The influence of creosote compounds on the aerobic degradation of toluene

The inhibiting effect of 14 typical creosote compounds on the aerobic degradation of toluene was studied in batch experiments. Four NSO-compounds (pyrrole, 1-methylpyrrole, thiophene, and benzofuran) strongly inhibited the degradation of toluene. When the NSO-compounds were present together with toluene, little or no degradation of toluene was observed during 16 days of incubation, compared with a total removal of toluene within 4 days when the four compounds were absent. Indole (an N-compound) and three phenolic compounds (phenol, o-cresol, and 2,4-dimethylphenol) also inhibited the degradation of toluene, though the effect was much weaker that of the four NSO-compounds. O-xylene, p-xylene, naphthalene and 1-methylnaphthalene seemed to stimulate the degradation even though the influence was very weak. No effects of benzothiophene (an S-compound) and quinoline (an N-compound) were observed. Benzofuran (an O-compound) was identified as the compound that most inhibited the degradation of toluene. An effect could be detected even at low concentrations (40 g/l).Abbreviations bf benzofuran - bt benzothiophene - dmp 2,4-dimethylphenol - GC gas chromatograph - ind indole - mnap 1-methylnaphthalene - MAH monoaromatic hydrocarbons - mpyr 1-methylpyrrole - nap naphthalene - o-cre o-cresol - o-xyl o-xylene - phe phenol - pyr pyrrole - p-xyl p-xylene - tol toluene - thi thiophene - qui quinoline     

Effects of creosote compounds on the aerobic bio-degradation of benzene

The inhibitory effect of creosote compounds on the aerobic degradation of benzene was studied in microcosm experiments. A total removal of benzene was observed after twelve days of incubation in microcosms where no inhibition was observed. Thiophene and benzothiophene, two heterocyclic aromatic compounds containing sulfur (S-compounds), had a significant inhibitory effect on the degradation of benzene, but also an inhibitory effect of benzofuran (an O-compound) and 1-methylpyrrole (a N-compound) could be observed, although the effect was weaker. The NSO-compounds also had an inhibitory effect on the degradation of p-xylene, o-xylene, and naphthalene, while they only had a weak influence on the degradation of 1-methylnaphthalene, o-cresol and 2,4-dimethylphenol. The phenolic compounds seemed to have a weak stimulating effect on the degradation of benzene whereas the monoaromatic hydrocarbons and the naphthalenes had no significant influence on the benzene degradation. The inhibitory effect of the NSO-compounds on the aerobic degradation of benzene could be identified as three different phenomena. The lag phase increased, the degradation rate decreased, and a residual concentration of benzene was observed in microcosms when NSO-compounds were present. The results show that NSO-compounds can have a potential inhibitory effect on the degradation of many creosote compounds, and that inhibitory effects in mixtures can be important for the degradation of different compounds.     

Effects of electron acceptors, reducing agents, and toxic metabolites on anaerobic degradation of heterocyclic compounds

Degradation of four heterocyclic compounds was examined under nitrate-reducing, sulphate-reducing and methanogenic conditions. Soil samples from a creosote-polluted site in Denmark were used as inoculum. Indole and quinoline were degraded under all redox conditions with the highest degradation rates obtained under sulphate-reducing conditions. Benzothiophene and benzofuran were not degraded during the observation period of 100 days under any of the redox conditions. Indole and quinoline degrading cultures could be repeatedly transferred under all redox conditions, except for degradation of quinoline under sulphate-reducing conditions which was inhibited by sulphide at concentrations above 0.8 mM. Degradation of quinoline under methanogenic conditions was also inhibited by 3.2 mM sulphide used as a reducing agent, but sulphide had no inhibitory effect on the degradation of indole in methanogenic and sulphate-reducing soil slurries.     

The influence of creosote compounds on the aerobic degradation of toluene

The inhibiting effect of 14 typical creosote compounds on the aerobic degradation of toluene was studied in batch experiments. Four NSO-compounds (pyrrole, 1-methylpyrrole, thiophene, and benzofuran) strongly inhibited the degradation of toluene. When the NSO-compounds were present together with toluene, little or no degradation of toluene was observed during 16 days of incubation, compared with a total removal of toluene within 4 days when the four compounds were absent. Indole (an N-compound) and three phenolic compounds (phenol, o-cresol, and 2,4-dimethylphenol) also inhibited the degradation of toluene, though the effect was much weaker that of the four NSO-compounds. O-xylene, p-xylene, naphthalene and 1-methylnaphthalene seemed to stimulate the degradation even though the influence was very weak. No effects of benzothiophene (an S-compound) and quinoline (an N-compound) were observed. Benzofuran (an O-compound) was identified as the compound that most inhibited the degradation of toluene. An effect could be detected even at low concentrations (40 μg/l).     

Catabolism of benzene compounds by ascomycetous and basidiomycetous yeasts and yeastlike fungi

A literature review is given on growth of yeasts on benzene compounds and on the catabolic pathways involved. Additionally, a yeast collection was screened for assimilation of phenol and 3-hydroxybenzoic acid. Fifteen ascomycetous and thirteen basidiomycetous yeast species were selected and were tested for growth on 84 benzene compounds. It appeared that 63 of these compounds supported growth of one or more yeast species. The black yeastExophiala jeanselmei assimilated 54 of these compounds.The catechol branch of the 3-oxoadipate pathway and its hydroxyhydroquinone variant were involved in phenol and resorcinol catabolism of ascomycetes as well as of basidiomycetes. However, these two groups of yeasts showed characteristic differences in hydroxybenzoate catabolism. In the yeastlike fungusE. jeanselmei and in basidiomycetes of the generaCryptococcus, Leucosporidium andRhodotorula, the protocatechuate branch of the 3-oxoadipate pathway was induced by growth on 3- and 4-hydroxybenzoic acids. In threeTrichosporon species and in all ascomycetous yeasts tested, 4-hydroxybenzoic acid was catabolyzed via protocatechuate and hydroxyhydroquinone. These yeasts were unable to cleave protocatechuate. 3-Hydroxybenzoic and 3-hydroxycinnamic acids were catabolized in ascomycetous yeasts via the gentisate pathway, but in basidiomycetes via protocatechuate.Incomplete oxidation of phenol, some chlorophenols, cresols and xylenols was observed in cultures ofCandida parapsilosis growing on hydroquinone. Most compounds transformed by the growing culture were also converted by the phenol monooxygenase present in cell-free extracts of this yeast. They did not support growth.The relationship between the ability of ascomycetous yeasts to assimilate n-alkanes, amines and benzene compounds, and the presence of Coenzyme Q₉ is discussed.     

Effects of inorganic selenium compounds on oxidative DNA damage

Exposure of Escherichia coli or mammalian cells to H2O2 results in cell death due to iron-mediated DNA damage. Since selenium compounds have been examined for their ability to act as antioxidants to neutralize radical species, and inorganic selenium compounds are used to supplement protein mixes, infant formula, and animal feed, determining the effect of these compounds on DNA damage under conditions of oxidative stress is crucial. In the presence of Fe(II) and H2O2, the effects of Na2SeO4, Na2SeO3, SeO2 (0.5-5000 microM), and Na2Se (0.5-200 microM) on DNA damage were quantified using gel electrophoresis. Both Na2SeO4 and Na2Se have no effect on DNA damage, whereas SeO2 inhibits DNA damage and Na2SeO3 shows antioxidant or pro-oxidant activity depending on H2O2 concentration. Similar electrophoresis experiments with [Fe(EDTA)](2-) (400 microM) and Na2SeO3 or SeO2 show that metal coordination by the selenium compound is required for antioxidant activity. In light of these results, Na2SeO4 may be safer than Na2SeO3 for nutritional supplements.     

Microbial consortia for the aerobic degradation of aromatic compounds in olive oil mill effluent

Aerobic consortia that grow on olive oil mill effluent (OOME) were obtained by enrichment. Several cultures were capable of metabolizing monoaromatic compounds, supplied as the sole carbon source at 2 g L^–1. Some consortia degraded mixtures of seven aromatics (4 g L^–1) after 1 week of incubation at 32°C. The consortia were also active against monoaromatics of the undiluted OOME. This reduced the inhibitory effect of phenolic compounds prior to the anaerobic digestion of OOME at batch scale. No inhibition of the anaerobic microbial populations was noticed with treated OOME. From the most active consortium, nine different bacterial strains were isolated and shown to grow on simple aromatic compounds. Removal of 50% of the initial chemical oxygen demand and degradation of almost all of the simple aromatics in undiluted OOME was obtained with reconstituted bacterial mixtures. A slight reduction in colouration was due to adsorption of coloured compounds to bacterial cells. Presumably, the consortia could not reduce and degrade the coloured compounds in OOME.     

Development of a cataluminescence sensor for detecting benzene based on magnesium silicate hollow spheres

A novel and sensitive gas sensor was developed for the determination of benzene based on its cataluminescence (CTL) by oxidation in air on the surface of hollow magnesium silicate spheres. Luminescence characteristics and optimum conditions were investigated. Results indicated that the as‐prepared magnesium silicate hollow spheres exhibited outstanding CTL properties such as stable intensity, high signal/noise values, and short response and recovery times. Under optimized conditions, benzene exhibited a broad linear range of 1–4500 ppm, with a correlation coefficient of 0.9946 and a limit of detection (signal‐to‐noise ratio (S/N) = 3) of 0.6 ppm, which was below the standard permitted concentration. The relative standard deviation (RSD) for 100 ppm benzene was 4.3% (n = 6). Furthermore, the gas sensor system showed outstanding selectivity for benzene compared with nine other common volatile organic compounds (VOCs). The proposed gas sensor showed good characteristics of high selectivity, fast response time and long lifetime, which suggested the promising application of magnesium silicate hollow spheres as a novel highly efficient CTL sensing material. The mechanism for the improved performance was also discussed based on the experimental results. Copyright © 2014 John Wiley & Sons, Ltd.     

Effects of Proteus vulgaris growth on the establishment of a cheese microbial community and on the production of volatile aroma compounds in a model cheese

Aims:  To investigate the impact of Proteus vulgaris growth on a multispecies ecosystem and on volatile aroma compound production during cheese ripening.
Methods and Results:  The microbial community dynamics and the production of volatile aroma compounds of a nine-species cheese ecosystem were compared with or without the presence of P. vulgaris in the initial inoculum. Proteus vulgaris was able to colonize the cheese surface and it was one of the dominant species, representing 37% of total isolates at the end of ripening with counts of 9·2 log₁₀ CFU g⁻¹. In the presence of P. vulgaris , counts of Arthrobacter arilaitensis , Brevibacterium aurantiacum and Hafnia alvei significantly decreased. Proteus vulgaris influenced the production of total volatile aroma compounds with branched-chain aldehydes and their corresponding alcohols being most abundant.
Conclusions:  Proteus vulgaris was able to successfully implant itself in a complex cheese ecosystem and significantly contributed to the organoleptic properties of cheese during ripening. This bacterium also interacted negatively with other bacteria in the ecosystem studied.
Significance and Impact of the Study:  This is the first time that the impact of a Gram-negative bacterium on cheese microbial ecology and functionality has been described.     

In vitro effects of some anabolic compounds on erythrocyte carbonic anhydrase I and II

The in vitro effects of the anabolic compounds, zeranol, 17 β-estradiol, diethylstilbestrol (DES), and trenbolone, on the activity of purified human carbonic anhydrase I and II were evaluated. In vitro CA enzyme activity was determined colorimetrically using the CO₂ hydration method of Maren. IC₅₀ values of the compounds that caused inhibition were determined by means of activity percentage diagrams. The IC₅₀ concentrations of zeranol, 17 β-estradiol, DES and trenbolone on hCA I were 94, 55, 10, 898 µM and for hCA II 89, 159, 439 and 101 μM, respectively.     

苯污染对大鼠脑组织环核苷酸与相关蛋白水平的影响

为了探索苯污染对人类健康损伤作用的因素,选用SPF级Wistar大鼠为实验对象,分为4组:低剂量组灌胃苯0.19 g·kg-1,中剂量组灌胃苯0.38 g·kg-1,高剂量组灌胃苯0.76 g·kg-1,对照组灌胃菜籽油2 mL·kg-1;用酶联免疫吸附法(ELISA)检测脑组织中环核苷酸和相关蛋白的水平.结果发现,连...     

Effects of aerobic exercise on metabolic syndrome improvement in response to weight reduction

Objective: The objective was to test effects of aerobic exercise training on metabolic syndrome (MetSyn) improvement in response to weight reduction. Research Methods and Procedures: A total of 459 overweight and obese women (age, 49 ± 9 years; BMI, 28 ± 3 kg/m²) were recruited for a baseline examination to test the relationship between cardiorespiratory fitness and metabolic syndrome prevalence; among these, 67 subjects with MetSyn were treated with 14‐week weight‐loss programs, which included low‐calorie diet and aerobic exercise. The MetSyn was defined according to the Examination Committee of Criteria for “Metabolic Syndrome” in Japan. Maximal oxygen uptake (V?o _2max) during a maximal cycling test was measured as an index of cardiorespiratory fitness at baseline and after the intervention. Results: In the baseline examination, age‐ and BMI‐adjusted odds ratios for MetSyn prevalence in the low, middle, and upper thirds of V?o _2max were 1.0 (referent), 0.50 (95% confidence interval, 0.26 to 0.95), and 0.39 (95% confidence interval, 0.14 to 0.96), respectively (linear trend, p = 0.02). The adjusted odds ratios for MetSyn improvement in the two interventions with diet alone and diet plus exercise were 1.0 and 3.68 (95% confidence interval, 1.02 to 17.6; p = 0.04), respectively. Discussion: These results suggest that adding aerobic exercise training to a dietary weight‐reduction program further improves MetSyn (adjusted odds ratio, 3.68) in obese women, compared with diet alone. Further studies on an association between V?o _2max change and MetSyn improvement are needed.     

Detection of volatile organic compounds released by wood furniture based on a cataluminescence test system

Wood furniture is an important source of indoor air pollution. To date, the detection of harmful substances in wood furniture has relied on the control of a single formaldehyde component, therefore the detection and evaluation of pollutants released by wood furniture are necessary. A novel method based on a cataluminescence (CTL) sensor system generated on the surface of nano‐3TiO₂–2BiVO₄ was proposed for the simultaneous detection of pollutants released by wood furniture. Formaldehyde and benzene were selected as a model to investigate the CTL‐sensing properties of the sensor system. Field emission scanning electronic microscopy (FESEM), transmission electron microscopy (TEM) and X‐ray diffraction (XRD) were employed to characterize the as‐prepared samples. The results showed that the as‐prepared test system exhibited outstanding CTL properties such as stable intensity, a high signal‐to‐noise ratio, and short response and recovery times. In addition, the limit of detection for formaldehyde and benzene was below the standard permitted concentrations. Moreover, the sensor system showed outstanding selectivity for formaldehyde and benzene compared with eight other common volatile organic compounds (VOCs). The performance of the sensor system will enable furniture VOC limit emissions standards to be promulgated as soon as possible. Copyright © 2015 John Wiley & Sons, Ltd.     

有氧运动训练影响大鼠胸主动脉环内皮依赖性舒张功能机制的研究

目的:探讨有氧运动对大鼠胸主动脉内皮依赖性舒张功能影响的机制。方法:12只SD大鼠随机分为有氧运动和对照两组(n=6),经过8周每天1 h的游泳训练后(每周5天),测定比较2组间大鼠胸主动脉舒张功能的改变。结果:有氧运动组一氧化氮(NO)和前列环素PGI2途径胸主动脉舒张功能的Rmax值较对照组明显提高(P<0.05)。结论:有氧运动对大鼠胸主动脉舒张功能的有益影响,主要是由NO和PGI2途径介导的。     

硼类化合物在滴眼剂中抑菌效力的探讨

探讨硼类化合物(硼酸、硼砂)在滴眼剂中的抑菌效力。通过实验设计不同浓度的硼酸、硼砂供试品组,测定其抑菌效力。结果表明,在牛磺酸滴眼剂品种中,3组供试品组对真菌组达到抑菌效力的判断标准。但在细菌组中,3组供试品组未达到抑菌效力判断标准。在氯霉素滴眼剂中,白色念珠菌98001、金黄色葡萄球菌26003、铜绿假单胞菌10104组均满足抑菌效力的判断标准,但对大肠埃希菌44102未体现出明显抑菌作用。硼类化合物(硼酸、硼砂)在1 mg/m L剂量下即具有一定的抑菌效力。因此在滴眼剂处方设计时,硼类化合物抑菌效力需被正视,同时需结合配伍注意控制使用剂量。     

有氧运动联合褪黑素对Ⅱ型糖尿病大鼠骨质疏松的影响

目的：观察有氧运动和褪黑素对Ⅱ型糖尿病大鼠骨质疏松的影响。方法：6周龄的成年雌性SD大鼠60只,随机分为安静对照组（N组）10只和Ⅱ型糖尿病模型组50只,N组大鼠不加任何干预,Ⅱ型糖尿病模型组大鼠一次性腹腔注射35 mg/kg链脲佐菌素（STZ）,1周后检测大鼠血糖大于16.7 mmol/L为Ⅱ型糖尿病造模成功,将40只成模大鼠随机分为糖尿病对照组（D）、糖尿病+有氧运动组（DE）、糖尿病+褪黑素组（DM）、糖尿病+有氧运动+褪黑素组（DEM）,每组10只;DE组和DEM组大鼠采用20 min的递增负荷的方式进行跑台有氧运动,训练持续6周,DM组和DEM组大鼠每天灌胃40 mg/kg褪黑素,观察各组大鼠体重、脊椎骨以及左右股骨骨密度（BMD）、观察大鼠血糖、血清丙二醛（MDA）、超氧化物歧化酶（SOD）、谷胱甘肽过氧化物酶（GSH-Px）、血清总钙（Ca）、无机磷（P）和甲状旁腺素（PTH）的变化。结果：与N组相比,D组大鼠体重、血清SOD、GSH-Px水平、血Ca、腰椎和左右股骨BMD显著降低（P < 0.05,P < 0.01）,血糖、血清MDA和血PTH水平显著升高（P < 0.01）,血P无明显变化（P > 0.05）;与D组比较,DE组、DM组大鼠大鼠体重、血清SOD、GSH-Px水平、血Ca、腰椎和左右股骨BMD显著升高（P < 0.05,P <0.01）,血糖、血清MDA和血PTH水平显著降低（P < 0.05,P < 0.01）,血P无明显变化（P > 0.05）,有氧运动和褪黑素同时干预效果更好。结论：有氧运动和褪黑素均能改善糖尿病骨质疏松,且两者联合干预的效果更加显著,其可能与通过提高糖尿病大鼠的抗氧化应激能力,调节糖的代谢从而有效地降低血钙和PTH,改善BMD来缓解骨质疏松有关。     

Sucrose Lipids of Arthrobacteria,Corynebacteria and Nocardia Grown on Sucrose

Arthrobacter paraffineus KY 4303, when grown on sucrose as the sole carbon source, produced novel glycolipids, either of which was different from trehalose lipid produced from n-alkane by the same microorganism. Two kinds of glycolipids were isolated by chromatography on silicic acid columns. Major components of these lipids were sucrose and α-branched β-hydroxy fatty acid. One of the lipid (SL–1, having high polarity) was identified as 6-O-monofattyacyl glucosly-β-fructoside. Another (SL–2, having low polarity) was partly characterized as sucrose ester of at least two moles of the fatty acid.

Formation of sucrose lipids was also demonstrated in sucrose-grown cells of several microorganisms of Corynebacteria, Nocardia and Brevibacteria, which were isolated as hydrocarbon-utilizing bacteria and could produce a considerable amount of trehalose lipid from n-alkane.     

8周有氧水上划艇训练对赛艇运动员某些血液生化指标的影响

目的:探讨有氧渐增负荷量水上划艇训练对赛艇运动员身体机能状态的影响。方法:对8名男子公开级赛艇运动员进行持续8周的有氧渐增负荷量水上划艇训练,运动员每周一至周五上下午和周六上午进行训练,每个半天训练120 min,第一周的水上划艇负荷量为180 km,此后每周递增5 km。运动员在训练前1周、训练第4周以及训练第8周结束后恢复期的次周一清晨进行空腹状态下的肘静脉血采集,检测血中BU、CK、WBC、HB、T、C、T/C等生化指标。结果:与训练前比较,有氧渐增负荷量水上划艇训练第4周结束后,运动员恢复期CK和HB明显升高(P＜0.05),BU、T、C和T/C轻微升高(P＞0.05),WBC明显降低(P＜ 0.05);有氧渐增负荷量水上划艇训练第8周结束后,运动员恢复期WBC和T/C降低,其中WBC明显降低(P＜0.05);BU、CK、HB、T和C则升高,其中HB明显升高(P＜0.05)。结论:运动员经过8周的有氧渐增负荷量水上划艇训练后,其血中生化指标较训练前有所改善,这有利于运动员身体运动能力和适应能力的增强,机能状态的提高。