Isolation and characterization of water-soluble hemicelluloses from flax shive

Partially depolymerized, water-soluble hemicelluloses were solubilized from flax shive employing hydrothermal microwave treatment and thereafter subjected to ion-exchange chromatography, enzymatic purification and/or size-exclusion chromatography (SEC). The oligo- and polysaccharide fractions thus obtained were characterized with respect to molar mass, molar mass distribution, degree of polymerization (DP) and degree of substitution with acetyl moieties (DSAc) by employing SEC in combination with MALDI-TOF mass spectrometry. The major portion of the water-soluble flax hemicellulose consisted of an O-acetyl-4-O-methylglucuronoxylan exhibiting a DPp value (i.e., peak-average DP) of 28. When the DSAc for this O-acetyl-4-O-methylglucuronoxylan was calculated on the basis of the MALDI-MS spectra obtained without and following deacetylation, a value of 0.7 was obtained. In addition, an O-acetyl-glucomannan (DPp=9, DS=0.4) and minor quantities of small neutral O-acetyl-xylooligosaccharides were also isolated from the mixture of water-soluble hemicelluloses released from the flax shive by microwave treatment.     

Comparative study on the productivity of strains of Pleurotus spp. in commercial cultivation

This paper describes the commercial production of two strains of Pleurotus pulmonarius, selected in the laboratory for their rapid mycelial development and high production of basidiomata, and one commercial strain of Pleurotus ostreatus. Substrate preparation, impact of pathogens and environmental conditions necessary for the production and quality of the fruiting bodies required are discussed.     

两个糙皮侧耳菌株的比较基因组学研究

随着糙皮侧耳基因组测序的完成,基因组数据的深入挖掘和利用成为研究重点。本研究基于较高质量的糙皮侧耳CCMSSC00389-1和CCMSSC03989-1基因组图谱,开展了种内比较基因组学分析。CCMSSC00389-1和CCMSSC03989-1的11条染色体序列表现出良好的共线性,且分别含有89.92%和91.68%的保守基因。对菌株特有基因的GO富集分析表明,两菌株各自分化出一些独特的调控方式或途径。CCMSSC00389-1和CCMSSC03989-1之间共存在931 542个单核苷酸多态性位点,231 654个插入/缺失和9 221个结构变异。对与遗传变异重叠基因的GO富集分析表明,碳水化合物降解、物质运输/催化和调控/蛋白活性相关的基因分别容易发生SNP、In/Del和SV变异。CCMSSC00389-1中50.326kb缺失序列的断点两侧含有双链断裂修复（DSB）信号,推测DSB介导50.326kb序列的缺失。     

Activated carbons from flax shive and cotton gin waste as environmental adsorbents for the chlorinated hydrocarbon trichloroethylene

Agricultural by-products represent a considerable quantity of harvested commodity crops. The use of by-products as precursors for the production of widely used adsorbents, such as activated carbons, may impart a value-added component of the overall biomass harvested. Our objective in this paper is to show that flax shive and cotton gin waste can serve as a precursor for activated carbon that can be used for adsorption of trichloroethylene (TCE) from both the liquid and gas phases. Testing was conducted on carbon activated with phosphoric acid or steam. The results show that activated carbon made from flax shive performed better than select commercial activated carbons, especially at higher TCE concentrations. The activation method employed had little effect on TCE adsorption in gas or vapor phase studies but liquid phase studies suggested that steam activation is slightly better than phosphoric acid activation. As expected, the capacity for the activated carbons depended on the fluid phase equilibrium concentration. At a fluid concentration of 2 mg of TCE/L of fluid, the capacity of the steam activated carbon made from flax shive was similar at 64 and 80 mg TCE/g of carbon for the vapor and liquid phases, respectively. Preliminary cost estimates suggest that the production costs of such carbons are $1.50 to $8.90 per kg, depending on activation method and precursor material; steam activation was significantly less expensive than phosphoric acid activation.     

Comparative study of genomes of two species of flax by C-banding of chromosomes

C-banding patterns of the karyotypes of two closely related wild flax species, Linum austriacum L. (2n = 18) and Linum grandiflorum Desf. (2n = 16), were studied. The karyotypes of both species were similar in the chromosome morphology and size. In each species, metacentric and acrocentric chromosomes (1.7-4.3 microns) and one satellite chromosome were observed. In the karyotypes of the species studied, all homologous chromosome pairs were identified, and quantitative ideograms were constructed. Eight chromosome pairs in the two species had similar C-banding patterns. A low level of intraspecific polymorphism in the intercalary and telomeric C-bands was shown in both species. The results indicate that the genomes of two flax species originated from one ancestral genome with the main chromosome number of 8 or 9. Apparently, the doubling of chromosome number or loss of one chromosome with subsequent redistribution of the chromosome material in the ancestral form resulted in the divergence into two species, L. austriacum L. and L. grandiflorum Desf. A considerable similarity of chromosomes in these species provides evidence for their close phylogenetic relatedness, which makes it possible to place them in one section within the Linum genus.     

Lignocellulose degradation by Pleurotus ostreatus in the presence of cadmium

Activities of cellulolytic and hemicellulolytic enzymes endo-1,4-beta-glucanase, exo-1,4-beta-glucanase, 1,4-beta-glucosidase, endo-1,4-beta-xylanase, 1,4-beta-xylosidase and 1,4-beta-mannosidase and ligninolytic enzymes Mn-peroxidase and laccase were detected during the growth of the white-rot fungus Pleurotus ostreatus on wheat straw in the presence and absence of cadmium. The loss of substrate dry weight and Mn-peroxidase activity decreased with increasing Cd concentration, whereas the activities of endo-1,4-beta-glucanase, 1,4-beta-glucosidase and laccase were highly increased in the presence of metal. The onset of hemicellulose-degrading enzyme activity was delayed in the presence of cadmium. The degradation of a model synthetic dye Poly B-411 did not correspond to the activities of ligninolytic enzymes. This is the first report about 1,4-beta-mannosidase in P. ostreatus.     

Fungal activities involved in lignocellulose degradation by Pleurotus

Summary During growth of Pleurotus on cotton straw both the straw in general and the lignin in particular were degraded. After 4 days of fungal growth, activity of laccase, catechol oxidase, peroxidase, and cellulase were detected. This activity, however, declined rapidly after 8–10 days of growth.Lignin degradation began after 10 days and reached a maximum after 21 days. It would seem that the preliminary action of laccase is a prerequisite for lignin degradation.The Pleurotus ostreatus strain P₃ had no detectable laccase activity and showed very poor ability to degrade cotton straw and lignin.Water extract of cotton straw was found to be a potent inducer of laccase in liquid medium and had an effect much stronger than several small phenolic compounds. The degradation of washed cotton straw and lignin from this straw was lower than native straw, so was laccase activity on this medium. High carbon dioxide concentrations encouraged straw degradation by P. ostreatus florida but severly limited lignin degradation. Other fungi including the known lignin degrader Phanarochaete chrysosporium were able to degrade up to 40% of cotton straw dry weight within 21 days of fungal growth. The percentage degradation of lignin, however, was very low (only 10% in 21 days). Pleurotus ostreatus florida was able to degrade up to 56% of the lignin within this time.After treatment with P. ostreatus florida almost four times as much glucose was released when the straw was treated with commercial cellulases, showing increased availability of cellulose.It is suggested that treatment with P. ostreatus florida may be used to enrich low value food materials for ruminant animals.     

Effect of substrate nitrogen on lignin degradation by Pleurotus ostreatus

In order to determine the effect of substrate nitrogen (N) on ligninolytic activity, Pleurotus ostreatus was grown in solid media containing either growth-limiting (1mM) or excess (10mM) NH₄Cl. After 25 days, ¹⁴C–CO₂ production from ¹⁴C-cornstover lignin in low-N medium was 3 times that in nitrogen (N)-rich medium. Supplementation of low-N medium with glucose (0.3%) further enhanced ligninolytic activity. Decolorization of an aromatic, polymeric dye, Poly R-481, in solid media was also greatest under N-limiting conditions.     

三种白腐菌及其组合菌种木质素降解酶比较研究

朱红栓菌Trametes cinnabarina、糙皮侧耳Pleurotus ostreatus、黄孢原毛平革菌Phanerochaete chrysosporium是产生木质素降解酶能力强的菌株。对三种白腐菌及其组合菌种产生木质素降解酶能力和行为进行了比较分析和研究。结果表明,最佳培养方式为液体振荡培养;最佳培养基为酵母膏液体培养基。在产漆酶(laccases,lacs)方面,Pleurotus ostreatus和Phanerochaete chrysosporium的组合菌种的酶活最强,在第6天出现峰值,酶活达到450U/L;在产锰过氧化物酶(manganese peroxidases,mnps)方面,Trametes cinnabarina和Pleurotus ostreatus的组合菌种的酶活最强,在第10天出现峰值,酶活达到1050U/L;在产木质素过氧化物酶(lignin peroxidases,lips)方面,Trametes cinnabarina和Phanerochaete chrysosporium的组合菌种的酶活最强,在第8天出现产酶峰值,酶活达到2990U/L。筛选结果表明,组合菌种比单菌种产生的三种主要木质素降解酶的活性强,这为白腐菌高效产酶提供了一条新的途径,并为白腐菌研究领域的后续工作奠定基础。     

Adsorption and degradation of zearalenone by bacillus strains

Two Bacillus strains; Bacillus subtilis 168 and Bacillus natto CICC 24640 separately adsorbed and degraded zearalenone in liquid media, in vitro. Viable, autoclaved (121°C, 20 min) and acid-treated cells of both strains separately bound more than 55% of zearalenone (ZEN, 20 μg/L) after 30 min and 1-h incubation at 37°C under aerobic conditions, and the amount of ZEN adsorbed was dependent on initial cell volume. In addition, ZEN was degraded by the culture extract of both strains. Degradation by B. subtilis 168 and B. natto CICC 24640 culture extract after 24-h aerobic incubation at 30°C was 81% and 100%, respectively. B. natto CICC 24640 culture extract comprehensively degraded ZEN and, for both strains, no oestrogenic ZEN analogues were present. ZEN degradation was accompanied by carbondioxide emission indicating a decarboxylation reaction. ZEN degradation by the salient B. natto CICC 24640 culture extract varied with initial ZEN concentration, incubation time, temperature and pH. Degradation was enhanced by Mn²⁺, Zn²⁺, Ca²⁺ and Mg²⁺ but impeded by Hg²⁺, Cu²⁺, Pb²⁺, ethylenediaminetetraacetic acid and 1,10-phenanthroline. The degradation reaction is associated with a metalloproteinase of molar mass in the range 31–43 kDa. Overall, the two generally recognised as safe Bacillus strains can, potentially, be utilised for detoxification of zearalenone in food.     

Anaerobic degradation of betaine by marine Desulfobacterium strains

From enrichment cultures with betaine (20 mM) and sulfate (20 mM) as the substrates and intertidal mud as an inoculum, a betaine-oxidizing, sulfate-reducing bacterium (strain PM4) was isolated. Strain PM4 was an oval to rod-shaped, Gram-negative, motile bacterium, which was able to oxidize lactate completely to CO₂ and contained, during growth on betaine and sulfate, high activities of key enzymes of the acetyl CoA/CO dehydrogenase pathway (carbon monoxide dehydrogenase and formate dehydrogenase), but not of 2-oxo-glutarate dehydrogenase, a key enzyme of the citric acid cycle. On the basis of its morphological and physiological characteristics, strain PM4 was identified as a Desulfobacterium strain. Desulfobacterium PM4 grew on betaine with a doubling time of approximately 20 h at 30°C and produced N, N-dimethylglycine (in a 1:1 ratio) and sulfide as products. In this type of betaine metabolism one of the methyl groups of betaine is oxidized to CO₂ and the reducing equivalents generated are used for the reduction of sulfate. Desulfobacterium autotrophicum (DSM 3382) grew also on betaine and sulfate with the formation of N,N-dimethylglycine, sulfide and CO₂.     

Influence of cultivation conditions on pyrene degradation by the fungus Pleurotus Ostreatus D1

For the first time the dependence of completeness of pyrene degradation by the white-rot fungus Pleurotus ostreatus D1 on cultivation conditions was found. In Kirk’s medium about 65.6 ± 0.9% of the initial pyrene was metabolized after 3 weeks, with pyrene-4,5-dihydrodiol accumulating. This process was accompanied by laccase production only. In basidiomycetes rich medium, P. ostreatus D1 metabolized up to 89.8 ± 2.3% of pyrene within 3 weeks without pyrene-4,5-dihydrodiol accumulation throughout the time of cultivation. Phenanthrene and phthalic acid were identified as the metabolites produced from pyrene degradation under these conditions. Accumulation of phenanthrene with its subsequent disappearance was observed. One more metabolite probably was the product of phenanthrene degradation. Pyrene metabolism in basidiomycetes rich medium was accompanied first by laccase and tyrosinase production and later by versatile peroxidase production. The cell-associated activities of laccase, tyrosinase, and versatile peroxidase were found. The data obtained indicate that both enzymes (laccase and versatile peroxidase) are necessary for complete degradation of pyrene. Furthermore, both cell-associated and extracellular laccases can catalyse the first stages of pyrene degradation, and versatile peroxidase can be necessary for oxidation of the resulting metabolites.     

Comparative biochemical and genetic analysis of naphthalene degradation among Pseudomonas stutzeri strains.

Of a 49-strain collection of Pseudomonas stutzeri species, 11 isolates were able to degrade naphthalene and 1 isolate was able to use m- and p-toluate as sole carbon and energy sources. Of these 12 strains, 10 shared a highly homologous set of naphthalene catabolic genes, even though they belong to four different genomovars. These genes differed from those present in plasmid NAH7. In only one of these degraders could a plasmid-encoded pathway be demonstrated, and a chromosome-encoded pathway is proposed for the remaining strains. meta cleavage of catechol was only observed in those strains able to metabolize alkyl derivatives of catechol.     

Zearalenone degradation by two Pseudomonas strains from soil

This study describes the screening of soil bacteria for their capability to degrade zearalenone (ZEN), employing an enrichment technique in which ZEN is used as the sole carbon source. Two isolates that were able to degrade ZEN belonged to the genus Pseudomonas according to biochemical characterization and 16S rRNA gene sequence and were named as Pseudomonas alcaliphila TH-C1 and Pseudomonas plecoglossicida TH-L1, respectively. The results showed that the degradation rates of P. alcaliphila TH-C1 and P. plecoglossicida TH-L1 for ZEN (2 μg/ml) were 68?±?0.85 % and 57?±?0.73 %, when incubated for 72 h at 30 °C in a rotary shaker (160 rpm) and detected by high-performance liquid chromatograms (HPLC). These results suggest that the two Pseudomonas strains are new bacterial resource for degrading ZEN and can provide a new approach for the detoxification of ZEN.     

Uric acid degradation by Bacillus fastidiosus strains.

Seven Bacillus strains including one of the original Bacillus fastidiosus strains of Den Dooren de Jong could grow on urate, allantoin, and, except one, on allantoate. No growth could be detected on adenine, guanine, hypoxanthine, xanthine, and on degradation products of allantoate. Some strains grew very slowly in complex media. The metabolic pathway from urate to glyoxylate involved uricase, S(+)-allantoinase, allantoate amidohydrolase, S(-)-ureidoglycolase, and, in some strains, urease.     

Changes in the activities of enzymes involved in the degradation of butylbenzyl phthalate by Pleurotus ostreatus

Degradation of butylbenzyl phthalate (BBP) by the white rot fungus Pleurotus ostreatus and the activities of some degrading enzymes were examined in two different media containing 100 mg/l of the compound. P. ostreatus pregrown for 7 days in complex YMG medium was able to completely degrade BBP within an additional 24 h but degraded only 35 mg/l of BBP in 5 days of incubation in minimal medium. Fungal cell mass in the culture in YMG medium was higher in the presence than in the absence of BBP. The esterase activity of the fungal culture in YMG medium was higher than that in minimal medium and increased with the addition of BBP. On the contrary, laccase activity was higher in minimal medium and it did not increase upon the addition of BBP. General peroxidase activity increased for a few days after the addition of BBP to both media. The degradation of BBP and its metabolites by P. ostreatus thus may be attributed mostly to esterase rather than lignin-degrading laccase. In addition, the activities of the enzymes involved in BBP degradation and their changes varied significantly in the different media and culture conditions.