二氧化氯对球形棕囊藻叶绿素a、蛋白质、DNA含量的影响

分析了二氧化氯(1.0、1.5、2.0、2.5mgL-1,作用96h;2.5、6.0、8.0、16.0mgL-1,作用60min)对球形棕囊藻叶绿素a、蛋白质含量、氨基酸组成、核酸含量的影响,用透视电镜对二氧化氯(0.5mgL-1,0.8mgL-1)作用24h后藻细胞形态的变化进行了观察,以探讨二氧化氯去除赤潮藻的机理。结果表明,二氧化氯对球形棕囊藻叶绿素a、蛋白质、DNA的含量均有影响。实验各组(1.0-2.5mgL-1,2.5-16.0mgL-1)球形棕囊藻的叶绿素a、蛋白质、DNA的含量均显著低于对照。二氧化氯浓度超过2mgL-1时,球形棕囊藻的叶绿素a、蛋白质、DNA的含量持续降低,氨基酸相对含量发生明显变化;半胱氨酸、酪氨酸和赖氨酸等的相对含量明显降低,而组氨酸、缬氨酸和苯丙氨酸则明显增加。当二氧化氯(2.5-16.0mgL-1)作用3min后,DNA漏出率在13%-18%之间;电镜观察发现,二氧化氯可使细胞膜破损,引起内容物外泄。这些结果显示,二氧化氯能以单分子形式进入细胞,引起叶绿素、蛋白质结构的变化,并破坏藻细胞膜系统,最终导致藻细胞死亡。     

呼吸抑制在二氧化氯杀菌中的作用

【目的】二氧化氯是一种高效低毒的食品和饮用水消毒剂,其杀菌机理至今还不甚明了。本文的目的是研究二氧化氯对白色念珠菌呼吸功能的抑制作用及其与杀菌效应之间的对应性。【方法】超显微结构观察、流式细胞仪检测、耗氧率的测定以及平板培养。【结果】二氧化氯对白色念珠菌的线粒体的结构和外形没有明显的损伤作用,但是线粒体的跨膜电位会随着二氧化氯剂量的增加而逐渐崩溃;有氧呼吸的抑制程度与菌体的死亡率保持正相关但并不相等,各种作用条件下呼吸的抑制率始终显著低于菌体死亡率;二氧化氯作用后用厌氧培养和好氧培养两种方法所检测的死亡率没有明显区别。【结论】实验结果说明了二氧化氯对真核细胞的细胞器有明显的损伤作用并与死亡率呈正相关,但呼吸抑制可能不是细菌死亡的首要原因。     

二氧化氯对脱氧核糖核苷三磷酸和质粒DNA的作用

以75 mmol/L的二氧化氯作用于脱氧核糖核苷三磷酸dCTP、dTTP、dGTP、dATP混合物(浓度均为100 μmol/L),液相色谱显示它们在260 nm波长处的峰面积分别下降了54.23%±2.08%、66.25%±3.32%、55.47%±0.23%、59.59%±3.27%.纯化质粒被二氧化氯作用后电泳条带来出现明显弥散和拖尾现象.45 mmol/L以上二氧化氯能彻底抑制质粒DNA的PCR模板活性,150 mmol/L的二氧化氯才能使纯化质粒的转化率降至对照组的0.20%±0.20%.实验证明二氧化氯对DNA具有损伤作用,这种损伤可能与嘧啶碱和嘌呤碱的共轭双键被破坏有关.     

二氧化氯杀灭除盐水系统中有害菌的研究

本文报道了杀菌剂二氧化氯对热电厂除盐水系统中有害菌的杀灭作用,并与氯的杀菌率作了比较。利用二氧化氯进行杀菌时,对粘液异养菌使用2ppm;铁细菌、硫酸盐还原菌使用1ppm;真菌使用2ppm,杀菌率达90—99％;而使用氯达到同样杀菌率需4—5 ppm。杀灭天然菌膜中细菌、真苗则需比人工混合菌提高三分之一以上的投药量。在5—60 min的接触时间内杀菌率提高5％,低剂量下随环境pH值(6一11)和温度(10—50℃)的上升,杀菌率有所提高。除50ppm以上的蛋白胨外,所试的糖、酸、氨均不影响二氧化氯的杀菌活性,但明显降低氯的杀菌作用。二氧化氯杀菌中出现失话余量,它同初始投量相比,杀菌率最高可差20—30％。     

北京泛菌的生长特性及快速鉴定方法研究

[目的]研究分析了杏鲍菇软腐病病原菌北京泛菌的生长特性以及病原菌的快速鉴定方法,从而为杏鲍菇软腐病的防控打下基础。[方法]测定了北京泛菌在不同温度、不同种类抗生素、不同浓度的杀菌剂二氧化氯的生长情况,以及采用特异性引物进行PCR鉴定病原菌。[结果]北京泛菌生长的最适温度28℃,对硫酸链霉素、羧苄青霉素等7类抗生素敏感,在含有50 mg/L的杀菌剂二氧化氯的培养基中不能生长,引物对hrp LF/R、wzx CF/R、tua GF/R和lps DF/R在北京泛菌能够扩增出目的条带。[结论]明确了北京泛菌的生长特性,50 mg/L的杀菌剂能够有效杀灭病原菌,并开发了4对特异性引物用于病原菌的快速、准确鉴定,为杏鲍菇软腐病的防控打下基础。     

中华鳖源致病性产吲哚金黄杆菌分离、鉴定及药敏特性分析

对患病中华鳖(Pelodiscus sinensis)进行病原分离、鉴定及药敏实验, 从患病中华鳖皮肤、肝肾脾重要器官分离纯化病原菌, 经理化特性测定及16S rRNA序列分析对其进行鉴定及人工感染试验, 并利用K-B及二倍稀释法进行药敏特性分析。结果表明分离株J22是为中华鳖腐皮病病原, 其对中华鳖的LD₅₀为3.30×104 CFU/g。J22株理化特性与产吲哚金黄杆菌(Chryseobacterium indologenes)一致, 16S rRNA序列与产吲哚金黄杆菌同源性为99%, 综合判定J22株是产吲哚金黄杆菌。分离株对新霉素、庆大霉素及阿莫西林等12种抗生素高度敏感, 对氟苯尼考及多西环素等抗生素耐药; 二氧化氯、漂白粉及高铁酸钾对分离株消毒效果较好。分离菌株J22是中华鳖病原菌, 养殖时可选用庆大霉素、新霉素或者阿莫西林内服, 配合使用二氧化氯、漂白粉及高铁酸钾等外用进行防控。     

二氧化氯控制北京热电厂除盐水系统中微生物污损危害的效果

为控制北京热电厂除盐水系统中微生物的污堵危害,在现场进行了二氧化氯杀菌的中试及生产性试验,并与加氯杀丽的效果作了比较。在投药量为2ppm的二氧化氯和氯的中试中,滤柱运转周期分别为对照的205％和122％;杀菌率分别为95—100％和85—91％。二氧化氯低剂量(1ppm)生产性投加比氯(5—6ppm)提高杀菌率50一90％,并随时间延长杀菌率进一步提高到90％以上。在不超过2ppm的高剂量投加下,水中存活菌量比加氯(5—6ppm)时下降90—99％,在低或高剂量投加下,玻片附着菌量下降90—95％。滤料、树脂层中菌量下降80—99％。挂片污垢量下降48一70％。延缓菌膜形成期l倍以上。滤池反冲次数下降35—49％,阴阳树脂交换容量分别提高14—17.0％和8—11．8％。 试验表明=氧化氯杀菌、抑制污堵效果明显优于氯,采用投量1一2ppm药剂能达到有效控制或延缓热电厂微生物污堵危害的目的。     

常用消毒剂次氯酸钠和二氧化氯对小林三代虫的杀灭效果

为了有效控制三代虫病, 实验以寄生于金鱼的小林三代虫(Gyrodactylus kobayashii)为动物模型, 研究了两种常用消毒剂次氯酸钠溶液(NaClO)和二氧化氯(ClO2)的杀虫效果。结果表明: 在离体(in vitro)条件下, 当NaClO的有效浓度0.2 mg/L或ClO2的有效浓度0.15 mg/L 时, 小林三代虫的平均存活时间均少于2h, 而对照组中小林三代虫的平均存活时间是20.8h。当ClO2的有效浓度0.15 mg/L时, 70%以上的虫体发黑, 而其他浓度处理组, 大部分虫体即使死亡, 虫体依然保持透明。在在体(in vivo)条件下, 当 NaClO的有效浓度0.2 mg/L或ClO2的有效浓度0.5 mg/L 时, 驱虫率都几乎达到100%, 并且驱虫率随着药物浓度的增加而提高,但当ClO2的有效浓度为0.6 mg/L时, 养殖水体出现了白色絮状物。在在体条件下, NaClO的驱虫效果好于ClO2。在金鱼的急性毒性实验中, NaClO和ClO2的安全浓度分别是0.18和0.48 mg/L, 仅稍低于其在在体条件下完全驱除小林三代虫的最小浓度(0.2、0.5 mg/L), 说明次氯酸钠溶液和二氧化氯在驱除三代虫时对金鱼不太安全, 因此, 在治疗金鱼的三代虫病时要慎使次氯酸钠溶液和二氧化氯。然而, 这两种消毒剂能否适用于其他鱼类三代虫病的治疗则有待进一步研究。     

抗消毒剂型微生物培养基研究

二氧化氯、过氧乙酸、次氯酸钠及过氧化氢等消毒剂高浓度可以杀灭微生物,低浓度可以抑制微生物生长。在微生物检测中,要消除消毒剂的干扰,培养基的抗消毒剂指数必须控制在１２．０—２４.５之间。消毒剂解抑剂Ⅰ的抗消毒剂指数为 １２．０,对细菌和真菌生长无明显抑制作用,加入经改良和优化的普通培养基后,制得５种抗消毒剂型培养基,在灭菌前后和一年的保存期内,其抗消毒剂指数基本保持不变。当采用大样倾注平板法和液体大样法检测残留消毒剂的样品时,使用抗消毒剂型培养基检出细菌和真菌能力大大高于普通培养基。     

抗消毒剂型微生物培养基研究*

二氧化氯、过氧乙酸、次氯酸钠及过氧化氢等消毒剂高浓度可以杀灭微生物,低浓度可以抑制微生物生长。在微生物检测中,要消除消毒剂的干扰,培养基的抗消毒剂指数必须控制在１２．０—２４.５之间。消毒剂解抑剂Ⅰ的抗消毒剂指数为 １２．０,对细菌和真菌生长无明显抑制作用,加入经改良和优化的普通培养基后,制得５种抗消毒剂型培养基,在灭菌前后和一年的保存期内,其抗消毒剂指数基本保持不变。当采用大样倾注平板法和液体大样法检测残留消毒剂的样品时,使用抗消毒剂型培养基检出细菌和真菌能力大大高于普通培养基。     

Denaturation of protein by chlorine dioxide: oxidative modification of tryptophan and tyrosine residues

Oxychlorine compounds, such as hypochlorous acid (HOCl) and chlorine dioxide (ClO2), have potent antimicrobial activity. Although the biochemical mechanism of the antimicrobial activity of HOCl has been extensively investigated, little is known about that of ClO2. Using bovine serum albumin and glucose-6-phosphate dehydrogenase of Saccharomyces cerevisiae as model proteins, here I demonstrate that the antimicrobial activity of ClO2 is attributable primarily to its protein-denaturing activity. By solubility analysis, circular dichroism spectroscopy, differential scanning calorimetry, and measurement of enzymatic activity, I demonstrate that protein is rapidly denatured by ClO2 with a concomitant decrease in the concentration of ClO2 in the reaction mixture. Circular dichroism spectra of the ClO2-treated proteins show a change in ellipticity at 220 nm, indicating a decrease in alpha-helical content. Differential scanning calorimetry shows that transition temperature and endothermic transition enthalpy of heat-induced unfolding decrease in the ClO2-treated protein. The enzymatic activity of glucose-6-phosphate dehydrogenase decreases to 10% within 15 s of treatment with 10 microM ClO2. Elemental analyses show that oxygen, but not chlorine, atoms are incorporated in the ClO2-treated protein, providing direct evidence that protein is oxidized by ClO2. Furthermore, mass spectrometry and nuclear magnetic resonance spectroscopy show that tryptophan residues become N-formylkynurenine and tyrosine residues become 3,4-dihydroxyphenylalanine (DOPA) or 2,4,5-trihydroxyphenylalanine (TOPA) in the ClO2-treated proteins. Taking these results together, I conclude that microbes are inactivated by ClO2 owing to denaturation of constituent proteins critical to their integrity and/or function, and that this denaturation is caused primarily by covalent oxidative modification of their tryptophan and tyrosine residues.     

Chlorate as a Transport Analog for Nitrate Absorption by Roots of Tomato

Several studies have indicated that chlorate (ClO3-) and nitrate (NO3-) may share a common transport system in higher plants. Here, we compared the interactions between ClO3- and NO3-uptake by roots of intact tomato (Lycopersicon esculentum cv T5) plants. Exposure to ClO3- for more than 2 h inhibited both net ClO3- and K+ uptake, presumably because of ClO3- toxicity; consequently, subsequent measurements were conducted after short exposures to ClO3-. The apparent affinity and apparent maximum rate of absorption for net ClO3- and NO3- uptake were very similar. Interactions between ClO3- and NO3- transport were complex; 50 [mu]M NO3- acted as a mixed inhibitor of net ClO3- uptake, but 50 [mu]M ClO3- had no significant effect on net NO3- uptake, and 500 [mu]M ClO3- had no significant effect on 15NO3- influx. If the two ions share a single common high-affinity transport system, it is much more selective for NO3- than would be suggested by the similarity of net NO3- and ClO3- uptake kinetics. Our results indicate that, although NO3- may interfere with root ClO3- uptake, ClO3- is not a useful analog for the root high-affinity NO3- transport system.     

二氧化氯浸泡对双孢蘑菇褐变的抑制效应及其机理分析

以‘W2000’双孢蘑菇为试验材料,设清水(CK)和ClO2浸泡(120mg·L-1)2个处理,研究ClO2浸泡处理在低温贮藏条件下对双孢蘑菇采后品质、生理及相关酶活性的影响。结果显示:ClO2浸泡处理配合0℃低温贮藏可显著降低双孢蘑菇的呼吸强度,推迟呼吸高峰的出现时间,呼吸强度较CK降低29.2%,并使呼吸高峰推迟5d出现;同时能够有效抑制子实体多酚氧化酶(PPO)和过氧化物酶(POD)的活性,控制酚类氧化产物的积累,减缓子实体褐化进程,贮藏20d时,处理的总酚含量仅为0.81μmol/mg。另外,ClO2处理还可延缓子实体硬度的下降,保持其可溶性固形物的含量,并抑制开伞,有效延长双孢蘑菇的贮藏期。研究表明,ClO2处理+低温贮藏对双孢蘑菇具有较理想的保鲜效应,可有效保持双孢蘑菇的外观和营养品质,提高商品价值,具有一定的实际应用价值。     

Reaction of chlorine dioxide with amino acids and peptides: kinetics and mutagenicity studies

Chlorine dioxide (ClO2) is currently being considered as an alternate to chlorine as a disinfectant for water treatment. Many organic compounds present in water and food treated with ClO2 are subject to oxidation. 21 amino acids and 3 peptides (L-aspartyl-L-phenylalanine methyl ester (aspartame), L-glycyl-L-tryptophan and L-tryptophylglycine) were studied for their reactivity with ClO2. Chlorine dioxide reacted only with 6 amino acids in 0.1 M sodium phosphate buffer, pH 6.0. The reaction with cysteine, tryptophan and tyrosine was too rapid to be monitored either iodometrically or spectrophotometrically. The reaction with histidine, hydroxyproline and proline was found to be pseudo-first order. ClO2 readily reacted with L-glycyl-L-tryptophan and L-tryptophylglycine but not with aspartame. Mutagenicity studies with the Salmonella microsome assay of the reaction mixtures of ClO2 with those 6 reactive amino acids and the 3 peptides indicated that the reaction products of the 3 peptides, hydroxyproline, and tyrosine exerted mutagenic activity toward both tester strains of TA98 and TA100 in the presence and absence of rat-liver S9 mix.     

ClO2处理对油桃采后生理及相关酶活性的影响

以秦光2号油桃为试验材料,研究了ClO2浸泡处理对油桃采后生理及相关酶活性的影响,结果显示:ClO2处理可以有效降低油桃呼吸强度和乙烯释放量,减少MDA的积累,降低果实组织相对电导率,显著抑制多聚半乳糖醛酸(PG)酶和纤维素(Cx)酶的活性,延缓果实硬度的下降.保持了可溶性固形物的含量,但对可滴定酸含量的影响不大.实验表明,ClO2浸泡处理对秦光2号油桃具有一定的保鲜作用.     

Internal intensity standards for heme protein UV resonance Raman studies: excitation profiles of cacodylic acid and sodium selenate.

We examine the utility of SO4(2-), ClO4-, cacodylic acid, and SeO4(2-) as internal intensity standards for Raman spectral measurements of protein structure. We find that 0.1 M SO4(2-) and ClO4- perturb the protein tertiary structure of aquomethemoglobin (met-Hb) and its fluoride (met-HbF) and azide (met-HbN3) complexes. Changes occur for the tryptophan near-UV absorption bands, the iron spin state is altered, and the fluoride ligand affinity decreases. Concentrations of ClO4- and SO4(2-) as low as 0.1 M suppress the met-HbF quaternary R----T transition induced by the allosteric effector inositol hexaphosphate (IHP). In contrast, similar concentrations of cacodylic acid and SeO4(2-) show little effect on the hemoglobin tertiary or quaternary protein structures or upon the R----T transition induced by IHP. We measure the Raman cross sections of cacodylic acid and SeO4(2-) between 218 and 514.5 nm and find that for UV excitation they are ca. 5-fold larger than ClO4- or SO4(2-). Thus, cacodylic acid and selenate can be used at lower concentrations. Cacodylic acid and SeO4(2-) are superior Raman internal intensity standards for protein structural studies.     

Survival of Escherichia coli O157:H7 and Salmonella typhimurium inoculated on chicken by aqueous chlorine dioxide treatment

Inactivation of Escherichia coli O157:H7 and Salmonella typhimurium was evaluated on inoculated chicken by aqueous chlorine dioxide (ClO2) treatment. Chicken samples were inoculated with 6-7 log CFU/g of Escherichia coli O157:H7 and Salmonella typhimurium, respectively. The chicken samples were then treated with 0, 50, and 100 ppm of ClO2 solution and stored at 4 +/- 1 degrees C. Aqueous ClO2 treatment decreased the populations of the pathogenic bacteria on the chicken breast and drumstick. In particular, 100 ppm ClO2 treatment on the chicken breast and drumstick reduced Escherichia coli O157:H7 and Salmonella typhimurium by 1.00-1.27 and 1.37-1.44 log CFU/g, respectively. Aqueous ClO2 treatment on the growth of the bacteria was continuously in effect during storage, resulting in the decrease of the populations of Escherichia coli O157:H7 and Salmonella typhimurium. These results suggest that aqueous ClO2 treatment should be useful in improving the microbial safety of chicken during storage.     

Modeling of Ni-Fe-center of Ni-CO-dehydrogenases by nickel complexes with thiaazaligands

Three new nickel(II) complexes with ligands 1,8-bis(2'-pyridyl)-3,6-dithiaoctane (Pdto) and dithiosemicarbazone of 4,7-dithiadecane-2,9-dione (DtdtzH2) of composition Ni(Pdto)(H2O)2(ClO4)2, Ni(DtdtzH2)(ClO4)2 and Ni(Dtdtz) were prepared, their molecular structures, spectral and redox-properties were studied. The possibilities of chemical reduction of Ni(Pdto)(H2O)2(ClO4)2 to nickel(I) and nickel(0) species and the reaction of nickel(I) complex with CO were shown, which may be described as the modeling of one of the stages of reactions with CO on active Ni-Fe-site of Ni-CO-dehydrogenases. It was found that Ni(DtdtzH2)(ClO4)2 reacted with (Et4N)2[Fe4S4(SBz)4] (BzSH = C6H5 CH2SH) forming adduct. In the row of studied complexes Ni(Pdto) (H2O)2(ClO4)2 may be described as the best structural model of Ni-Fe-site of Ni-CO-dehydrogenases on the redox properties.     

The relationship of some copper (II) complexes of facultative tetrathioethers to the coordination environment in the "blue" copper proteins

The facultative potentially tetradentate thioether ligands 1,2-bis(methylthioethylthio)ethane (2,2,2), 1,3-bis(2-methylthioethylthio)propane (2,3,2) and 1,2-bis(3-methylthiopropylthio)ethane (3,2,3) react with copper(II) salts to form Cu2(2,2,2)Cl4, Cu3(ligand)X6 (ligand = 2,3,2 and 3,2,3 X = Cl; ligand = 2,2,2 2,3,2 and 3,2,3 X = Br), and Cu(ligand)(ClO4)2. The stoichiometry and structures of these complexes are discussed in terms of the steric demands of the ligand and the nature of the halide. The [Cu(2,3,2)(ClO4)] ClO4 and [Cu(3,2,3)(ClO4) [ClO4 complexes have electronic spectra which exhibit the intense 600 nm band characteristic of the "blue" copper proteins. In fact, the spectrum of [Cu(2,3,2)(ClO4)]ClO4 is very similar to that of pseudomonas aeroginosa azurin.