Caulobacter zeae sp. nov. and Caulobacter radicis sp. nov., novel endophytic bacteria isolated from maize root (Zea mays L.)

Four bacterial strains designated 410^T, 441, 695^T and 736 were isolated from maize root in Beijing, P. R. China. Based on 16S rRNA gene phylogeny, the four strains formed two clusters in the genus Caulobacter. Since strain 441 was a clonal variety of strain 410^T, only three strains were selected for further taxonomic studies. The whole genome average nucleotide identity (ANI) value between strains 410^T and 695^T was 94.65%, and both strains shared less than 92.10% ANI values with their close phylogenetic neighbors Caulobacter vibrioides DSM 9893^T, Caulobacter segnis ATCC 21756^T and Caulobacter flavus CGMCC 1.15093^T. Strains 410^T and 695^T contained Q-10 as the sole ubiquinone and their major fatty acids were C_{16:0, 11-methyl C18:1ω 0}, 11-methyl C_{18: 1}ω7c, summed feature 3 (C_{16:1ω7c and/or C16:1ω 1}ω7c and/or C_{16: 1}ω6c) and summed feature 8 (C_{18:1ω7c and/or C18:1ω 1}ω7c and/or C_{18: 1}ω6c). Their major polar lipids consisted of glycolipids and phosphatidylglycerol, and phenotypic tests differentiated them from their closest phylogenetic neighbors. Based on the results obtained, it is proposed that the three strains represent two novel species, for which the names Caulobacter zeae sp. nov. (type strain 410^T = CGMCC 1.15991 = DSM 104304) and Caulobacter radicis sp. nov. (type strain 695^T = CGMCC 1.16556 = DSM 106792) are proposed.     

Molecular cloning and characterization of a novel thermostable xylanase from Paenibacillus campinasensis BL11

An open reading frame (XylX) with 1131 nucleotides from Paenibacillus campinasensis BL11 was cloned and expressed in E. coli. It encodes a family 11 endoxylanase, designated as XylX, of 41 kDa. The homology of the amino acid sequence deduced from XylX is only 73% identical to the next closest sequence. XylX contains a family 11 catalytic domain of the glycoside hydrolase and a family 6 cellulose-binding module. The recombinant xylanase was fused to a His-tag for affinity purification. The XylX activity was 2392 IU/mg, with a K_m of 6.78 mg/ml and a V_max of 4953 mol/min/mg under optimal conditions (pH 7, 60 °C). At pH 11, 60 °C, the activity was still as high as 517 IU/mg. Xylanase activities at 60 °C under pH 5 to pH 9 remained at more than 69.4% of the initial activity level for 8 h. The addition of Hg²⁺ at 5 mM almost completely inhibited xylanase activity, whereas the addition of tris-(2-carboxyethyl)-phosphine (TCEP) and 2-mercaptoethanol stimulated xylanase activity. No relative activities for Avicel, CMC and d-(+)-cellobiose were found. Xylotriose constitutes the majority of the hydrolyzed products from oat spelt and birchwood xylan. Broad pH and temperature stability shows its application potentials for biomass conversion, food and pulp/paper industries.     

Scale-up of micro-aerobic 1,3-propanediol production with Klebsiella pneumonia CGMCC 1.6366

The conversion of glycerol to 1,3-propanediol (1,3-PD) using Klebsiella pneumoniae CGMCC 1.6366 under aerobic condition was scaled up from scale 5 to 50,000 l in series. Several parameters including power input P/V_l, agitation rate n, impeller tip speed nD, superficial gas velocity u_s, and Re_s were investigated as the criteria for scaling up. Impeller tip speed was chosen as the main criterion. It was also noticed less aeration was favored in that less electron will be shunted to electron transfer chain. The fermentation in 500 l bioreactor produced 66.8 g 1,3-PD with the yield of 0.55 mol mol^?1 at agitation rate and aeration of 130 rpm and 0.14 vvm air flow. Using these empirically obtained control concepts we successfully scaled up in 500–50,000 l pilot-scale reactors. The final 1,3-PD concentrations in 50,000 l bioreactor amounted to 63.3 g l^?1 with the yield of 0.5 mol mol^?1.     

Evaluation of biocomposite-based supports for immobilized-cell xylitol production compared with a free-cell system

This study was conducted to evaluate the importance of aeration in free and immobilized cell systems in an aerated bioreactor for xylitol production from an oat hull hemicellulosic hydrolysate using an integrated process. The aeration rate (AR) or oxygen mass transfer coefficient (k_La) demonstrated a significant role in controlling cell (Candida guilliermondii FTI 20037) regeneration and bioconversion performance in free and immobilized cell systems. In the free cell system, an aeration rate of 1.25 vvm corresponding to k_La of 15.8 1/h resulted in maximum values of product yield (Y_p/s: 0.87 g/g), productivity (Q_p: 0.57 g/l/h), and final xylitol concentration (P_f: 55 g/l) from the hydrolysate with a 74.5 g/l xylose concentration. However, in the aerated immobilized cell system, maximum and almost similar results (almost P_f: 54 g/l, Q_p: 0.57 g/l/h and Y_p/s: 0.84 g/g) were obtained with aeration rates from 1.25 to 1.5 vvm using composites based on polypropylene (PP) and partially delignified fiber (PDF). Composites based on acid treated fiber (ATF) containing a high amount of lignin showed some inhibitory impact on xylose uptake and xylitol formation (P_f: 47 g/l and Q_p < 0.49 g/l/h) with the optimal aeration rate of 1.5 vvm in the initial cycle of the bioconversion; this inhibition impact could be resolved in the next consecutive cycles. The surface modifier polyethyleneimine (PEI) slightly enhanced cell retention in the immobilized form on the ATF-based cell support. This investigation helps fill in the knowledge gaps existing on the integrated processing of the lignocellulosic biomass for xylitol bioproduction and biorefinery industry; however, more scale-up studies are recommended for commercialization.     

Solvent free biocatalytic synthesis of isoniazid from isonicotinamide using whole cell of Bacillus smithii strain IITR6b2

A biocatalytic route for the synthesis of isoniazid, an important first-line antitubercular drug, in aqueous system is presented. The reported bioprocess is a greener method, does not involve any hazardous reagent and takes place under mild reaction conditions. Whole cell amidase of Bacillus smithii strain IITR6b2 having acyltransferase activity was utilized for its ability to transfer acyl group of isonicotinamide to hydrazine–2HCl in aqueous medium. B. smithii strain IITR6b2 possessed 3 folds higher acyltransferase activity as compared to amide hydrolase activity and this ratio was further improved to 4.5 by optimizing concentration of co-substrate hydrazine–2HCl. Various key parameters were optimized and under the optimum reaction conditions of pH (7, phosphate buffer 100 mM), temperature (30 °C), substrate/co-substrate concentration (100/1000 mM) and resting cells concentration (2.0 mg_dcw/ml), 90.4% conversion of isonicotinamide to isoniazid was achieved in 60 min. Under these conditions, a fed batch process for production of isoniazid was developed and resulted in the accumulation of 439 mM of isoniazid with 87.8% molar conversion yield and productivity of 6.0 g/h/g_dcw. These results demonstrated that enzymatic synthesis of isoniazid using whole cells of B. smithii strain IITR6b2 might present an efficient alternative route to the chemical synthesis procedures without the involvement of organic solvent.     

Activity and thermostability increase of xylanase following transplantation with modules sub-divided from hyper-thermophilic CBM9_1-2

Transplantation is useful for elucidating the functions of structural modules and for engineering enzyme properties. Unexpectedly, transplanting a hyper-thermophilic carbohydrate-binding module, CBM9_1-2, into the mesophilic Aspergillus niger GH11 xylanase (Xyn) slightly decreased the thermal inactivation half-life of Xyn. This effect was further investigated by dividing the CBM9_1-2 module into two smaller parts, C1 and C2, which were transplanted into Xyn to create the chimeras Xyn-C1 and Xyn-C2. Both chimeras exhibited higher catalytic activities on xylan than native Xyn. Xyn-C2 exhibited higher binding affinities for both oat spelt and birch wood xylans, and its thermal inactivation half-life (69.3 min) was 4 or 5 times longer than that of Xyn (17.6 min), Xyn-C1 (13.4 min), and the original chimera containing CBM9_1-2 (13.8 min). In contrast, Xyn-C1 exhibited higher binding affinity for oat spelt xylan, but not for birch wood xylan. Through this rational engineering of the fungal xylanase, the C2 sub-module was shown to have a different thermostabilizing effect than the C1 sub-module. The different functions of the smaller parts of a large module can play pivotal roles in transplantation.     

Cyanide hydratase from Aspergillus niger K10: Overproduction in Escherichia coli,purification, characterization and use in continuous cyanide degradation

A cyanide hydratase from Aspergillus niger K10 was expressed in Escherichia coli and purified. Apart from HCN, it transformed some nitriles, preferentially 2-cyanopyridine and fumaronitrile. V_max and K_m for HCN were ca. 6.8 mmol min⁻¹ mg⁻¹ protein and 109 mM, respectively. V_max for fumaronitrile and 2-cyanopyridine was two to three orders of magnitude lower than for HCN (ca. 18.8 and 10.3 μmol min⁻¹ mg⁻¹, respectively) but K_m was also lower (ca. 14.7 and 3.7 mM, respectively). Both cyanide hydratase and nitrilase activities were abolished in truncated enzyme variants missing 18–34 C-terminal aa residues. The enzyme exhibited the highest activity at 45 °C and pH 8–9; it was unstable at over 35 °C and at below pH 5.5. The operational stability of the whole-cell catalyst was examined in continuous stirred membrane reactors with 70-mL working volume. The catalyst exhibited a half-life of 5.6 h at 28 °C. A reactor loaded with an excess of the catalyst was used to degrade 25 mM KCN. A conversion rate of over 80% was maintained for 3 days.     

A Kazal-type serine proteinase inhibitor from chicken liver (clTI-1): Purification,primary structure,and inhibitory properties

Low-molecular-mass trypsin inhibitor (clTI-1; chicken liver Trypsin Inhibitor-1) was purified from chicken liver by extraction with perchloric acid, ammonium sulfate precipitation, a combination of ethanol-acetone fractionation followed by gel filtration, ion-exchange chromatography and RP-HPLC on a C18 column. The inhibitor occurs in two isoforms with molecular masses of 5938.56 and 6026.29 Da (determined by MALDI TOFF mass spectrometry). The complete amino acid sequences of both isoforms were determined (UniProtKB/Swiss-Prot P85000; ISK1L_CHICK). The inhibitor shows a high homology to Kazal-type family inhibitors, especially to trypsin/acrosin inhibitors and pancreatic secretory trypsin inhibitors. clTI-1 inhibits both bovine and porcine trypsin (K_a = 1.1 × 10⁹ M^?1 and 2.5 × 10⁹ M^?1, respectively). Significant differences were shown in the inhibition of the anionic and cationic forms of chicken trypsin (K_a = 4.5 × 10⁸ M^?1 and 1.2 × 10¹⁰ M^?1). Weak interaction with human plasmin (K_a = 1.2 × 10⁷ M^?1) was also revealed.     

Catalytic properties of a GH10 endo-β-1,4-xylanase from Streptomyces thermocarboxydus HY-15 isolated from the gut of Eisenia fetida

A novel GH10 endo-β-1,4-xylanase (XylG) gene from Streptomyces thermocarboxydus HY-15, which was isolated from the gut of Eisenia fetida, was cloned, over-expressed, and characterized. The XylG gene (1182 bp) encoded a polypeptide of 393 amino acids with a deduced molecular mass of 43,962 Da and a calculated pI of 6.74. The primary structure of XylG was 69% similar to that of Thermobifida fusca YX endo-β-1,4-xylanase. It was most active at pH 6.0 and 55 °C. The susceptibilities of xylans to XylG were as follows: oat spelt xylan > birchwood xylan > beechwood xylan. The XylG also showed high activity (474 IU/mg) toward p-nitrophenylcellobioside. Moreover, at pH 6.0 and 50 °C, the V_max and K_m values of the XylG were 127 IU/mg and 2.51 mg/ml, respectively, for oat spelt xylan and 782 IU/mg and 5.26 mM, respectively, for p-nitrophenylcellobioside. A homology model indicated that XylG folded to form a (β/α)₈-barrel with two catalytic residues of an acid/base (Glu181) and a nucleophile (Glu289). The formation of a disulfide bond between Cys321 and Cys327 were predicted by homology modeling.     

Purification and partial characterisation of a thermostable xylanase from salt-tolerant Thermobifida halotolerans YIM 90462T

ThxynA, an extracellular xylanase of T. halotolerans YIM 90462^T, was purified to homogeneity from a fermentation broth by ultra-filtration, ammonium sulphate precipitation, hydrophobic chromatography and ion exchange chromatography. The purified xylanase has a molecular mass of 24 kDa and is optimally active at 80 °C and pH 6.0. The enzyme is stable over a broad pH range (pH 6.0–10.0) and shows good thermal stability when incubated at 70 °C for 1 h. The K_m and V_max values of the enzyme are 11.6 mg/mL and 434 μmol mg^?1 min^?1, respectively, using oat spelt xylan as a substrate. Moreover, the enzyme seemingly has both xylanase activity and cellulase activity. These unique properties suggest that it may be useful for industrial applications.     

Magnesium uptake of Arabidopsis transporters,AtMRS2-10 and AtMRS2-11, expressed in Escherichia coli mutants: Complementation and growth inhibition by aluminum

Magnesium (Mg^2 +) plays a critical role in many physiological processes. Mg^2 + transport systems in Salmonella have been well documented, but those in Escherichia coli have not been fully elucidated. We examined the effects of corA, mgtA, yhiD and corC gene deletion on Mg^2 + transport in E. coli. We obtained every combination of double, triple and quadruple mutants. The corA and mgtA double mutant required addition of 10 mM Mg^2 + to Luria-Bertani (LB) medium for growth, and the corA, mgtA and yhiD triple mutant TM2 required a higher Mg^2 + concentration. The Mg^2 + requirement of the quadruple mutant was similar to that of TM2. The results demonstrated that either CorA or MgtA is necessary for normal E. coli growth in LB medium and that YhiD plays a role in Mg^2 + transport under high Mg^2 + growth conditions in E. coli. The Arabidopsis Mg^2 + transporters, AtMRS2-10 and AtMRS2-11, were heterologously expressed in TM2 cells. TM2 cells expressing AtMRS2-10 and AtMRS2-11 could grow in LB medium that had been supplemented with 1 mM Mg^2 + and without Mg^2 + supplementation, respectively, and cell growth was inhibited by 2 mM AlCl₃. The results indicated that the growth of TM2 expressing AtMRS2-10 and AtMRS2-11 reflected these AtMRS2 function for Mg^2 + and aluminum. The E. coli TM2 cells are useful for functional analysis of Arabidopsis MRS2 proteins.     

Cell-associated acid β-xylosidase production by Penicillium sclerotiorum

In recent decades, β-xylosidases have been used in many processing industries. In this work, the study of xylosidase production by Penicillium sclerotiorum and its characterization are reported. Optimal production was obtained in medium supplemented with oat spelts xylan, pH 5.0, at 30 °C, under stationary condition for six days. The optimum activity temperature was 60 °C and unusual optimum pH 2.5. The enzyme was stable at 50 and 55 °C, with half-life of 240 and 232 min, respectively. High pH stability was verified from pH 2.0 to 4.0 and 7.5. The β-xylosidase was strongly inhibited by divalent cations, sensitive to denaturing agents SDS, EDTA and activated by thiol-containing reducing agents. The apparent V_max and K_m values was 0.48 μmol PNXP min^?1 mg^?1 protein and 0.75 mM, respectively. The enzyme was xylose tolerant with a K_i of 28.7. This enzyme presented interesting characteristics for biotechnological process such as animal feed, juice and wine industries.     

Triazolopyridyl ketones as a novel class of antileishmanial agents. DNA binding and BSA interaction

A new series of triazolopyridyl pyridyl ketones has been synthetized by regioselective lithiation of the corresponding [1,2,3]triazolo[1,5-a]pyridine at 7 position followed by reaction with different electrophiles. The in vitro antileishmanial activity of these compounds was evaluated against Leishmania infantum, Leishmania braziliensis, Leishmania guyanensis and Leishmania amazonensis. Compounds 6 and 7 were found to be the most active leishmanicidal agents. Both of them showed activities at micromolar concentration against cultured promastigotes of Leishmania spp. (IC₅₀ = 99.8–26.8 μM), without cytotoxicity on J774 macrophage cells. These two compounds were also tested in vivo in a murine model of acute infection by L. infantum. The triazolopyridine derivative 6 was effective against both spleen and liver parasites forms, while 7 was inactive against liver parasites. Mechanistic aspects of the antileishmanial activity were investigated by means of DNA binding studies (UV-titration and viscosimetry). Results have revealed that these active ligands are able to interact strongly with DNA [K_b = 1.14 × 10⁵ M⁻¹ (6) and 3.26 × 10⁵ M⁻¹ (7)]. Moreover, a DNA groove binding has been proposed for both 6 and 7. To provide more insight on the mode of action of compounds 6 and 7 under biological conditions, their interaction with bovine serum albumin (BSA) was monitored by fluorescence titrations and UV–visible spectroscopy. The quenching constants and binding parameters were determined. Triazolopyridine ketones 6 and 7 have exhibited significant affinity towards BSA [K_b = 2.5 × 10⁴ M⁻¹ (6) and 1.9 × 10⁴ M⁻¹ (7)]. Finally, to identify the binding location of compounds 6 and 7 on the BSA, competitive binding experiments were carried out, using warfarin, a characteristic marker for site I, and ibuprofen as one for site II. Results derived from these studies have indicated that both compounds interact at BSA site I and, to a lesser extent, at site II.     

Detrimental impacts of the dinoflagellate Karenia mikimotoi in Fujian coastal waters on typical marine organisms

Blooms of the toxic dinoflagellate Karenia mikimotoi (K. mikimotoi) have occurred frequently in the East China Sea in recent decades and were responsible for massive mortalities of abalones in Fujian coastal areas in 2012, however, little is known about the effects of these blooms on other marine organisms. In this study, the toxic effects and the possible mechanisms of toxicity of K. mikimotoi from Fujian coastal waters on typical marine organisms at different trophic levels, including zooplankton (Brachionus plicatilis, Artemia salina, Calanus sinicus, and Neomysis awatschensis) and aquaculture species (Penaeus vannamei and Scophthalmus maximus) were investigated. At a bloom density of 3 × 10⁴ cells/mL, the Fujian strain of K. mikimotoi significantly affected the tested organisms, which had mortality rates at 96 h of 100, 23, 20, 97, 33, and 53%, respectively. Moreover, the intact cell suspension was toxic to all tested species, whereas cell-free culture and the ruptured cell suspension had no significant effects on the tested organisms. Possible mechanisms for this toxic effect, including reactive oxygen species (ROS) and hemolytic toxins, were evaluated. For K. mikimotoi, 0.014 ± 0.004 OD/(10⁴ cells) superoxide (O₂⁻) and 3.00 ± 0.00 nmol/(10⁴ cells) hydrogen peroxide (H₂O₂) were measured, but hydrogen peroxide did not affect rotifers at that concentration, and rotifers were not protected from the lethal effects of K. mikimotoi when the enzymes superoxide dismutase and catalase were added to counteract the ROS. The lipophilic extract of K. mikimotoi had a hemolytic effect on rabbit erythrocytes but exhibited no significant toxicity. These results suggest that this strain of K. mikimotoi can have detrimental effects on several typical marine organisms and that its toxicity may be associated with intact cells but is not related to ROS or hemolytic toxins.     

Carbonic anhydrase inhibitors. Inhibition of the β-class enzyme from the pathogenic yeast Candida glabrata with anions

A β-carbonic anhydrase (CA, EC 4.2.1.1), the protein encoded by the NCE103 gene of Candida glabrata which also present in Candida albicans and Saccharomyces cerevisiae, was cloned, purified, characterized kinetically and investigated for its inhibition by a series simple, inorganic anions such as halogenides, pseudohalogenides, bicarbonate, carbonate, nitrate, nitrite, hydrogen sulfide, bisulfite, perchlorate, sulfate and some isosteric species. The enzyme showed significant CO₂ hydrase activity, with a k_cat of 3.8 × 10⁵ s^?1 and k_cat/K_M of 4.8 × 10⁷ M^?1 s^?1. The Cà glabrata CA (CgCA) was moderately inhibited by metal poisons (cyanide, azide, cyanate, thiocyanate, K_Is of 0.60–1.12 mM) but strongly inhibited by bicarbonate, nitrate, nitrite and phenylarsonic acid (K_Is of 86–98 μM). The other anions investigated showed inhibition constants in the low millimolar range, with the exception of bromide and iodide (K_Is of 27–42 mM).     

Pantoea endophytica sp. nov., novel endophytic bacteria isolated from maize planting in different geographic regions of northern China

Four endophytic bacterial strains were isolated from root, stem and leaf of maize planted in different regions of northern China. The four strains possessed almost identical 16S rRNA gene sequences. However, REP-PCR fingerprint patterns discriminated that they were not from one clonal origin. Furthermore, the average nucleotide identity (ANI) values among them were higher than 95%, suggesting they all belong to one species. Based on 16S rRNA gene phylogeny, the four strains were clustered together with Pantoea rodasii LMG 26273^T and Pantoea rwandensis LMG 26275^T, but on a separate branch. Multilocus sequence analysis (MLSA) indicated that the four strains form a novel Pantoea species. Authenticity of the novel species was confirmed by ANI comparisons between strain 596^T and its closest relatives, since obtained values were considerably below the proposed thresholds for the species delineation. The genome size of 596^T was 5.1Mbp, comprising 4896 predicted genes with DNA G + C content of 57.8 mol%. The respiratory quinone was ubiquinone-8 (Q-8) and the polar lipid profile consisted of phosphatidylethanolamin, diphosphatidylglycerol, phosphatidylglycerol, unidentified aminophospholipid and unidentified phospholipid. The major fatty acids of strain 596^T were C_16:0, summed feature 2 (C_12:0 aldehyde), summed feature 3 (C_16:1ω7c and/or C_16:1ω6c) and summed feature 8 (C_18:1ω7c and/or C_18:1ω6c). Based on phylogenetic, genomic, phenotypic and chemotaxonomic data, the four isolates are considered to represent a novel species of the genus Pantoea, for which the name Pantoea endophytica sp. nov., is proposed, with 596^T (= DSM 100,785^T = CGMCC 1.15280^T) as type strain.     

Immobilization of fungal (Trametes versicolor) laccase onto Amberlite IR-120 H beads: Optimization and characterization

Laccase from Trametes versicolor was immobilized on Amberlite IR-120 H beads. Maximum immobilization obtained was 78.7% at pH = 4.5 and temperature T = 45 °C. Kinetic parameters, K_m and V_max values, were determined respectively as 0.051 mM and 2.77 × 10^?2 mM/s for free and 4.70 mM and 5.27 × 10^?3 mM/s for immobilized laccase. The Amberlite–laccase system showed a 30% residual activity after 7 cycles. On the other hand, the loss of activity for free laccase after 7 days of storage at 4 °C was 18.5% in comparison to Amberlite–laccase system with a loss of 1.4%, during the same period. Improved operational, thermal and storage stabilities of the immobilized laccase were obtained compared to the free counterpart. Therefore, the use of low-cost matrices, like Amberlite for enzyme immobilization represents a promising product for enzymatic industrial applications.     

Efficient production of α-arbutin by whole-cell biocatalysis using immobilized hydroquinone as a glucosyl acceptor

The aim of the present study is to develop an efficient and cost-effective method for α-arbutin production by using whole-cell of Xanthomonas maltophilia BT-112 as a biocatalyst. Hydroquinone (HQ), substrate for the bioconversion as glucosyl acceptor, was immobilized on H107 macroporous resin to reduce its toxic effect on the cells, and the optimal reaction conditions for α-arbutin synthesis were investigated. When 350 g/L H107 resin (254.5 mM HQ) and 20 g/L (4.2 U/g) of cells were shaken in 10 mL Na₂HPO₄–KH₂PO₄ buffer (50 mM, pH 6.5) containing 509 mM sucrose at 35 °C with 150 rpm for 48 h, the final yield of α-arbutin reached 65.9 g/L with a conversion yield of 95.2% based on the amount of HQ supplied. The α-arbutin production was 202% higher than that of the control (free HQ) and the cells maintained its full activity for almost six consecutive batch reactions, indicating a potential for reducing production costs. Additionally, the product was one-step isolated and identified as α-arbutin by ¹³C NMR and ¹H NMR analysis. In conclusion, the combination of whole cells and immobilized hydroquinone (IMHQ) is a promising approach for economical and industrial-scale production of α-arbutin.     

Flavobacterium circumlabens sp. nov. and Flavobacterium cupreum sp. nov., two psychrotrophic species isolated from Antarctic environmental samples

A taxonomic study of 24 Gram-stain-negative rod-shaped bacteria originating from the Antarctic environment is described. Phylogenetic analysis using 16S rRNA gene sequencing differentiated isolated strains into two groups belonging to the genus Flavobacterium. Group I (n = 20) was closest to Flavobacterium aquidurense WB 1.1-56^T (98.3% 16S rRNA gene sequence similarity) while group II (n = 4) showed Flavobacterium hydatis DSM 2063^T as its nearest neighbour (98.5–98.9% 16S rRNA gene sequence similarity). Despite high 16S rRNA gene sequence similarity, these two groups represented two distinct novel species as shown by phenotypic traits and low genomic relatedness assessed by rep-PCR fingerprinting, DNA-DNA hybridization and whole-genome sequencing. Common to representative strains of both groups were the presence of major menaquinone MK-6 and sym-homospermidine as the major polyamine. Common major fatty acids were C_15:0 iso, C_15:1 iso G, C_15:0 iso 3-OH, C_17:0 iso 3OH and Summed Feature 3 (C_16:1 ω7c/C_16:1 ω6c). Strain CCM 8828^T (group I) contained phosphatidylethanolamine, three unidentified lipids lacking a functional group, three unidentified aminolipids and single unidentified glycolipid in the polar lipid profile. Strain CCM 8825^T (group II) contained phosphatidylethanolamine, eight unidentified lipids lacking a functional group, three unidentified aminolipids and two unidentified glycolipids in the polar lipid profile. These characteristics corresponded to characteristics of the genus Flavobacterium. The obtained results showed that the analysed strains represent novel species of the genus Flavobacterium, for which the names Flavobacterium circumlabens sp. nov. (type strain CCM 8828^T = P5626^T = LMG 30617^T) and Flavobacterium cupreum sp. nov. (type strain CCM 8825^T = P2683^T = LMG 30614^T) are proposed.     

Cloning,expression and characterization of a novel acidic xylanase,XYL11B,from the acidophilic fungus Bispora sp. MEY-1

A xylanase gene (xyl11B) was cloned from Bispora sp. MEY-1 and expressed in Pichia pastoris. xyl11B, with a 66-bp intron, encodes a mature protein of 219 residues with highest identity (57.1%) to the Trichoderma reesei xylanase of glycoside hydrolase family 11. The purified recombinant XYL11B was acidophilic, exhibiting maximum activity at pH 2.6 and 65 °C. The enzyme was also thermostable, pH stable, and was highly resistant to both pepsin and trypsin, suggesting good performance in the digestive tract as a feed supplement to improve animal nutrition. The activity of XYL11B was enhanced by most metal ions but was inhibited weakly by Hg²⁺, Pb²⁺and Cu²⁺, which strongly inhibit many other xylanases. The specific activity of XYL11B for oat spelt xylan substrate was 2049 U mg^?1. The main hydrolysis products of xylan were xylose and xylobiose.