The induction of valine dehydrogenase activity from Streptomyces by L-valine is not repressed by ammonium

Summary Activity of valine dehydrogenases (VDH) from Streptomyces aureofaciens and S. fradiae is strongly induced by L-valine even in the presence of 25mM NH₄ ⁺. When added into 16 h-old cultures growing with 100mM NH₄ ⁺, L-valine induced the synthesis of VDH. The results indicate that Streptomyces can utilize L-valine in the presence of NH₄ ⁺, and the induction of VDH activity by L-valine is not repressed by NH₄ ⁺.     

Purification of an inducible L-valine dehydrogenase of Streptomyces coelicolor A3(2)

Valine dehydrogenase (VDH) from Streptomyces coelicolor A3(2) was purified from cell-free extracts to apparent homogeneity. The enzyme had an Mr 41,000 in denaturing conditions and an Mr 70,000 by gel filtration chromatography, indicating that it is composed of two identical subunits. It oxidized L-valine and L-alpha-aminobutyric acid efficiently, L-isoleucine and L-leucine less efficiently, and did not act on D-valine. It required NAD+ as cofactor and could not use NADP+. Maximum dehydrogenase activity with valine was at pH 10.5 and the maximum reductive amination activity with 2-oxoisovaleric acid and NH4Cl was at pH 9. The enzyme exhibited substrate inhibition in the forward direction and a kinetic pattern with NAD+ that was consistent with a sequential ordered mechanism with non-competitive inhibition by valine. The following Michaelis constants were calculated from these data: L-valine, 10.0 mM; NAD+, 0.17 mM; 2-oxoisovalerate, 0.6 mM; and NADH, 0.093 mM. In minimal medium, VDH activity was repressed in the presence of glucose and NH4+, or glycerol and NH4+ or asparagine, and was induced by D- and L-valine. The time required for full induction was about 24 h and the level of induction was 2- to 23-fold.     

Regioselective hydroxylation of daidzein using P450 (CYP105D7) from Streptomyces avermitilis MA4680

Regiospecific 3′‐hydroxylation reaction of daidzein was performed with CYP105D7 from Streptomyces avermitilis MA4680 expressed in Escherichia coli. The apparent K_m and k_cat values of CYP105D7 for daidzein were 21.83 ± 6.3 µM and 15.01 ± 0.6 min^?1 in the presence of 1 µM of CYP105D7, putidaredoxin (CamB) and putidaredoxin reductase (CamA), respectively. When CYP105D7 was expressed in S. avermitilis MA4680, its cytochrome P450 activity was confirmed by the CO‐difference spectra at 450 nm using the whole cell extract. When the whole‐cell reaction for the 3′‐hydroxylation reaction of daidzein was carried out with 100 µM of daidzein in 100 mM of phosphate buffer (pH 7.5), the recombinant S. avermitilis grown in R2YE media overexpressing CYP105D7 and ferredoxin FdxH (SAV7470) showed a 3.6‐fold higher conversion yield (24%) than the corresponding wild type cell (6.7%). In a 7 L (working volume 3 L) jar fermentor, the recombinants S. avermitilis grown in R2YE media produced 112.5 mg of 7,3′,4′‐trihydroxyisoflavone (i.e., 29.5% conversion yield) from 381 mg of daidzein in 15 h. Biotechnol. Bioeng. 2010. 105: 697–704. © 2009 Wiley Periodicals.     

Enzymes of ammonium assimilation inStreptomyces avermitilis

Glutamine synthetase (GS), glutamate synthase (GOGAT), glutamate dehydrogenase (GDH), alanine dehydrogenase (ADH) and alanine aminotransferase (GPT) were detected in the cell-free homogenate ofStreptomyces avermitilis grown in a defined medium containing ammonium sulfate as the only nitrogen source. At an initial NH₄ ⁺ concentration of 7.5 mmol/L, high activities of GS, GOGAT and GDH were found while that of ADH was low. The ADH activity was markedly increased at initially millimolar NH₄ ⁺ concentrations. In some characteristics of its NH₄ ⁺-assimilating system (e.g. control of some enzyme activities, the NADPH specificity of GOGAT, the presence of alanine aminotransferase),S. avermitilis differs from other known streptomycetes.     

Protein kinase activity in cell free extracts of Streptomyces avermitilis; comparing wild type and overproducing mutant

Summary Protein kinase activity was assayed in cell-free extracts prepared from mycelia of a wild strain (MA) and an overproducing mutant (RX 2) of Streptomyces avermitilis. At least 10 different polypeptides ranging in M _r from 10 000 to 120 000 were found to be phosphorylated on analysis of ³²P labeled cell lysates by gel electrophoresis and phosphorimage. The protein profile and the level of phosphorylation varied depending on the culture stage of the mycelia.     

Valine dehydrogenase from Streptomyces fradiae: purification and properties

Valine dehydrogenase (VDH) was purified to homogeneity from cell-free extract of Streptomyces fradiae, which produces tylosin. The enzyme was purified 1508-fold in a 17.7% yield using a combination of hydrophobic chromatography and ion-exchange fast protein liquid chromatography. The Mr of the native enzyme was determined to be 218,000 and 215,000, by equilibrium ultracentrifugation and size-exclusion high-performance liquid chromatography, respectively. The enzyme is composed of 12 subunits of Mr 18,000. Using analytical isoelectric focusing the isoelectric point of VDH was found to be 4.7. Oxidative deamination of L-valine was optimal at pH 10.6. Reductive amination of 2-oxoisovalerate was optimal at pH 8.8. The Michaelis constants (Km) were 1 mM for L-valine and 0.029 mM for NAD+. Km values for reductive amination were 0.80 mM for 2-oxoisovalerate, 0.050 mM for NADH and 22 mM for NH4+.     

Four dominant loci for the vascular responses by the antitumor polysaccharide, lentinan

 Lentinan, β-1,6;1,3-glucan, showing an antitumor effect against mouse solid type tumors, can induce marked vascular dilation and hemorrhage (VDH) in very localized areas such as the ears, feet, and tails of mice in the early stages after its administration (Maeda et al. 1984). VDH has been found to be one of the T-cell-mediated responses triggered by lentinan. We reported previously that the responsiveness of mice to lentinan with respect to VDH induction is controlled by a dominant gene(s), Ltn2 (formerly), and that no sex difference was observed (Maeda et al. 1991). To determine the chromosomal location of the Ltn2 gene(s), we typed genomic DNAs of 193 N₂ segregants of crosses between a high responder MA/MyJ and a low responder AKR/J by the polymerase chain reaction-simple sequence length polymorphism technique using 83 chromosome-specific microsatellite markers. We identified one major gene (Ltnr3) and three minor genes (Ltnr4, Ltnr5, and Ltnr6) responsible for the VDH induction. Ltnr3 was closely linked to D6Mit135 on chromosome 6 (P <0.00000) and Ltnr4, Ltnr5, and Ltnr6 to D9Mit161 on chromosome 9 (P <0.00032), D15Mit147 on chromosome 15 (P <0.00014) and D16Mit4 on chromosome 16 (P <0.00014), respectively. Received: 26 May 1997 / Revised: 3 September 1997     

Stereoselective Reduction of Carbonyl Compounds with Actinomycete: Purification and Characterization of Three α-Keto Ester Reductases from Streptomyces avermitilis

We achieved the purification of three α-keto ester reductases (Streptomyces avermitilis keto ester reductase, SAKERs-I, -II, and -III) from Streptomyces avermitilis NBRC14893 whole cells. The molecular masses of the native SAKERs-I, -II, and -III were estimated to be 72, 38, and 36 kDa, respectively, by gel filtration chromatography. The subunit molecular masses of SAKERs-I, -II, and -III were also estimated to be 32, 32, and 34 kDa, respectively, by SDS-polyacrylamide gel electrophoresis. The purified SAKERs-II and -III showed a reducing activity for α-keto esters (in particular, for ethyl pyruvate). SAKER-I showed a high reducing activity not only toward the α- and β-keto esters, but also toward α-keto acid. The N-terminal region amino acid sequences of SAKERs-I, -II, and -III were identical to that of a putative oxidoreductase, SAV2750, a putative oxidoreductase, SAV1849, and a putative oxidoreductase, SAV4117, respectively, hypothetical proteins coded on the S. avermitilis genome.     

Endospore formation by <Emphasis Type="Italic">Streptomyces avermitilis</Emphasis> in submerged culture

The ability of streptomycetes to form endospores during their life cycle was studied in submerged cultures of Streptomyces avermitilis. Submerged S. avermitilis spores were most intensely formed (1) during the culture development cycle on synthetic medium CP1 with glucose under phosphate limitation and (2) in autolysing cell suspensions of high density obtained by tenfold concentration in phosphate buffer (pH 7.2) with 0.2% CaCl₂ of stationary-phase cells grown in synthetic medium. Endospores of S. avermitilis formed in submerged cultures shared the major characteristics of specialized microbial resting forms: heat resistance, resistance to lysozyme, ability to retain the main species-specific features, and ultrastructural organization characteristic of endospores. They can be considered a resting form of streptomycetes alternative to the spores formed exogenously on aerial mycelium in surface cultures.__________Translated from Mikrobiologiya, Vol. 74, No. 2, 2005, pp. 204–214.Original Russian Text Copyright © 2005 by Filippova, Gorbatyuk, Poglazova, Soina, Kuznetsov, El-Registan.     

Oxygen uptake rate regulation during cell growth phase for improving avermectin B<Subscript>1a</Subscript> batch fermentation on a pilot scale (2 m<Superscript>3</Superscript>)

Avermectin B_1a batch fermentation of Streptomyces avermitilis in a 2 m³ fermentor was investigated by oxygen uptake rate (OUR) regulation during cell growth phase. OUR was controlled by adjusting of aeration and agitation. Result showed that OUR strongly affected cell growth and antibiotics production. Avermectin B_1a biosynthesis could be effectively enhanced when OUR was stably regulated at an appropriate level in batch fermentation of S. avermitilis. Avermectin B_1a yield reached 5568 ± 111 mg/l by controlling maximal OUR between 15 and 20 mmol/l/h during cell growth phase, which was increased by 21.8% compared with the control (maximal OUR above 20 mmol/l/h). The stimulation effect on avermectin B_1a production could be attributed to the improved supply of propionic acid and acetic acid, the precursors of avermectin B_1a, in the cells. Hence, this OUR control method during cell growth phase may be a simple and applicable way to improve industrial production of avermectin.     

Analysis of neutral lipid biosynthesis in Streptomyces avermitilis MA-4680 and characterization of an acyltransferase involved herein

The physiology of lipid production in Streptomyces avermitilis MA-4680 with regard to the fatty acid composition of the accumulated lipids and their cellular distribution was analyzed. Cells were able to accumulate about ten to 30 lipid granules with diameters between 100 and 500 nm filling about 70–80% of the cell cytoplasm. Gas chromatography/mass spectrometry analyses of total cellular lipids and from isolated triacylglycerols (TAG) confirmed a similar fatty acid composition with a large portion of iso- and anteiso-methyl-branched fatty acids. De novo biosynthesis of wax esters (WE) appeared only during cocultivation on glucose and hexadecanol as carbon source. Homology alignments with the wax ester synthase/acyl-CoA:diacylglycerol acyltransferase (WS/DGAT; AtfA) from Acinetobacter baylyi strain ADP1 yielded one open reading frame in the genome databases of S. avermitilis MA-4680 referred to as SAV7256 with 25.3% homology. The highly conserved HHAxxDG active site motif found in AtfA, which is present in SAV7256, as well as the similar hydrophobicity profiles of AtfA and SAV7256 indicate a similar structure and function of both proteins. High acyl-CoA:diacylglycerol acyltransferase activity (DGAT; 143 pmol (mg min)⁻¹) but low wax ester synthase activity (WS; 1.3 pmol (mg min)⁻¹) were detected in crude extracts of S. avermitilis, which were consistent with the high TAG and negligible WE content of the cells. This indicates that TAG accumulation in S. avermitilis MA-4680 is mediated by the classical acyl-CoA-dependent DGAT pathway. Heterologous expression experiments in recombinant Escherichia coli BL21(DE3) demonstrated both WS and DGAT enzyme activity of SAV7256. Furthermore, substrate specificities of the acyltransferase SAV7256 will be discussed. Chlud Kaddor and Karolin Biermann contributed equally to this work.     

Purification of branched-chain amino acid aminotransferase from <Emphasis Type="Italic">Helicobacter pylori</Emphasis> NCTC 11637

Summary. Branched-chain amino acid aminotransferase was purified by several column chromatographies from Helicobacter pylori NCTC 11637, and the N-terminal amino acid sequence was analyzed. The enzyme gene was sequenced based on a putative branched-chain amino acid aminotransferase gene, ilvE of H. pylori 26695, and the whole amino acid sequence was deduced from the nucleotide sequence. The enzyme existed in a homodimer with a calculated subunit molecular weight (MW) of 37,539 and an isoelectric point (pI) of 6.47. The enzyme showed high affinity to 2-oxoglutarate (K _m = 0.085 mM) and L-isoleucine (K _m = 0.34 mM), and V _max was 27.3 μmol/min/mg. The best substrate was found to be L-isoleucine followed by L-leucine and L-valine. No activity was shown toward the D-enantiomers of these amino acids. The optimal pH and temperature were pH 8.0 and 37 °C, respectively.     

Novel mutation breeding method for Streptomyces avermitilis using an atmospheric pressure glow discharge plasma

Aims: Avermectins are major antiparasitic agents used commercially in animal health, agriculture and human infections. To improve the fermentation efficiency of avermectins, for the first time a plasma jet generated by a novel atmospheric pressure glow discharge (APGD) was employed to generate mutations in Streptomyces avermitilis. Methods and Results: The APGD plasma jet, driven by a radio frequency (RF) power supply with water‐cooled and bare‐metallic electrodes, was used as a new mutation method to treat the spores of S. avermitilis. The plasma jet yielded high total (over 30%) and positive (about 21%) mutation rates on S. avermitilis, and a mutated strain, designated as G1‐1 with high productivity of avermectin B1a and genetic stability, was obtained. Conclusions: Because of the low jet temperature, the high concentrations of the chemically reactive species and the flexibility of its operation, the RF APGD plasma jet has a strong mutagenic effect on S. avermitilis. Significance and Impact of the Study: This is a proof‐of‐concept study for the use of an RF APGD plasma jet for inducing mutations in microbes. We have shown that the RF APGD plasma jet could be developed as a promising and convenient mutation tool for the fermentation industry and for use in biotechnology research.     

Catalytic Domain of AfsKav Modulates Both Secondary Metabolism and Morphologic Differentiation in Streptomyces avermitilis ATCC 31272

Genetic characterization of afsK-av (SAV3816) in Streptomyces avermitilis ATCC 31272 was performed to evaluate the role(s) of this eukaryotic-type serine–threonine protein kinase (STPK) in the regulation of morphologic differentiation and secondary metabolism. The afsK-av::neo mutant (SJW4001) was defective in sporulation, melanogenesis, and avermectin production. These phenotypic defects were complemented by introduction of either the intact afsK-av or the 900-nt catalytic domain region. The catalytic domain restored sporulation and melanogenesis to SJW4001 whereas it partially recovered avermectin production. This study reveals that AfsKav is a pleiotropic regulator and demonstrates in vivo that the C-region of AfsKav is not essential for its regulatory role in S. avermitilis differentiations.     

Oligomycins A and C,major secondary metabolites isolated from the newly isolated strain <Emphasis Type="Italic">Streptomyces diastaticus</Emphasis>

During the screening program for fungicides, one actinomycete strain ECO 00047 was isolated with the potential activity against fungus. According to the morphology and analysis of the nucleotide sequence of the 16S rRNA gene (1500 bp) this isolate was identified as Streptomyces diastaticus. The active compounds were separated by silica gel column chromatography, Sephadex LH-20 gel filtration and then purified by flash chromatography on C₁₈ (20–45 μm). The chemical structure of the bioactive compounds I and II were elucidated, based on the spectroscopic data of MS, IR, UV, ¹H-NMR, ¹³C-NMR and X-ray single crystal diffraction analysis. Compounds I and II were identical with oligomycins A and C, the macrolide antibiotics which have been known to be produced by Streptomyces diastatochromogenes, S. libani and S. avermitilis. The two compounds exhibited a strong activity against Aspergillus niger, Alternaria alternata, Botrytis cinerea and Phytophthora capsici but no activity toward bacteria. Although the two above antibiotics were known, their isolation has so far not been reported from S. diastaticus.     

Transformation ofStreptomyces avermitilis by plasmid DNA

Summary Polyethylene glycol (PEG) efficiently mediated the transformation ofStreptomyces avermitilis protoplasts by plasmid DNA to yield 10⁷ transformants per g of plasmid DNA. Under conditios in which the maximum transformation frequency was observed, the cotransformation frequency exceeded 10%. The number of transformants increased linearly with the amount of DNA and number ofS. avermitilis protoplasts. Relaxed and supercoiled, but not linear DNA transformed protoplasts efficiently. Dimethyl sulfoxide (DMSO)-mediated transformation of protoplasts was 1000-fold less efficient. PEG and, less efficiently, DMSO also mediated the transformation of whole cells ofS. avermitilis by DNA.     

Production and characterization of ferulic acid esterase activity in crude extracts by Streptomyces avermitilis CECT 3339

Streptomyces avermitilis CECT 3339 produces extracellular ferulic acid esterase (FAE) activity during growth on a range of lignocellulose substrates. Maximal levels of FAE activity were detected in culture filtrates from S. avermitilis CECT 3339 grown in media containing wheat bran and yeast extract as carbon and nitrogen sources respectively. Biochemical characterization of this enzyme activity revealed that it was 100-fold higher when wheat bran was pretreated with Celluclast (a mix of hydrolytic enzymes). FAE was found to be end-product-inhibited. Characterization of the properties of the enzyme showed that FAE exhibited an activity optimum pH at 6 with pH stability between pH 6 and 8. The optimum temperature was 50 °C while the temperature stability was between 30 °C and 40 °C, with rapid inactivation at 60 °C and above. The characteristics and stability of FAE from S. avermitilis CECT 3339 suggest a potential role for this enzyme in combination with endoxylanases for the upgrading of plant-residue silage and for biopulping. Received: 17 November 1997 / Received revision: 13 March 1998 / Accepted: 13 April 1998     

Characterization of 2-Octenoyl-CoA Carboxylase/Reductase Utilizing pteB from Streptomyce avermitilis

The filipin biosynthetic gene cluster of Streptomyces avermitilis contains pteB, a homolog of crotonyl-CoA carboxylase/reductase. PteB was predicted to be 2-octenoyl-CoA carboxylase/reductase, supplying hexylmalonyl-CoA to filipin biosynthesis. Recombinant PteB displayed selective reductase activity toward 2-octenoyl-CoA while generating a broad range of alkylmalonyl-CoAs in the presence of bicarbonate.     

Amifostine has antiangiogenic properties in vitro by changing the redox status of human endothelial cells

Amifostine is a broad-spectrum cytoprotective agent, selective for normal tissues. It is a pro-drug metabolised to the free thiol WR-1065 that may act as a scavenger of free radicals, generated in tissues exposed to chemotherapeutic agents or radiation. WR-1065 can be further oxidized to its symmetric disulfide WR-33278 or degraded to hydrogen peroxide (H₂O₂). Both WR-1065 and WR-33278 resemble endogenous polyamines. Although amifostine is used in some cases in the clinic, there are only few studies concerning its actions at the cellular level. We have previously shown that amifostine inhibits angiogenesis in vivo, affecting the expression of several angiogenic genes. In the present work, we studied the effect of amifostine on human umbilical vein endothelial cell (HUVEC) functions in vitro, in order to further clarify its mechanism(s) of action. Amifostine increased HUVEC proliferation, an effect that was reversed by the intracellular H₂O₂ scavenger sodium pyruvate, agents that increase intracellular cAMP levels and L-valine. On the other hand, amifostine decreased HUVEC migration, an effect that was reversed by L-valine or L-arginine but not sodium pyrouvate. The decrease in migration was in line with decreased tube formation on matrigel and decreased amounts of metalloproteinase-2 released into the culture medium of HUVEC. Finally, amifostine reduced tyrosine nitration of the cytoskeletal proteins actin and α-tubulin in a time dependent manner. This last action could be due to the reduced production of nitric oxide (NO) or to other not yet identified mechanisms. Collectively, our results suggest that amifostine acts on endothelial cells through pathways that affect the redox status of the cells, either by producing H₂O₂ or by modulating NO production.     

Enhancement and Selective Production of Oligomycin through Inactivation of Avermectin’s Starter Unit in Streptomyces avermitilis

Oligomycin and its analogues, produced by Streptomyces avermitilis and other actinomycetes, are of interest for their potent and selective biological activities. PCR-mediated gene replacement, targeting bkdF, one of avermectin’s starter unit encoding genes in S. avermitilis, was performed to yield an oligomycin producer, BIB0423. The engineered strain produced oligomycin A at 2.3 mg/ml compared to the wild type strain at 0.1 mg/ml. This resulting mutant was genetically stable and should be useful for the industrial production of oligomycin.