by its ability to catalyze the conversion of 2-phosphoglycerate to phosphoenolpyruvate. The protein exhibited a K_m of 9.5 mM and a V_max of 31.0 mM/min/mg. The α-enolase protein was localized in the cytoplasmic, cell wall and extracellular fractions of S. mutans. Binding studies using an immunoblot analysis revealed that human plasminogen binds to the enolase enzyme of S. mutans. These findings identify S. mutans α-enolase as a binding molecule used by this oral pathogen to interact with the blood component, plasminogen. Further studies of this interaction may be critical to understand the pathogenesis of endocarditis caused by S. mutans.     

接种AMF对煤矿废弃物上高丹草的生长和叶绿素荧光的影响

为改善采矿废弃物上植被生长状况,提高植物成活率,该研究采用盆栽试验法,以高丹草为材料,选用摩西球囊霉(Glomus mosseae,G.m)和地表球囊霉(G.versiforme,G.v)两种AM真菌,分别研究单接种和混合接种对粉煤灰(S1)、煤矸石(S2)和粉煤灰与煤矸石混合物(S3)三种煤矿废弃物基质上高丹草(Sorghum bicolor×S.sudanense)生长及叶绿素荧光的影响,并以正常沙土(S4)作为对照。结果表明:(1)4种基质上,3种接种处理均获得较高侵染率,在基质S1、S3和S4上均为接种摩西球囊霉对高丹草根系侵染率最高,分别为49.04%、57.40%、43.34%,在基质S2上,混合接种处理对高丹草根系侵染效果最好,达49.33%。(2)3种煤矿废弃物基质上高丹草根长、干重、叶绿素含量、F_v/F_o、q P和Yield显著降低。接种AM真菌显著提高了高丹草的生长和光合效率。与其他处理相比,在基质S1、S3和S4上,接种摩西球囊霉显著增加了根长、干重、叶绿素含量、F_v/F_o、q P和Yield,在基质S2上,接种地表球囊霉显著增加了根长、干重,接种地表球囊霉和摩西球囊霉+地表球囊霉(G.mv)处理间叶绿素荧光参数均无显著差异。这表明在煤矿废弃物基质的复合逆境中高丹草生长和光合作用显著受到抑制,AM真菌可通过提高高丹草叶绿素含量,改善叶片叶绿素荧光和光合作用,促进植物生长,来缓解该复合逆境对高丹草造成的伤害,增强其对煤矿废弃物不良环境的抗逆性,提高煤矿区植被恢复效果。接种摩西球囊霉对粉煤灰以及粉煤灰和煤矸石混合基质上高丹草的促进作用最佳,而接种地表球囊霉更适于煤矸石基质上高丹草的生长。     

cDNA cloning of an extracellular dermal glycoprotein of carrot and its expression in response to wounding

Suspension-cultured cells of carrot (Daucus carota L.) synthesize and secrete a glycoprotein that is normally found only in dermal tissues (epidermis, endodermis and periderm). This protein, previously called GP57, is now referred to as EDGP (E xtracellular D ermal G lyco P rotein). We purified sufficient quantities of EDGP to obtain amino-acid sequences on two internal tryptic peptides and screened a cDNA library of young carrot roots with antiserum to EDGP and with oligonucleotides corresponding to the peptides. Here we report the derived amino-acid sequence of EDGP. Sequence comparisons show that it has 40% amino-acid sequence identity with 7S basic globulin, a protein that is released when soybean seeds are soaked in hot water for a few hours. We suggest that these two proteins belong to a new family of dermal proteins. As far as we know, this is the first reported derived amino-acid sequence for protein that is specific to the epidermis and other dermal tissues. The level of EDGP mRNA is low in dry seeds, but increases rapidly in growing seedlings as they develop dermal tissues. The level of mRNA is low in storage roots, but increases rapidly in response to wounding. The presence of EDGP in dermal tissues and its up-regulation in response to wounding indicate a role in the response of plants to biotic and-or abiotic stresses. An unusual feature of the amino-acid sequence of EDGP is that it contains a short motif, which is present at the active site of aspartyl proteases such as pepsin and chymosin.Abbreviations cDNA copy DNA - 2,4-D 2,4-dichlorophen-oxyacetic acid - EDGP extracellular dermal glycoprotein - 7SBG 7S basic globulin Supported by a contract from the United States Department of Energy (Energy Biosciences) (to M.J.C.) and a Grant-in-Aid for Special Research on Priority Areas (01660002, Cellular and Molecular Basis for Reproductive Processes in Plants) from the Ministry of Education, Science and Culture, and by the Fund from Basic Research Core System of Science and Technology Agency, Japan (to S.S.).     

Production of lytic enzymes and siderophores, and inhibition of germination of basidiospores of Moniliophthora (ex Crinipellis) perniciosa by phylloplane actinomycetes

Streptomyces albovinaceus, Streptomyces caviscabies, Streptomyces griseus, Streptomyces setonii, and Streptomyces virginiae selected as antagonists of Moniliophthora (ex Crinipellis) perniciosa, the causal agent of cacao Witches’ broom, were examined in vitro to detect production of chitinases, β-1,3-glucanases, and cellulases. All the species produced chitinases, but not β-1,3-glucanases or cellulases, when grown on a liquid mineral medium containing glucose, colloidal chitin, or cell walls of M. perniciosa as a carbon source. There were no quantitative differences among species in the production of chitinase, however, the germination inhibition of basidiospores of M. perniciosa was higher when they were cultivated using glucose as a carbon source, followed by colloidal chitin and cell walls. All the species also produced hydroxymate type siderophores in similar quantities, and the quantity of siderophores did not correlate with the inhibition of basidiospore germination. The germination inhibition was more pronounced when S. albovinaceus, S. griseus, and S. virginiae were cultivated on iron-deficient medium, suggesting involvement of siderophores in the antagonism by these species of actinomycetes.     

Pathways of pyruvate metabolism and energetics of growth of Brochothrix thermosphacta

Brochothrix thermosphacta, a psychrophilic, facultative anaerobe, exhibited homolactic fermentation under anaerobic conditions in the presence of excess glucose. In glucose-limited chemostat culture (on synthetic medium), ethanol, acetate, formate and lactate were formed. Formation of ethanol and acetate was accounted for by the formate concentrations in culture filtrates. Acetate, formate and ethanol formation was enhanced at low growth rates in chemostat culture. O₂-limited chemostat studies indicated that formate formation was inhibited by oxygen (<0.2 M) and studies with a variant, strain 301, which lacked pyruvate dehydrogenase activity, showed that cell culture in basal medium did not occur at O₂ tensions greater than that preventing formate production in the wild-type strain. The data are consistent with stimulation of pyruvate formate lyase activity by glucose limitation, possibly because of decreased concentrations of glycolytic intermediates.S.P. Singh was and A. Garrett and P.J. Rogers are with the Division of Science and Technology, Griffith University, Brisbane 4111, Australia. J. McAvoy and A.F. Egan are with the CSIRO Meat Research Laboratory, Cannon Hills, Brisbane 4170, Australia. S.P. Singh is now with the Department of Microbiology, C.B.S. & H., G.B. Pant University of Agriculture & Technology, Pantnagar-263145, India.     

Ultraviolet light and ozone stimulate accumulation of salicylic acid,pathogenesis-related proteins and virus resistance in tobacco

In tobacco (Nicotiana tabacum L. cv. Xanthinc), salicylic acid (SA) levels increase in leaves inoculated by necrotizing pathogens and in healthy leaves located above the inoculated site. Systemic SA increase may trigger disease resistance and synthesis of pathogenesis-related proteins (PR proteins). Here we report that ultraviolet (UV)-C light or ozone induced biochemical responses similar to those induced by necrotizing pathogens. Exposure of leaves to UV-C light or ozone resulted in a transient ninefold increase in SA compared to controls. In addition, in UV-light-irradiated plants, SA increased nearly fourfold to 0.77 g·g^–1 fresh weight in leaves that were shielded from UV light. Increased SA levels were accompanied by accumulation of an SA conjugate and by an increase in the activity of benzoic acid 2-hydroxylase which catalyzes SA biosynthesis. In irradiated and in unirradiated leaves of plants treated with UV light, as well as in plants fumigated with ozone, PR proteins 1a and 1b accumulated. This was paralleled by the appearance of induced resistance to a subsequent challenge with tobacco mosaic virus. The results suggest that UV light, ozone fumigation and tobacco mosaic virus can activate a common signal-transduction pathway that leads to SA and PR-protein accumulation and increased disease resistance.Abbreviations PR protein pathogenesis-related protein - SA salicylic acid - TMV tobacco mosaic virus - UV ultraviolet This work was financed by grants from the U.S. Department of Agriculture (Competitive Research Grants Office), Division of Energy Biosciences of U.S. Department of Energy, the Rockefeller Foundation, the New Jersey Commission for Science and Technology, and the New Jersey Agricultural Experiment Station.     

Phenol oxidase activity and the Lozenge locus of Drosophila melanogaster

We have found that the phenol oxidase activity in 50-hr Drosophila melanogaster pupae is much greater than that of adult flies. The mutants lz and lz ^g have all of the phenol oxidase components present in wild type, whereas the mutant tyr-1 has all of the wild-type components but the activity of each component is greatly reduced in comparison with wild-type activity. The newly discovered lozenge allele, lz ^rfg, lacks all phenol oxidase activity.Predoctoral fellow supported by Grant GM 1974 from the National Institute of General Medical Sciences, National Institutes of Health.The Oak Ridge National Laboratory is operated for the U.S. Atomic Energy Commission by Union Carbide Corporation.     

Purification and some properties of endopolygalacturonase from Rhizopus sp. LKN

An endopolygalacturonase of Rhizopus sp. strain LKN, one of several isolates from tempe starter (ragi), was purified 235-fold by CM-Sephadex C-50, DEAE-Sephadex A-50 ion exchange chromatographies and Sephadex G-75 gel filtration. The purified enzyme was homogeneous by SDS-PAGE with a M _r of 38.5 kDa. Its K _m value for pectic acid was 2 mg/ml. It was stable at pH 4.5 to 11 and up to 50°C, with optimum activity at pH 4.5 to 4.75 and 55 to 60°C. Some ionic compounds enhanced the enzyme activity, whereas tannic acid at 0.5 mm caused about 90% inhibition.The authors are with the Department of Food Science and Technology, Faculty of Agriculture, Kyushu University, Hakozaki, Fukuoka 812, Japan.     

Comparison of extracellular Escherichia coli AppA phytases expressed in Streptomyces lividans and Pichia pastoris

A phytase gene (appA) from Escherichia coli was cloned into Streptomyces lividans and expressed as an extracellular protein which was then compared with the same enzyme expressed in Pichia pastoris. The phytase expressed in S. lividans was not glycosylated and had a molecular mass of 45 kDa. Compared with the glycosylated phytase expressed in P. pastoris, this non-glycosylated phytase was 25–50% less active (p<0.05) at pH 2 to 3.5 or at 45 and 55 °C, but 50% more active (p<0.05) at 75 °C. The thermo-tolerance of the non-glycosylated phytase was 26 and 48% higher (p<0.05) than that of the glycosylated phytase at 45 and 55 °C, but was 80 and 94% lower (p<0.05) at 65 ° and 75 °C, respectively.     

Mechanism of suppression inDrosophila: Regulation of tryptophan oxygenase by thesu(s) + allele

The suppressor gene,su(s)², inDrosophila melanogaster restores the production of red and brown eye pigments for some purple and vermilion mutant alleles, respectively. We showed previously that the product of thesu(s)⁺ allele caused inhibition of the sepiapterin synthase A produced by the purple mutant but did not affect the wild-type enzyme. Suppression was accomplished by removingsu(s)⁺ from the genome. We now report that the tryptophan oxygenase, produced by suppressible vermilion alleles, is also inhibited by extracts fromsu(s)⁺ flies. The inhibition of the vermilion enzyme can be reduced or eliminated, respectively, by prior storage of the extract at 4 or –20°C or by boiling, whereas the wild-type enzyme is not affected by extracts ofsu(s)⁺ flies. Also, when the suppressible vermilion strain is raised on certain diets, brown eye pigment production occurs. This epigenetic suppression was reduced by the presence of an extra copy ofsu(s)⁺ in the genome. These data support a posttranslational mechanism for regulation of enzyme activity in which the activity of the mutant enzyme is reduced by the product of thesu(s)⁺ allele. How thesu(s)⁺ gene product can distinguish between the normal and the mutant forms of these two enzymes is discussed, along with other mechanisms for suppression that are currently under investigation.This work was supported in part by a grant from the KOSEF, Korea Science and Engineering Foundation, and the National Science Foundation under the U.S.-East Asia Cooperative Science Program as well as the Office of Health and Environmental Research, U.S. Department of Energy, under Contract DE-AC05-840R21400 with the Martin Marietta Energy Systems, Inc.     

The optimal growth conditions for the biomass production of Isochrysis galbana and the effects that phosphorus, Zn2+, CO2, and light intensity have on the biochemical composition of Isochrysis galbana and the activity of extracellular CA

The effects of phosphorus, Zn²⁺, CO₂, and light intensity on growth, biochemical composition, and the activity of extracellular carbonic anhydrase (CA) in Isochrysis galbana were investigated. A significant change was observed when the concentration of phosphorus in the medium was increased from 5 μmol/L to 1000 μmol/L affecting I. galbana’s cell density, biochemical composition, and the activity of extracellular CA. Phosphorous concentration of 50 μmol/L to 500 μmol/L was optimal for this microalgae. The Zn²⁺ concentration at 10 μmol/L was essential to maintain optimal growth of the cells, but a higher concentration of Zn²⁺ (≥ 1000 μmol/L) inhibited the growth of I. galbana. High CO₂ concentrations (43.75 mL/L) significantly increased the cell densities compared to low CO₂ concentrations (0.35 mL/L). However, the activity of extracellular CA decreased significantly with an increasing concentration of CO₂. The activity of extracellular CA at a CO₂ concentration of 43.75 mL/L was approximately 1/6 of the activity when the CO₂ concentration was at 0.35 mL/L CO₂. Light intensity from 4.0 mW/cm² to 5.6 mW/cm² was beneficial for the growth, biochemical composition and the activity of extracellular CA. The lower and higher light intensity was restrictive for growth and changed its biochemical composition and the activity of extracellular CA. These results indicate that phosphorus, Zn²⁺, CO₂, and light intensity are important factors that impact growth, biochemical composition and the activity of extracellular CA in I. galbana.