玫瑰链霉菌海藻糖合成酶基因克隆、表达及功能鉴定

目的:克隆玫瑰链霉菌海藻糖合成酶基因(Srt)使其在大肠杆菌XL10-Gold中高效表达,并对重组酶的酶学特性进行研究。方法:利用PCR技术从玫瑰链霉菌中克隆到一段长1 704bp的海藻糖合成酶基因(Srt),构建重组表达质粒pSE380-Srt-treS,将其转化大肠杆菌XL10-Gold中诱导表达,对重组纯酶进行SDS-PAGE分析及酶学特性测定。结果:SDS-PAGE显示在65kDa处有明显单一蛋白条带。该酶可催化麦芽糖和海藻糖之间的可逆反应,海藻糖得率达82%,且含有很低的副产物葡萄糖(5%左右)。最适反应温度和pH分别为30℃、7.5,Cu2+、Zn2+和Tris能明显抑制酶活力。该酶还可催化蔗糖生成一种无龋齿,适合糖尿病患者食用的糖类-海藻酮糖。结论:成功克隆表达了一个海藻糖合成酶基因,该酶转化率高,副产物较少,为工业酶法生产海藻糖奠定基础。     

Phylogeny and characterization of three nifH-homologous genes from Paenibacillus azotofixans

In this paper, we report the cloning and characterization of three Paenibacillus azotofixans DNA regions containing genes involved in nitrogen fixation. Sequencing analysis revealed the presence of nifB1H1D1K1 gene organization in the 4,607-bp SacI DNA fragment. This is the first report of linkage of a nifB open reading frame upstream of the structural nif genes. The second (nifB2H2) and third (nifH3) nif homologues are confined within the 6,350-bp HindIII and 2,840-bp EcoRI DNA fragments, respectively. Phylogenetic analysis demonstrated that NifH1 and NifH2 form a monophyletic group among cyanobacterial NifH proteins. NifH3, on the other hand, clusters among NifH proteins of the highly divergent methanogenic archaea.     

Partial characterization of chitinolytic enzymes from Streptomyces albidoflavus

Streptomyces albidoflavus NRRL B-16746 secreted three types of chitinolytic enzymes: N -acetyl-glucosaminidase, chitobiosidase and endochitinase. Optimal activity for all three types of enzymes occurred at pH 4–6; however 55–74% of the chitobiosidase and endochitinase activity was detectable at pH 8–10. Chitobiosidase activity originated from two strongly acidic (pI < 3.0) proteins with molecular mass of 27 kDa and 34 kDa, while endochitinase activity originated from five major acidic proteins (pI 5.1, 5.3, 5.75, 5.8–5.9 and 6.4) with molecular mass of 59, 45, 38.5, 27 and 25.5 kDa. Purified chitobiosidases significantly reduced spore germination and germ tube elongation of Botrytis cinerea and Fusarium oxysporum. Chitinolytic enzymes with significant activity at pH 4–10 may be used, transgenically, to reduce the growth and/or development of a broad spectrum of insects and fungi that are major economic pests.     

An exodeoxyribonuclease from Streptomyces coelicolor: expression, purification and biochemical characterization

Streptomyces coelicolor A3(2) produces several intra and extracellular enzymes with deoxyribonuclease activities. The examined N-terminal amino acid sequence of one of extracellular DNAases (TVTSVNVNGLL) and database search on S. coelicolor genome showed a significant homology to the putative secreted exodeoxyribonuclease. The corresponding gene (exoSc) was amplified, cloned, expressed in Escherichia coli, purified to homogeneity and characterized. Exonuclease recExoSc degraded chromosomal, linear dsDNA with 3'-overhang ends, linear ssDNA and did not digest linear dsDNA with blunt ends, supercoiled plasmid ds nor ssDNA. The substrate specificity of recExoSc was in the order of dsDNA>ssDNA>3'-dAMP. The purified recExoSc was not a metalloprotein and exhibited neither phosphodiesterase nor RNase activity. It acted as 3'-phosphomonoesterase only at 3'-dAMP as a substrate. The optimal temperature for its activity was 57 degrees C in Tris-HCl buffer at optimal pH=7.5 for either ssDNA or dsDNA substrates. It required a divalent cation (Mg(2+), Co(2+), Ca(2+)) and its activity was strongly inhibited in the presence of Zn(2+), Hg(2+), chelating agents or iodoacetate.     

Identification and characterization of six glycosyltransferases involved in the biosynthesis of a new bacterial exopolysaccharide in Paenibacillus elgii

Applied Microbiology and Biotechnology - Paenibacillus elgii B69 produces a new xylose-containing exopolysaccharide (EPS) that effectively removes the pollutants from wastewater through...     

Detailed modes of action and biochemical characterization of endo-arabinanase from Bacillus licheniformis DSM13

An endo-arabinanase (BLABNase) gene from Bacillus licheniformis DSM13 was cloned and expressed in Escherichia coli, and the biochemical properties of its encoded enzyme were characterized. The BLABNase gene consists of a single open reading frame of 987 nucleotides that encodes 328 amino acids with a predicted molecular mass of about 36 kDa. BLABNase exhibited the highest activity against debranched α-(1,5)-arabinan in 50 mM sodium acetate buffer (pH 6.0) at 55°C. Enzymatic characterization revealed that BLABNase hydrolyzes debranched or linear arabinans with a much higher activity than branched arabinan from sugar beet. Enzymatic hydrolysis pattern analyses demonstrated BLABNase to be a typical endo-(1,5)-α-s-arabinanase (EC 3.2.1.99) that randomly cleaves the internal α-(1,5)-linked L-arabinofuranosyl residues of a branchless arabinan backbone to release arabinotriose mainly, although a small amount of arabino-oligosaccharide intermediates is also liberated. Our results indicated that BLABNase acts preferentially along with the oligosaccharides longer than arabinopentaose, thus enabling the enzymatic production of various arabino-oligosaccharides.     

Cloning,functional expression and biochemical characterization of a stereoselective alcohol dehydrogenase from Pseudomonas fluorescens DSM50106

Sequencing of a genomic library prepared from Pseudomonas fluorescens DSM 50106 identified an orf showing 29% identity to a C α-dehydrogenase of Pseudomonas paucimobilis and high homology to several sequences with unknown functions derived from genome projects. The corresponding gene adhF1 encodes a dehydrogenase of 296 amino acids with a calculated molecular mass of 31.997 kDa. The gene was functionally expressed in E. coli using a rhamnose inducible expression system. The resulting recombinant enzyme was active in the pH range 6–10 (best pH 8) and at 5–25 °C. This dehydrogenase converts cyclic ketones to the corresponding alcohols utilizing the cofactor NADH. The highest activity was found for cyclohexanone. The enzyme also exhibits high stereoselectivity in the desymmetrization of the prochiral ketone acetophenone, producing optically pure (R)-α-phenyl ethanol (>99%ee) at high conversion (95%). Electronic Publication     

Draft genome sequence of Paenibacillus elgii B69, a strain with broad antimicrobial activity

Here, we report the draft genome sequence of Paenibacillus elgii B69, which was isolated from soil and has broad-spectrum antimicrobial activity. As far as we know, the P. elgii genome is the largest of the Paenibacillus genus for which genome sequences are available. Multiple sets of genes related to antibiotic biosynthetic pathways have been found in the genome.     

Physical, biochemical and functional characterization of haemoglobin from three strains of Artemia

The brine shrimp, Artemia, an inhabitant of coastal and inland salterns, encounter fluctuations in the salinity which in turn influences the oxygen availability of their habitat. Hence, experiments were performed to analyze variations in haemoglobin structure and patterns of three strains of Artemia from South India and also to reflect the effect of varying oxygen levels in their habitat. Haemoglobins were purified on a DEAE-Sephadex column and haemoglobin types were analyzed by comparing their relative mobility on a non-denaturing medium. Furthermore, their molecular masses were determined by gel filtration in Sepharose column and by dodecylsulfate polyacrylamide gel electrophoresis. Results clearly reveal the presence of three distinct extracellular haemoglobins Hb I, Hb II and Hb III in Tuticorin strain while the other strains displayed only trails or the complete absence of Hb III and Hb II. Estimated molecular masses of these haemoglobins are 235,000-250,000 Da. Denaturation of the reduced and alkylated haemoglobins revealed apparently one polypeptide chain with a molecular mass of 124,000 Da. Upon denaturing gel electrophoresis of native haemoglobin Hb II, it was found that the 124,000 Da, polypeptide was cleaved specifically into two unequally-sized fragments of 50,400 and 79,800 Da. With regard to oxygen affinity, Hb III has a very high affinity for oxygen, an almost negligible Bohr effect and a good physiological adaptation to temperature changes. By combining the three haemoglobins in different proportions Artemia strains must be able to withstand diverging environmental conditions. In particular, the absence of Hb III in Puthalam and its occurrence as a faint band in Thamaraikulam could be correlated to the oxygen levels of their habitats.     

Molecular cloning,purification, and biochemical characterization of recombinant isocitrate dehydrogenase from Streptomyces coelicolor M-145

Isocitrate dehydrogenase is a key enzyme in carbon metabolism. In this study we demonstrated that SCO7000 of Streptomyces coelicolor M-145 codes for the isocitrate dehydrogenase. Recombinant enzyme expressed in Escherichia coli had a specific activity of 25.3 μmoles/mg/min using NADP⁺ and Mn²⁺ as a cofactor, 40-times higher than that obtained in cell-free extract. Pure IDH showed a single band with an apparent Mr of 84 KDa in SDS-PAGE, which was also recognized as His-tag protein in the Western blot. Unexpectedly, in ND-PAGE conditions showed a predominant band of ~168 KDa that corresponded to the dimeric form of ScIDH. Also, zymogram assay and analytical gel filtration reveal that dimer was the active form. Kinetic parameters were 1.38, 0.11, and 0.109?mM for isocitrate, NADP, and Mn²⁺, respectively. ATP, ADP, AMP, and their mixtures were the main ScIDH activity inhibitors. Zn²⁺, Mg²⁺, Ca²⁺, and Cu⁺ had inhibitory effect on enzyme activity.     

Isolation and biochemical characterization of delta-aminolevulinic acid dehydratase from Streptomyces yokosukanensis ATCC 25520

In this study, delta-aminolevulinic acid dehydratase from Streptomyces yokosukanensis ATCC 25520, producer of an unusual purine riboside antibiotic called nebularine, was purified and characterized. Purification procedures involved with ammonium sulphate precipitation and gel filtration techniques by use of Sephacryl S-200. After gel filtration a 90.76-fold purification was obtained. The maximum enzymic activity was observed in the supernatant after 100% precipitation. According to the data obtained from investigation, the enzyme was found to be a single polypeptide having molecular mass around 34.8 kDa. This was determined by SDS-PAGE. Its optimal temperature around 45 degrees C, and optimal pH was found to be 8.0. Some heavy metals, Pb2+, Zn2+, Fe3+, Co2+, Mn2+, Mg2+ inhibited its activity between 20-51%, Ni2+ increased its activity up to 15%.     

Genetic and biochemical characterization of a new extracellular lipase from Streptomyces cinnamomeus.

Streptomyces cinnamomeus Tü89 secretes a 30-kDa esterase and a 50-kDa lipase. The lipase-encoding gene, lipA, was cloned from genomic DNA into Streptomyces lividans TK23 with plasmid vector pIJ702. Two lipase-positive clones were identified; each recombinant plasmid had a 5.2-kb MboI insert that contained the complete lipA gene. The two plasmids differed in the orientation of the insert and the degree of lipolytic activity produced. The lipA gene was sequenced; lipA encodes a proprotein of 275 amino acids (29,213 Da) with a pI of 5.35. The LipA signal peptide is 30 amino acids long, and the mature lipase sequence is 245 amino acids long (26.2 kDa) and contains six cysteine residues. The conserved catalytic serine residue of LipA is in position 125. Sequence similarity of the mature lipases (29% identity, 60% similarity) was observed mainly in the N-terminal 104 amino acids with the group II Pseudomonas lipases; no similarity to the two Streptomyces lipase sequences was found. lipA was also expressed in Escherichia coli under the control of lacZ promoter. In the presence of the inducer isopropyl-beta-D-thiogalactopyranoside (IPTG), growth of the E. coli clone was severely affected, and the cells lysed in liquid medium. Lipase activity in the E. coli clone was found mainly in the pellet fraction. In sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis, three additional protein bands of 50, 29, and 27 kDa were visible. The 27-kDa protein showed lipolytic activity and represents the mature lipase; the 29- and 50-kDa forms showed no activity and very probably represent the unprocessed form and a dimeric misfolded form, respectively. For higher expression of lipA in S. lividans, the gene was cloned next to the strong aphII promoter. In contrast to the lipA-expressing E. coli clone, S. cinnamomeus and the corresponding S. lividans clone secreted only an active protein of 50 kDa. The lipase showed highest activity with C6 and C18 triglycerides; no activity was observed with phospholipids, Tween 20, or p-nitrophenylesters. Upstream of lipA and in the same orientation, an open reading frame, orfA, is found whose deduced protein sequence (519 amino acids) shows similarity to various membrane-localized transporters. Downstream of lipA and in the opposite orientation, an open reading frame, orfB (encoding a 199-amino-acid protein) is found, which shows no conspicuous sequence similarity to known proteins, other than an NAD and flavin adenine dinucleotide binding-site sequence.     

Responses of potato cultivars to the common scab pathogens, Streptomyces scabies and S. turgidiscabies

A glasshouse experiment was conducted to study the responses to Streptomyces scabies and S. turgidiscabies in potato cultivars Bellona, Matilda and Sabina (Solanum tuberosum). Potatoes were grown in a peat‐sand mixture inoculated with one of the two strains of either S. scabies or S. turgidiscabies. Logit models were used to analyse the data on disease incidence and severity, whereas the data on emergence and yield were tested by analysis of variance. S. turgidiscabies, a recently described potato pathogen in Finland, possessed a high ability to cause superficial, raised and pitted lesions on all three cultivars tested. Symptoms induced by S. turgidiscabies were similar to those of S. scabies, regardless of the cultivar, which suggests that the two causal organisms of common scab cannot be distinguished based on symptoms. Infection by S. turgidiscabies and S. scabies delayed emergence, had the tendency to decrease the yield, and increased the proportion of small tubers in the yield, regardless of the potato cultivar. Differences in the levels of resistance to common scab were evident between potato cultivars, since cvs. Matilda and Bellona showed higher disease incidence and more severe scab symptoms than cv. Sabina.     

Rapid purification and biochemical characterization of glucose kinase from Streptomyces peucetius var. caesius

Glucose kinase catalyzes the ATP-dependent phosphorylation of glucose. Streptomyces peucetius var. caesius glucose kinase was purified 292-fold to homogeneity. The enzyme has cytosolic localization and is composed of four identical subunits, each of 31 kDa. The purified enzyme easily dissociates into dimers. However, in the presence of 100 mM glucose the enzyme maintains its tetrameric form. Maximum activity was found at 42 degrees C and pH 7.5. Isoelectric focusing of the enzyme showed a pl of 8.4. The N- and C-terminal amino acid sequences were MGLTIGVD and VYFAREPDPIM, respectively. The kinetic mechanism of S. peucetius var. caesius glucose kinase appears to be a rapid equilibrium ordered type, i.e., ordered addition of substrates to the enzyme, where the first substrate is d-glucose. The K(m) values for d-glucose and MgATP(2-) were 1.6 +/- 0.2 and 0.8 +/- 0.1 mM, respectively. Mg(2+) in excess of 10 mM inhibits enzyme activity.     

Purification and biochemical characterization of a native invertase from the hydrogen-producing Thermotoga neapolitana (DSM 4359)

This is the first report describing the purification and enzymatic properties of a native invertase (β-D-fructosidase) in Thermotogales. The invertase of the hydrogen-producing thermophilic bacterium Thermotoga neapolitana DSM 4359 (hereby named Tni) was a monomer of about 47 kDa having an amino acid sequence quite different from other invertases studied up to now. Its properties and substrates specificity let us classify this protein as a solute-binding protein with invertase activity. Tni was specific for the fructose moiety and the enzyme released fructose from sucrose and raffinose and the fructose polymer inulin was hydrolyzed in an endo-type fashion. Tni had an optimum temperature of 85°C at pH 6.0. At temperatures of 80–85°C, the enzyme retained at least 50% of its initial activity during a 6 h preincubation period. Tni had a K _m and k _cat /K _m values (at 85°C and pH 6.0) of about 14 mM and 5.2 × 10⁸ M⁻¹ s⁻¹, respectively. Dedicated to the memory of Prof. R. A. Nicolaus, founder of the Institute (1968).     

Glutamyl-tRNA synthetases from wheat. Isolation and characterization of three dimeric enzymes

Three dimeric glutamyl-tRNA synthetases (GluRS) were isolated from extracts of quiescent wheat germ and wheat chloroplasts. The chloroplast enzyme (Mr = 110 000), called GluRS C, exhibits a prokaryotic (Escherichia coli) tRNA specificity. Two enzymes were found in the quiescent germ and were separated on phosphocellulose P11: one called GluRS P, probably the mitochondrial enzyme, has the same tRNA specificity as GluRS C; the other, called GluRS E, has eukaryotic (wheat germ) tRNA specificity. Both enzymes exhibit a molecular weight close to 160 000. Each of these enzymes co-eluate on hydroxyapatite and phosphocellulose chromatographies with an unstable active monomer whose molecular weight is approximately half that of the corresponding dimer. Two assumptions are discussed about these monomers.     

Overproduction, purification, and biochemical characterization of a xylanase (Xys1) from Streptomyces halstedii JM8.

Streptomyces halstedii JM8, isolated from straw, produces and secretes into the culture supernatant at least two proteins with hydrolytic activity towards xylan. The cloning of a DNA fragment of this microorganism in several Streptomyces strains permitted us to overproduce both proteins. N-terminal sequence analyses, immunoblot assays, and time course overproduction experiments allowed us to ensure that both xylanases were encoded by the same gene and that the smallest form (35 kDa) originated from the large one (45 kDa) by proteolytic cleavage on the C terminus. The production of both forms was studied in different strains carrying the gene in a multicopy plasmid. The best production was obtained with Streptomyces parvulus transformed with the plasmid pJM9, a pIJ702 derivative, which yielded 144 U/ml. Both forms of the xylanase were purified with a fast-performance liquid chromatography system and characterized biochemically. The optimal pH and temperature, for both, were 6.3 and 60 degrees C, respectively, in 7.5-min assays. Both proteins were highly stable in a wide range of pHs (4 to 10) and temperatures (4 to 50 degrees C); nevertheless, after 1-h incubations, both enzymes lost most of their activity at temperatures over 55 to 60 degrees C. Endoxylanolytic activity was demonstrated in both enzymes, but no beta-xylosidase activity was detected.