In vitro metabolic engineering for the salvage synthesis of NAD+

Excellent thermal and operational stabilities of thermophilic enzymes can greatly increase the applicability of biocatalysis in various industrial fields. However, thermophilic enzymes are generally incompatible with thermo-labile substrates, products, and cofactors, since they show the maximal activities at high temperatures. Despite their pivotal roles in a wide range of enzymatic redox reactions, NAD(P)⁺ and NAD(P)H exhibit relatively low stabilities at high temperatures, tending to be a major obstacle in the long-term operation of biocatalytic chemical manufacturing with thermophilic enzymes. In this study, we constructed an in vitro artificial metabolic pathway for the salvage synthesis of NAD⁺ from its degradation products by the combination of eight thermophilic enzymes. The enzymes were heterologously produced in recombinant Escherichia coli and the heat-treated crude extracts of the recombinant cells were directly used as enzyme solutions. When incubated with experimentally optimized concentrations of the enzymes at 60 °C, the NAD⁺ concentration could be kept almost constant for 15 h.     

Thermophilic denitrifying bacteria: A survey of hot springs in Southwestern Iceland

Abstract Samples of water, sediment and bacterial mat from hot springs in Grændalur and Hveragerdi areas in southwestern Iceland were screened at 70°C and 80°C for thermophilic denitrifying bacteria by culturing in anaerobic media containing nitrate or N₂O as the terminal oxidant. The s springs ranged in temperature from 65–100°C and included both neutral (pH 7–8.5) and acidic (pH 2.5–4) types. Nitrate reducing bacteria (nitrate → nitrite) and denitrifiers (nitrate → N₂) were found that grew at 70°C but not at 80°C in nutrient media at pH 8. Samples from neutral springs that were cultured at pH 8 failed to yield a chemolithotrophic, sulfur-oxidizing and nitrate-reducing bacterium, and samples from acidic springs that were cultured at pH 3.5 seemed entirely to lack dissimilatory, nitrate-utilizing bacteria. No sample yielded an organism capable of growth solely by N₂O respiration. The denitrifiers appeared to be Bacillus . Two such Bacillus strains were examined in pure culture and found to exhibit the unusual denitrification phenotype described previously for the mesophile, Pseudomonas aeruginosa , and one other strain of thermophilic Bacillus . The phenotype is characterized by the ability to grow by reduction of nitrate to N₂ with N₂O as an intermediate but a virtual inability to reduce N₂O when N₂O was the sole oxidant.     

Thermophilic denitrifying bacteria: A survey of hot springs in Southwestern Iceland

Abstract Samples of water, sediment and bacterial mat from hot springs in Grændalur and Hveragerdi areas in southwestern Iceland were screened at 70°C and 80°C for thermophilic denitrifying bacteria by culturing in anaerobic media containing nitrate or N₂O as the terminal oxidant. The springs ranged in temperature from 65–100°C and included both neutral (pH 7–8.5) and acidic (pH 2.5–4) types. Nitrate reducing bacteria (nitrate → nitrite) and denitrifiers (nitrate → N₂) were found that grew at 70°C but not at 80°C in nutrient media at pH 8. Samples from neutral springs that were cultured at pH 8 failed to yield a chemolithotrophic, sulfur-oxidizing and nitrate-reducing bacterium, and samples from acidic springs that were cultured at pH 3.5 seemed entirely to lack dissimilatory, nitrate-utilizing bacteria. No sample yielded an organism capable of growth solely by N₂O respiration. The denitrifiers appeared to be Bacillus . Two such Bacillus strains were examined in pure culture and found to exhibit the unusual denitrification phenotype described previously for the mesophile, Pseudomonas aeruginosa , and one other strain of thermophilic Bacillus . The phenotype is characterized by the ability to grow by reduction of nitrate to N₂ with N₂O as an intermediate but a virtual inability to reduce N₂O when N₂O was the sole oxidant.     

嗜热微生物酶的嗜热机制及应用研究进展

从细胞膜组分、蛋白质结构、遗传物质、钨元素等方面阐述了嗜热微生物酶的嗜热机制 ,并简要介绍了其应用的研究进展。     

一株产木聚糖酶嗜热菌的鉴定及酶学性质

从云南腾冲热泉水样中分离筛选得到一株产木聚糖酶的菌株。通过细菌形态观察、生理生化特性并结合16S rDNA序列分析,经鉴定,该菌为地芽孢杆菌(Geobacillus sp.),命名为Geobacillus sp.PZH1。对该菌株所产嗜热木聚糖酶及酶学特性进行了初步研究。SDS-PAGE和酶谱分析测得该酶分子量约为69 kD;酶的最适反应pH和最适反应温度分别为7.0和70°C,在pH 5.0-11.0和40°C-100°C范围内均有较高酶活;该酶在pH 5.0-12.0范围内和70°C以内具有较高的稳定性;40°C-100°C范围内,该木聚糖酶没有被检测到纤维素酶活性。     

Thermophilic l-fucose isomerase from Thermanaeromonas toyohensis for l-fucose synthesis from l-fuculose

The beneficial biological properties of l-fucose have extended its commercial application potential in pharmaceutical, cosmetic, and food industries. Enzymatic production of l-fucose with l-fucose isomerase (l-FucI) is considered a selective, green, and efficient strategy. Efficient sugar production requires thermophilic enzymes with increased reaction rate, reduced risk of microbial contamination, and high sugar solubility. No study has evaluated the applicability of thermophilic l-FucI for l-fucose production. In this study, we explored the biochemical properties of a thermostable l-FucI from Thermanaeromonas toyohensis (TtFucI) using l-fuculose as a substrate. The recombinant TtFucI exhibited thermophilicity and optimum activity at 70 °C. The specific activity, K_m, and k_cat toward l-fuculose were 199.8 U/mg, 33.4 mM, and 901.7 s⁻¹, respectively. Mn²⁺ ions increased the activity of the enzyme by ∼10 times and enhanced its thermal stability. Our study, on l-fucose synthesis by thermostable l-FucI, suggests the potential application of this enzyme for the industrial production of l-fucose.     

高温放线菌的多样性

高温微生物能在高温环境下生存,并能维持其自身生理生化过程的酶系和化合物的稳定性[1].自1969年发现水生栖热菌(Thermus aquaticus)以后[2],高温菌就引起微生物学家的极大关注.高温菌两个显著的特点决定了其在现代分子生物学和工业应用上的重要价值:一是热稳定性功能分子;二是生长极快且会自溶,能在高温条件下发酵而不易受污染.     

Kinetic comparisons of mesophilic and thermophilic aerobic biomass

Kinetic parameters describing growth and decay of mesophilic (30°C) and thermophilic (55°C) aerobic biomass were determined in continuous and batch experiments by using oxygen uptake rate measurements. Biomass was cultivated on a single soluble substrate (acetate) in a mineral medium. The intrinsic maximum growth rate (μ _max) at 55°C was 0.71±0.09 h⁻¹, which is 1.5 times higher than the μ _max at 30°C (0.48±0.11 h⁻¹). The biomass decay rates increased from 0.004 h⁻¹ at 30°C to 0.017 h⁻¹ at 55°C. Monod constants were very low for both types of biomass: 9±2 mg chemical oxygen demand (COD) l⁻¹at 30°C and 3±2 mg COD l⁻¹at 55°C. Theoretical biomass yields were similar at 30 and 55°C: 0.5 g biomass COD (g acetate COD)⁻¹. The observed biomass yields decreased under both temperature conditions as a function of the cell residence time. Under thermophilic conditions, this effect was more pronounced due to the higher decay rates, resulting in lower biomass production at 55°C compared to 30°C. Electronic Publication     

Thermophilic anaerobic digestion: the best option for waste treatment

After introducing thermophilic anaerobic digestion (AD), characteristics of thermophilic methanogens are provided. Accordingly, (a) site of occurrence, (b) morphological characteristics (shape and motility), (c) biochemical characteristics (Gram character and % G+C profile), (d) nutritional characteristics (NaCl requirement and substrate specificity), and (e) growth characteristics (pH and temperature) of thermophilic methanogens are described. Some studies of the thermophilic AD are cited with their operational management problems. Subsequently, strategies to maximize net energy production are given, including mode of heating the bioreactors, role of agitation to promote AD performance and mode/intensity of mixing. Finally, advantages as well as drawbacks of AD under thermophilic conditions are given, concluding with its applications.     

An analysis of the proteomic profile for Thermoanaerobacter tengcongensis under optimal culture conditions

The genome of Thermoanaerobacter tengcongensis is estimated to encode 2588 theoretical proteins. In this study, we have vitalized approximately 46% of the theoretical proteome experimentally using a proteomic strategy that combines three different methods, shotgun digestion plus high-performance liquid chromatography (HPLC) with ion-trap tandem mass spectrometry (shotgun-liquid chromatography (LC)/MS), one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) plus HPLC with ion-trap tandem mass spectrometry (one-dimensional electrophoresis (1DE)-LC/MS), and two-dimensional gel electrophoresis plus matrix-assisted laser desorption/ionization-time of flight-mass spectrometry (2DE-MALDI-TOF-MS). Of the 1200 proteins identified, as few as 76 proteins were globally found by all three approaches, and notably, most of these proteins were in the soluble fraction. However, there were a number of unique proteins detected by one method only, suggesting that our strategy provides a means toward obtaining a comprehensive view of protein expression profile. Proteins from the major metabolic pathways are strongly represented on the map, and a number of these enzymes were identified by more than one proteomic method. Based upon the proteins identified in the present study, we are able to broaden the understanding of how T. tengcongensis survives under high temperature environment, whereas several of its properties can not be fully explained by genome data.     

一株产生葡萄糖异构酶的嗜热放线菌的研究

本文对产生胞外葡萄糖异构酶的一株嗜热放线菌进行研究。根据它形态和生理特征,可以初步鉴定为不吸水键霉菌嗜热亚种(Streptomycetes ahygroscopicus subsp.thermophilus Yan,Zhang et al.)并对通过紫外线诱变得到的变异株M1033所产生葡萄糖异构酶的某些性质进行了初步探讨。该菌的胞外酶占80%左右,发酵条件粗放,发酵温度为41±1℃,酶的热稳定性温度是70℃。最适pH和温度分别为7.7—8.8和70～80℃。Zn~(2 )、Mn~(2 )、Cu~(2 )、Fe~(2 )和Ba~(2 )等金属离子对它的酶活力虽有抑制作用,但Co~(2 )和Mg~(2 )二种金属离子却有明显的激活作用。     

Fontisphaera persica gen. nov., sp. nov., a thermophilic hydrolytic bacterium from a hot spring of Baikal lake region,and proposal of Fontisphaeraceae fam. nov., and Limisphaeraceae fam. nov. within the Limisphaerales ord. nov. (Verrucomicrobiota)

A novel facultatively anaerobic moderately thermophilic bacterium, strain B-154 ^T, was isolated from a terrestrial hot spring in the Baikal lake region (Russian Federation). Gram-negative, motile, spherical cells were present singly, in pairs, or aggregates, and reproduced by binary fission. The strain grew at 30–57 °C and within a pH range of 5.1–8.4 with the optimum at 50 °C and pH 6.8–7.1. Strain B-154 ^T was a chemoorganoheterotroph, growing on mono-, di- and polysaccharides (xylan, starch, galactan, galactomannan, glucomannan, xyloglucan, pullulan, arabinan, lichenan, beta-glucan, pachyman, locust bean gum, xanthan gum). It did not require sodium chloride or yeast extract for growth. Major cellular fatty acids were anteiso-C_15:0, iso-C_16:0 and iso-C_14:0. The respiratory quinone was MK-7. The complete genome of strain B-154 ^T was 4.73 Mbp in size; its G + C content was 61%. According to the phylogenomic analysis strain B-154 ^T forms a separate family-level phylogenetic lineage. Moreover, together with Limisphaera ngatamarikiensis and “Pedosphaera parvula” this strain forms a separate order-level phylogenetic lineage within Verrucomicrobiae class. Hence, we propose a novel order, Limisphaerales ord. nov., with two families Limisphaeraceae fam. nov. and Fontisphaeraceae fam. nov., and a novel genus and species Fontisphaera persica gen. nov., sp. nov. with type strain B-154 ^T. Ecogenomic analysis showed that representatives of the Limisphaerales are widespread in various environments. Although some of them were detected in hot springs the majority of Limisphaerales (54% of the studied metagenome-assembled genomes) were found in marine habitats. This study allowed a better understanding of physiology and ecology of Verrucomicrobiota – a rather understudied bacterial phylum.     

TLR-independent induction of human monocyte IL-1 by phosphoglycolipids from thermophilic bacteria

The structures of phosphoglycolipids PGL1 and PGL2 from the thermophilic bacteria Meiothermus taiwanensis, Meiothermus ruber, Thermus thermophilus, and Thermus oshimai are determined recently (Yang et al. in J Lipid Res. 47:1823-1932, 2006). These bacteria belong to Gram-negative bacteria that do not contain lipopolysaccharide, but high amounts of phosphoglycolipids and glycoglycerolipids. Here we show that PGL1/PGL2 mixture (PGL1: PGL2 = 10:1 ~ 10:2) from M. taiwanensis and T. oshimai, but not T. thermophilus and M. ruber, up-regulate interleukin-1beta (IL-1beta) production in human THP-1 monocytes and blood-isolated primary monocytes. PGL2 was purified after phospholipase A2 hydrolysis of PGL1 in the PGL1/PGL2 mixture followed by column chromatography. PGL2 did not induce proIL-1 production, even, partially (35-40%) inhibited PGL1-mediated proIL-1 production, showing that PGL1 is the main inducer of proIL-1 production in PGL1/PGL2 mixture. The production of proIL-1 stimulated by phosphoglycolipids was strongly inhibited by specific PKC-alpha, MEK1/2, and JNK inhibitors, but not by p38-specific inhibitor. The intracellular calcium influx was involved in phosphoglycolipids-mediated proIL-1 production. Using blocking antibody and Toll-like receptor (TLR)-linked NF-kappaB luciferase assays, we found that the cellular receptor(s) for phosphoglycolipids on proIL-1 production was TLR-independent. Further, phosphoglycolipids isolated from T. thermophilus and M. ruber did not induce proIL-1 production, even though T. thermophilus possess more PGL1 than PGL2 (6:4). Specially, the fatty acid composition of phosphoglycolipids from both T. thermophilus and M. ruber consists of a low percentage of C15 (<10%) and a high percentage of C17 (>75%). It suggests, the C15 percentage of PGL may play a critical role in PGL-mediated proIL-1 induction.     

Fontivita pretiosa gen. nov., sp. nov., a thermophilic planctomycete of the order Tepidisphaerales from a hot spring of Baikal lake region

A novel facultatively anaerobic moderately thermophilic bacterium, strain B-254^T, was isolated from a terrestrial hot spring near the town of Goryachinsk in the Baikal lake region (Russian Federation). Motile spherical cells of the strain were present as single cocci, in pairs, or aggregates. The cells had a Gram negative cell wall and reproduced by binary fission. The isolate grew at 30–57 °C (opt. 50–54 °C) and at pH 5.1–8.4 (opt. 6.6–7.1). Strain B-254^T was a chemoorganoheterotroph, growing on mono-, di- and polysaccharides (xylan, starch, galactan, galactomannan, xyloglucan, arabinan, curdlan, beta-glucan, locust bean gum, xanthan gum). Sodium chloride or yeast extract were not required for growth. Major cellular fatty acids were iso-C_16:0, anteiso-C_17:0, and C_20:0; major polar lipid was phosphatidylethanolamine. The complete genome of strain B-254^T was 5.54 Mb; its GC content was 64 %. According to the results of 16S rRNA gene sequence-based phylogenetic analysis and the conserved proteins sequences-based phylogenomic analysis strain B-254^T was on a separate lineage within the order Tepidisphaerales (Phycisphaerae, Planctomycetes). Based on phylogenetic and phylogenomic analyses of Phycisphaerae, whole genome comparisons of Tepidisphaerales as well as distinctive phenotypic features of the strain, it was assigned to a novel genus and species for which the name Fontivita pretiosa gen. nov. sp. nov. is proposed. Strain B-254^T = KCTC 82380^T = VKM B-3507^T.     

Cloning of aMicrobispora bispora cellobiohydrolase gene inEscherichia coli

Summary Cellobiohydrolase II was purified from aMicrobispora bispora culture filtrate and a monoclonal antibody to it was prepared. Screening aM. bispora genomic library inEscherichia coli with this antibody yielded three equivalent clones. Subcloning resulted in greater expression, and activity could be monitored using 4-methylumbelliferylcellobioside. Southern analysis provided evidence that there is a single gene coding for CBH II. The original 22-kb fragment was reduced to 4 kb and subcloned into pUC118/119 resulting in a doubling of expression CBH II. The gene was expressed via its own promoter. The optimal pH (6.5) and the optimal temperature (60°C) of the cloned enzyme are similar to that of the native CBH II.     

A highly-active endo-1,3-1,4-β-glucanase from thermophilic Talaromyces emersonii CBS394.64 with application potential in the brewing and feed industries

A 1245-bp endoglucanase gene of glycoside hydrolase (GH) family 7, egl7A, was cloned from the acidothermophilic fungus Talaromyces emersonii CBS394.64 and successfully expressed in Pichia pastoris. Sequence alignments indicated that Egl7A had highest identity of 62.7% at the amino acid level with the functionally characterized endoglucanase from Aspergillus terreus NIH2624. Purified recombinant Egl7A exhibited the maximum activity at pH 4.5 and 70 °C, retained stable over the pH range of 2.0–12.0 and at 65 °C, and was strongly resistant to acidic and neutral proteases, most metal ions and SDS. The enzyme exhibited the highest specific activity reported so far (11,299 U mg⁻¹) when using barley β-glucan as the substrate. Egl7A exhibited broad substrate specificity, including barley β-glucan, lichenin, CMC-Na, and xylan and had capacity to cleave cellopentaose and cellohexaose into smaller units rapidly. Under simulated mashing conditions, addition of Egl7A reduced the mash viscosity by 12.40%; when combined with a GH10 xylanase, more viscosity reduction (27.75%) was observed, which is significantly higher than that of the commercial enzyme Ultraflo XL (17.91%). All these properties make Egl7A attractive for potential applications in the feed and brewing industries.     

Immobilization of cells with nitrilase activity from a thermophilic bacterial strain

Cells of the moderately thermophilic Bacillus sp. UG-5B strain, producing nitrilase (EC3.5.5.1), which converts nitriles directly to the corresponding acid and ammonia, were immobilized using different types of matrices and techniques. A variety of sol-gel silica hybrids were tested for entrapment and adsorption of bacterial cells as well as chemical binding on polysulphone membranes. Activation of the matrix surface with formaldehyde led to an increase in immobilization efficiency and operational stability of the biocatalysts. Among the supports screened, membranes gave the best results for enzyme activity and especially operational stability, with retention of 100% activity after eight reaction cycles.     

Purification and properties of 1-phosphofructokinase from Escherichia coli

Abstract The thermophilic facultatively phototrophic green bacterium Chloroflexus aurantiacus strain Ok-70-fl was shown to possess sulfide-repressed hydrogenase activity. Biosynthesis of the enzyme was severely repressed by S²⁻ (5.7 mM) and stimulated specifically by Ni²⁺ and by molecular hydrogen. The hydrogenase was shown to be localized in the cytoplasmic membrane and could be solubilized from the latter by the detergent Triton X-100 in a state forming one enzymatically active band ( M _r 170 × 10³) in polyacrylamide gels. In the membraneous state, the hydrogenase had its maximal activity at 73°C and was active with methyl viologen, methylene blue, menadione and flavins, but not with NAD or NADP as electron acceptors. Solubilization of the enzyme with Triton X-100 resulted in a drastic increase in the FAD/FMN-linked activity.     

A new acidophilic fungus Teratosphaeria acidotherma (Capnodiales, Ascomycota) from a hot spring

A novel acidophilic fungus was isolated by an acidic enrichment culture of microbial mats and biofilms collected at an extremely acidic and high temperature hot spring. In culture studies, this fungus was revealed to produce ascomycetous teleomorph structures. Molecular phylogenetic study and morphological observation showed this fungus is a new species of the genus Teratosphaeria (Capnodiales, Dothideomycetes) and is phylogenetically close to Acidomyces acidophilus and Bispora sp., which were previously reported as acidophilic anamorphic fungi. This new fungus is described here as a new species of Teratosphaeria, and its physiological properties adapting to its habitat are demonstrated. This is the first report of a teleomorphic fungus having highly acidophilic and thermophilic properties.