Genome sequence of Streptomyces sp. strain Tü6071

Streptomyces sp. Tü6071 is a soil-dwelling bacterium which has a highly active isoprenoid biosynthesis. Isoprenoids are important precursors for biopharmaceutical molecules such as antibiotics or anticancer agents, e.g., landomycin. Streptomyces sp. Tü6071 produces the industrially important terpene glycosides phenalinolactones, which have antibacterial activity against several Gram-positive bacteria. The availability of the genome sequence of Streptomyces sp. Tü6071 allows for understanding the biosynthesis of these pharmaceutical molecules and will facilitate rational genome modification to improve industrial use.     

Genome sequence of the Lebeckia ambigua-nodulating “Burkholderia sprentiae” strain WSM5005T

“Burkholderia sprentiae” strain WSM5005^T is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated in Australia from an effective N₂-fixing root nodule of Lebeckia ambigua collected in Klawer, Western Cape of South Africa, in October 2007. Here we describe the features of “Burkholderia sprentiae” strain WSM5005^T, together with the genome sequence and its annotation. The 7,761,063 bp high-quality-draft genome is arranged in 8 scaffolds of 236 contigs, contains 7,147 protein-coding genes and 76 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.     

Genome sequence and characterisation of a freshwater photoarsenotroph,Cereibacter azotoformans strain ORIO,isolated from sediments capable of cyclic light–dark arsenic oxidation and reduction

A freshwater photosynthetic arsenite-oxidizing bacterium, Cereibacter azotoformans strain ORIO, was isolated from Owens River, CA, USA. The waters from Owens River are elevated in arsenic and serve as the headwaters to the Los Angeles Aqueduct. The complete genome sequence of strain ORIO is 4.8 Mb genome (68% G + C content) and comprises two chromosomes and six plasmids. Taxonomic analysis placed ORIO within the Cereibacter genus (formerly Rhodobacter). The ORIO genome contains arxB₂AB₁CD (encoding an arsenite oxidase), arxXSR (regulators) and several ars arsenic resistance genes all co-localised on a 136 kb plasmid, named pORIO3. Phylogenetic analysis of ArxA, the molybdenum-containing arsenite oxidase catalytic subunit, demonstrated photoarsenotrophy is likely to occur within members of the Alphaproteobacteria. ORIO is a mixotroph, oxidises arsenite to arsenate (As(V)) photoheterotrophically, and expresses arxA in cultures grown with arsenite. Further ecophysiology studies with Owens River sediment demonstrated the interconversion of arsenite and As(V) was dependent on light–dark cycling. arxA and arrA (As(V) respiratory reductase) genes were detected in the light–dark cycled sediment metagenomes suggesting syntrophic interactions among arsenotrophs. This work establishes C. azotoformans str. ORIO as a new model organism for studying photoarsenotrophy and light–dark arsenic biogeochemical cycling.     

Complete genome sequence of Planctomyces limnophilus type strain (Mü 290)

Planctomyces limnophilus Hirsch and Müller 1986 belongs to the order Planctomycetales, which differs from other bacterial taxa by several distinctive features such as internal cell compartmentalization, multiplication by forming buds directly from the spherical, ovoid or pear-shaped mother cell and a cell wall which is stabilized by a proteinaceous layer rather than a peptidoglycan layer. Besides Pirellula staleyi, this is the second completed genome sequence of the family Planctomycetaceae. P. limnophilus is of interest because it differs from Pirellula by the presence of a stalk and its structure of fibril bundles, its cell shape and size, the formation of multicellular rosettes, low salt tolerance and red pigmented colonies. The 5,460,085 bp long genome with its 4,304 protein-coding and 66 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.     

Overproduction of poly(β-malic acid) (PMA) from glucose by a novel Aureobasidium sp. P6 strain isolated from mangrove system

After over 100 strains of Aureobasidium spp isolated from mangrove system were screened for their ability to produce poly(β-malic acid) (PMA), it was found that Aureobasidium sp. P6 strain among them could produce high level of Ca²⁺-PMA. Fourteen percent glucose and 6.5 % CaCO₃ in the medium were the most suitable for Ca²⁺-PMA production. Then, 100.7 g/l of Ca²⁺-PMA was produced using Aureobasidium sp. P6 strain within 168 h at flask level. During 10-l batch fermentation, when the medium contained 12.0 % glucose, 98.7 g/l of Ca²⁺-PMA in the culture and 14.7 g/l of cell dry weight were obtained within 156 h, leaving 0.34 % reducing sugar in the fermented medium. When glucose concentration in the fermentation medium was 14.0 %, 118.3 g/l of Ca²⁺-PMA in the culture and 16.4 g/l of cell dry weight were obtained within 168 h, leaving 0.4 % reducing sugar in the fermented medium. After purification of Ca²⁺-PMA from the culture and acid hydrolysis of the pure Ca²⁺-PMA, analysis of HPLC showed that Aureobasidium sp. P6 strain only produced two main components of Ca²⁺-PMA and minor amount of calcium malate and that the hydrolysate of PMA was mainly composed of calcium malate. This is the first time to report that the novel yeast strain Aureobasidium sp. P6 strain isolated from the mangrove systems can produce such high amount of Ca²⁺-PMA.     

Biochemical detection of a metallo-β-lactamase in carbapenem resistant strain ofStreptomyces sp. CN229 isolated from soil

Streptomyces sp. CN229 was isolated from Tunisia soil. This strain displayed antimicrobial activity against Gram positive and Gram negative bacteria. In addition it is resistant to most β-lactam antibiotics including imipenem and meropenem (MIC imipenem >70 μg/ml). Metallo-β-lactamase (MβL) production was confirmed by either imipenem MIC decrease in the presence of ethylene diamine tetraactic acid (EDTA) or the inhibition zone enhancement around EDTA-impregnated imipenem, or meropenem discs. Isolectric focusing analysis demonstrated the production of β-lactamase with pI of 5.8 that is inhibited by EDTA.Streptomyces sp. CN229 was screened for the imipenem resistance genes,bla _VIM andbla _IMP previously identified inPseudomonas aeruginosa. The presence of these genes was not confirmed by specific PCR analysis. We concluded that carbapenem resistance inStreptomyces sp. CN229 strain is mainly due to production of a novel carbapenemase. Our data show for the first time that MβL is produced byStreptomyces sp. MβL-mediated imipenem and meropenem resistance inStreptomyces is a cause for concern in the study of resistance evolution and antibiotic cluster biosynthetic genes.     

Characterization of a novel β-glucosidase from a Stachybotrys strain

An improved mutant was isolated from the cellulolytic fungus Stachybotrys sp. after nitrous acid mutagenesis. It was fed-batch cultivated on cellulose and its extracellular cellulases (mainly the endoglucanases and β-glucosidases) were analyzed. One β-glucosidase was purified to homogeneity after two steps, MonoQ and gel filtration and shown to be a dimeric protein. The molecular weight of each monomer is 85 kDa. Besides its aryl β-glucosidase activity towards salicin, methyl-umbellypheryl-β-d-glucoside (MUG) and p-nitrophenyl-β-d-glucoside (pNPG), it showed a true β-glucosidase activity since it splits cellobiose into two glucose monomers. The V_max and the K_m kinetics parameters with pNPG as substrate were 78 U/mg and 0.27 mM, respectively. The enzyme shows more affinity to pNPG than cellobiose and salicin whose apparent values of K_m were, respectively, 2.22 and 37.14 mM. This enzyme exhibits its optimal activity at pH 5 and at 50 °C. Interestingly, this activity is not affected by denaturing gel conditions (SDS and β-mercaptoethanol) as long as it is not pre-heated. The N-terminal sequence of the purified enzyme showed a significant homology with the family 1 β-glucosidases of Trichoderma reesei and Humicola isolens even though these two enzymes are much smaller in size.     

Characterization of a β-1,4-mannanase from a newly isolated strain of Pholiota adiposa and its application for biomass pretreatment

A highly efficient β-1,4-mannanase-secreting strain, Pholiota adiposa SKU0714, was isolated and identified on the basis of its morphological features and sequence analysis of internal transcribed spacer rDNA. P. adiposa β-1,4-mannanase was purified to homogeneity from P. adiposa culture supernatants by one-step chromatography on a Sephacryl gel filtration column. P. adiposa β-1,4-mannanase showed the highest activity toward locust bean gum (V _max = 1,990 U/mg protein, K _m = 0.12 mg/mL) ever reported. Its internal amino acid sequence showed homology with hydrolases from the glycoside hydrolase family 5 (GH5), indicating that the enzyme is a member of the GH5 family. The saccharification of commercial mannanase and P. adiposa β-1,4-mannanase-pretreated rice straw by Celluclast 1.5L (Novozymes) was compared. In comparison with the commercial Novo Mannaway^® (113 mg/g-substrate), P. adiposa β-1,4-mannanase-pretreated rice straw released more reducing sugars (141 mg/g-substrate). These properties make P. adiposa β-1,4-mannanase a good candidate as a new commercial β-1,4-mannanase to improve biomass pretreatment.     

Purification and characterization of a novel α-amylase from a newly isolated Bacillus methylotrophicus strain P11-2

An aerobic bacterial strain P11-2 with high amylolytic activity was isolated from soil sample collected from wheat field of Jiyuan, China. The strain was identified as Bacillus methylotrophicus by morphological and physiological characteristics as well as by analysis of the gene encoding the 16S rRNA. The α-amylase was purified to homogeneity by a combination of 80% (NH₄)₂SO₄ precipitation, DEAE FF anion exchange, and superdex 75 10/300 GL gel filtration chromatography. The purified α-amylase exhibited specific activity of 330.7 U/mg protein that corresponds to 13.1 fold purification. The relative molecular mass of the α-amylase was 44.0 kDa by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The optimal pH and temperature for enzyme activity were 7.0 and 70 °C, respectively. The α-amylase activity was stimulated by Mg²⁺, Ba²⁺, Al³⁺ and dl-dithiothreitol (DTT), however, Ca²⁺ almost had no activation or inhibition on the α-amylase. After 4 h of reaction toward soluble starch, the end products were glucose, maltose and maltotriose. The 10 residues of the N-terminal sequence of the purified α-amylase were SVKNGQILHA, which showed no homology to other reported α-amylases from Bacillus strain.     

A novel amino-oligosaccharide isolated from the culture of Streptomyces strain PW638 is a potent inhibitor of α-amylase

A novel amino-oligosaccharide, named SF638-1, was isolated from the culture filtrate of the Streptomyces strain PW638. Its chemical structure was determined by electrospray ionization tandem mass spectrometry (ESI-MS/MS) and two-dimensional nuclear magnetic resonance spectroscopy. The novel compound was a mixed inhibitor of human pancreatic α-amylase, with a K_i value in the same order of magnitude as that of the α-amylase inhibitor, acarbose. SF638-1 inhibited starch hydrolysis and glucose transfer in vitro, and suppressed postprandial blood glucose elevation in vivo. These results suggest that SF638-1 may be a potent antidiabetic agent.     

In vitro regeneration of the endangered cactus Turbincarpus mombergeri (Riha), a hybrid of T. laui × T. pseudopectinatus

Turbinicarpus mombergeri is a cacti species formed by a hybridization process between Turbinicarpus laui and Turbinicarpus pseudopectinatus. Under natural conditions, it is very difficult for two species be genetically compatible for hybridization, and to produce flowers at the same time. Thus, T. mombergeri is a very interesting and a rare species. Unfortunately, the current populations are decreasing and now it is considered critically endangered. The aim of this research was to develop a successful protocol for propagating T. mombergeri using the in vitro culture techniques. Seed disinfection was performed with Plant Preservative Mixture, and 80% of germination occurred at day 45 in Murashige-Skoog medium. The shoots were cut longitudinally, and the segments were transferred to media containing 2.22 or 4.44 µM benzyladenine to induce shooting. The generated shoots were highly hydrated, and presented abundant callus. The hyperhydricity was controlled by reducing salt medium concentration, by increasing calcium levels and by using polyethylenglycol. The reduction of callus was attained by adding tri-iodo benzoic acid. Vigorous and thick shoots were generated in medium containing urea, and rooting improved in the presence of 0.5 µM indoleacetic acid. Plantlets with normal morphology were obtained, and the survival rate of the plants in soil was 80%. The methodology developed represents an alternative for propagation of T. mombergeri under controlled conditions for commercial or conservation purposes.

     

An alkaline β-glucosidase isolated from an olive brine strain of Wickerhamomyces anomalus

An efficient β-glucosidase (βG)-producing strain, Wickerhamomyces anomalus BS81, was isolated from naturally fermented olive brine and identified based on PCR/restriction fragment length polymorphism of the rDNA internal transcribed spacer and sequence analysis of the D1/D2 region of the 26S rRNA gene. The hydrolytic activity of the βG had an optimum pH of 8.5 and an optimum temperature of 35 °C. The enzyme had high substrate specificity and high catalytic efficiency (K(m) 0.99 mM, V(max) 14 U g(-1) of cells) for p-nitrophenyl-β-d-glucopyranoside. The enzyme was activated by increasing concentrations of NaCl, with maximum activity at 150 g L(-1) NaCl. Although βGs have been purified and characterized from several other sources, the W. anomalusβG is unique among βGs because its relative maximum activity occurs at alkaline pH and 35 °C. Moreover, the yeast strain has esterase activity that acts synergistically with βG to degrade oleuropein to debitter table olives and olive oil.     

Synthesis of 2,3-di-O-phytanyl-1-O-(α-D-glucopyranosyl)-sn-glycerol derivatives,analogues of polar lipids isolated from a halophilic bacterial strain

2,3-Di-O-phytanyl-1-O-glucopyranosylglycerol and polar derivatives of its 6-glucose moiety have been synthesized. The target molecule contains the diphytanyl-sn-glycerol moiety which is -linked to glucose. The key step in its synthesis involves the coupling of phytanyl bromide and isopropylidene threitol. We also demonstrated that the 6-hydroxyl group of glycolipids can be functionalized without protection of the sugar moiety.     

Preparation of baicalein from baicalin using a baicalin-β-D-glucuronidase from Aspergillus niger b.48 strain

Baicalin-β-d-glucuronidase was produced from a culture of Aspergillus niger b.48 strain using Scutellaria root extract as an enzyme inducer, purified and characterized. The enzyme’s molecular weight was approximately 45 kDa; its optimal operating temperature and pH were 50 °C and 5.0, respectively. The enzyme specifically hydrolysed 7-O-β-d-glucuronide of baicalin into baicalein, weakly hydrolysed β-d-glucuronide of p-nitrophenyl-β-d-glucuronide and p-phenolphthalein-β-d-glucuronide, but did not hydrolyse β-d-glucuronide of glycyrrhizin. The Michaelis constant (Km) was 21.74 mM; Vmax was 11.63 mM/h. Common metallic ions almost did not effect enzyme activity; greater than 10 mM/L Cu²⁺ and greater 50 mM/L Fe³⁺ ion strongly inhibited enzyme activity. The use of pure enzyme in baicalin conversion to baicalein was costly, the crude baicalin-β-d-glucuronidase from A. niger b.48 strain was used in the preparation of baicalein from baicalin to keep costs low. The optimum conditions for baicalein production from crude enzyme reaction were 1% baicalin reacting for 20 h–24 h at pH 5.0 and 50 °C. Here, 10.7 g baicalein was obtained from 20 g baicalin using the crude enzyme, and the molar yield was 88.4 %. Therefore, active baicalein was successfully produced at low cost from baicalin using a non-transgenic crude enzyme from A. niger b.48.     

Orientisargidae fam. n., a new Jurassic family of Archisargoidea (Diptera,Brachycera), with review?of?Archisargidae from China

A pair of fly impressions is described as a new species of a new genus, Orientisargus illecebrosus gen. et sp. n., referred to a new family Orientisargidae fam. n. within Archisargoidea of Brachycera, Diptera. The systematic position of Orientisargidae is discussed. Daohugosargus gen. n. is proposed for Sharasargus eximius KY Zhang et al., 2008. Uranorhagionidae is a junior synonym for Archisargidae. Meanwhile, Mostovskisarginae is a junior synonym for Uranorhagionidae. Mostovskisargus JF Zhang, 2010 and Strenorhagio KY Zhang et al., 2010 are synonymized with Uranorhagio KY Zhang et al., 2010. Uranorhagio includes three species: Uranorhagio asymmetricus (KY Zhang et al., 2010), comb. n., Uranorhagio daohugouensis KY Zhang et al., 2010 and Uranorhagio deviatus (KY Zhang et al., 2010), comb. n. Strenorhagio grimaldi KY Zhang et al., 2010 is synonymous with Uranorhagio deviatus. Mostovskisargus portentosus JF Zhang, 2010, Mostovskisargus signatus JF Zhang, 2010 and Strenorhagio conjugovenius KY Zhang et al., 2010 are synonymous with Uranorhagio asymmetricus. Brevisolva KY Zhang et al., 2010 is a junior synonym for Mesosolva Hong, 1983. A new specific name, Mesosolva zhangae nom. n., is proposed for Brevisolva daohugouensis KY Zhang et al., 2010. Mesosolva jurassica KY Zhang et al., 2010 should be synonymized under Mostovskisargus sinensis KY Zhang et al., 2010. Sinallomyia nom. n. is proposed for Allomyia Ren, 1998. The systematic positions for Helempis eucalla Ren, 1998, Helempis yixianensis Ren, 1998, Pauromyia oresbia Ren, 1998 and Sinallomyia ruderalis (Ren, 1998) are reassessed. These taxa belong to Archisargidae rather than to Tabanidae, Rhagionidae and Protempididae, respectively.     

α-Crystallin. Fractionation of subunits and sequence studies on an isolated polypeptide

alpha-Crystallin was carboxymethylated with radioactive iodoacetic acid in the presence of 7.6m-urea and then separated into six major fractions by chromatography on DEAE-cellulose in 7m-urea. Based on the amino acid compositions, specific radioactivities and sodium dodecyl sulphate-gel electrophoresis of the fractions, it was concluded that alpha-crystallin contains at least four different subunits: DU1A and DU1B, containing no cysteine; a third component represented by DU2B and DU3 containing one cysteine one cysteine residue per subunit; and DU4, which probably contains two residues of cysteine per subunit. Subunit DU1A was shown to be of sufficient purity for sequence studies. Cyanogen bromide cleavage yielded two peptides, CB-1 and CB-2, in approximately equal amounts as expected. The sum of the molecular weights and amino acid compositions of the peptides were both in excellent agreement with the results obtained for subunit DU1A. The amino acid sequence of the first sixteen residues of peptide CB-1 is: Ser-Leu-Thr-Lys-Asp-Phe-Asp-Glu-Val-Asn-Ile-Asp-Val-Ser-His-Phe-. The sequence of the first seventeen residues of peptide CB-2 is: Asp-Ile-Ala-Ile-Ser-His-Pro-Trp-Ile-Arg-Pro-Ser-Phe-Phe-Glu-Phe-His-. The N-terminal sequence of subunit DU1A was shown to be N-acetylmethionine followed by peptide CB-2.     

Purification and some properties of cellulose 1,4-β-cellobiosidase from a strain of Penicillium sp.

A cellulase was purified from the culture supernatant of a strain of Penicillium sp. The purified enzyme was homogenous on polyacrylamide disc gel electrophoresis. It was a glycoprotein with a molecular weight of 52,000 estimated by gel filtration. The optimum pH was about 4.0 and the optimum temperature was 60°C. The enzyme was stable in the pH range of 3.0–10.0 at 6°C for 48 h and on heating at 60°C for 10 min. The activity of the enzyme toward Avicel was about 3 times higher than toward carboxymethyl cellulose. The enzyme showed a low activity for cotton, newspaper, filter paper and cellulose powder. The main product from Avicel was cellobiose, with a trace of glucose.     

Characterization of β-glucosidase from a strain of Penicillium purpurogenum KJS506

A novel β-glucosidase (BGL)-producing strain was isolated and identified as Penicillium purpurogenum KJS506 based on its morphology and internal transcribed spacer (ITS) rDNA gene sequence. When rice straw and corn steep powder were used as carbon and nitrogen sources, respectively, the maximal BGL activity of 12.3 U ml⁻¹, one of the highest levels among BGL-producing microorganisms was observed. The optimum temperature and pH for BGL production were 32 °C and 4, respectively. An extracellular BGL was purified to homogeneity by sequential chromatography of P. purpurogenum culture supernatants, and the purified BGL showed higher activity (V _max = 934 U mg protein^–1) than most BGLs from other sources. The complete ORF of bgl3 was cloned from P. purpurogenum by a modified thermal asymmetric interlaced polymerase chain reaction. The bgl3 gene consists of a 2,571-bp ORF and encodes a putative protein containing 856 amino acids with a calculated molecular mass of 89,624 Da. The putative gene product was identified as a member of glycoside hydrolase family 3. The present results should contribute to improved industrial production of BGL by P. purpurogenum KJS506.     

Purification and characterization of β-galactosidase from a strain of Bacillus coagulans

-Galactosidase from B. coagulans strain L4 is produced constitutively, has a mol. wt. of 4.3×10⁵ and an optimal temperature of 55°C. The optimal pH at 30°C is 6.0 whereas at 55°C it is 6.5. The energy of activation of enzyme activity is 41.9 kJ/mol (10 kcal/mol). No cations are required. The K_m with ONPG as substrate is 4.2–5.6mm and with lactose is 50mm. The K_i for inhibition by galactose is 11.7–13.4mm and for dextrose is 50mm. Galactose inhibited competitively while dextrose inhibited noncompetitively. The purified and unprotected enzyme is 70% destroyed in 30 min at 55°C whereas in the presence of 2 mg/ml of BSA 42% of the activity is destroyed in 30 min at 55°C. An overall purification of 75.3-fold was achieved.     

Purification and characterization of novel organic-solvent-tolerant β-amylase and serine protease from a newly isolated Salimicrobium halophilum strain LY20

A halophilic isolate Salimicrobium halophilum strain LY20 producing extracellular amylase and protease was isolated from Yuncheng, China. Production of both enzymes was synchronized with bacterial growth and reached a maximum level during the early-stationary phase. The amylase and protease were purified to homogeneity with molecular weights of 81 and 30?kDa, respectively. Optimal amylase activity was observed at 70?°C, pH 10.0% and 10% NaCl. Complete inhibition by EDTA, diethyl pyrocarbonate (DEPC), and phenylarsine oxide (PAO) indicated that the amylase was a metalloenzyme with histidine and cysteine residues essential for its catalysis. Maltose was the main product of starch hydrolysis, indicating an β-amylase activity. The purified protease from LY20 showed highest activity at 80?°C, pH 10.0% and 12.5% NaCl. Complete inhibition was shown by phenylmethylsulfonyl fluoride, DEPC, and PAO, indicating that the enzyme probably belonged to the subclass of the serine proteases with histidine and cysteine residues essential for catalysis. Furthermore, both enzymes were highly stable over broad temperature (30-80?°C), pH (6.0-12.0) and NaCl concentration (2.5-20%) ranges, showing excellent thermostable, alkalistable, and halotolerant nature. The surfactants (SDS, Tween 80, and Triton X-100) did not affect their activities. In addition, both enzymes from LY20 displayed remarkable stability in the presence of water-soluble organic solvents with log P(ow) (?) ≤?-0.24.