大气中PM2.5污染现状、健康效应及其致炎症机制研究进展

空气细颗粒物(PM_(2.5))污染已成为影响人体健康的重要因素,其健康效应及致炎症机制已经受到人们的广泛关注。简述了PM_(2.5)国内外污染现状,从PM_(2.5)的质量浓度和组成成分2个方面系统地阐述了其对人体健康的危害,并重点从介导信号通路和介导细胞自噬2个方面对PM_(2.5)导致机体炎症反应的毒性机制进行了总结和讨论,为后续研究和控制PM_(2.5)对机体健康的危害提供科学参考。     

降解菌djl-6多菌灵水解酶的提取及性质

以往对多菌灵降解菌Rhodococcus qingshengii sp.nov.djl-6的降解途径研究显示,该菌株首先通过多菌灵水解酶将多菌灵水解成二氨基苯并咪唑,从而对多菌灵进行脱毒.为开发酶制剂并有效应用于环境中残留污染物多菌灵的降解,比较了不同提取方法(高压细胞破碎、超声波破碎和添加溶菌酶破碎)对多菌灵水解酶提取效率的影响,并对其酶学特性进行了初步研究.结果表明,djl-6菌株在LB培养基中培养72~84 h,生长量和产酶量均达到最大值.采用超声波破碎提取酶的效率较高(蛋白浓度为7.92 mg/mL),但酶活损失较大(比酶活只有1.2 U/μg protein).多菌灵水解酶属于一种胞内组成型酶.该酶水解多菌灵的最适pH值为7.0,最适温度为30℃,Zn2+和K+对酶活有一定的抑制作用.     

Advances on Toxicological Mechanism of AhR Pathway and Early Biomonitoring of Persistent Organic Pollutants (POPs)in Aquatic Animals

过去30年,随着工农业的不断发展,由持久性有机污染物(POPs)导致的癌症患者不断增加.目前POPs已广泛存在于水生态系统中,对水生动物的生长发育、种群繁衍、群落结构等产生重要影响.虽然POPs对水生动物的毒理机制非常复杂,但研究表明其毒理机制主要通过芳香烃受体通道(Ah Rpathway)来进行调控.为全面理解水生动物AhR通道中每一个基因在毒理调控过程中的作用,论文从水生动物芳香烃通道的角度详细阐述了POPs的毒理机制,同时对水生动物中POPs的早期监测进行了讨论,最后提出了未来POPs毒理机制研究的发展方向.     

阿替洛尔在模拟太阳光照射下的光解

以1000W氙灯为光源,研究了阿替洛尔在模拟太阳光照射下的光降解行为,采用HPLC和SPE-LC-MS技术鉴定了阿替洛尔在250～600nm波长照射下的主要光解产物并提出了可能的光解途径.探讨了溶液pH值、硝酸根离子浓度、腐殖质和碳酸氢根离子等因素对阿替洛尔在模拟太阳光照射下光解的影响.结果表明,阿替洛尔在模拟太阳光下的直接光解很难发生,且改变溶液pH值不能促进直接光解.而在250～600nm波长照射下,阿替洛尔4h光解率达42%,光解途径主要有母体羟基化和支链的断裂反应.在模拟太阳光照下,NO3-对阿替洛尔光解有显著的光敏化作用,而富里酸(SRFA)光敏化作用微弱.HCO3-抑制了模拟太阳光照下阿替洛尔在NO3-溶液中的光解,腐殖质则通过自由基淬灭和内滤机制抑制了阿替洛尔在NO3-溶液中的光解.     

联苯胺对线粒体抗氧化酶活性及同工酶的影响

不同浓度联苯胺(0.5,1.0,1.5,2.0mg/mL),以体外染毒方式作用于武昌鱼-团头鲂(Megalobrama amblycephala)肝脏线粒体,研究了武昌鱼肝脏线粒体两种主要抗氧化酶[谷胱甘肽过氧化物酶(GSH-Px)和超氧化物歧化酶(SOD)]活性的变化,用聚丙烯酰胺凝胶电泳法分析了其同工酶谱.结果显示0.5,1.0mg/mL联苯胺激活GSH-Px, 0.5mg/mL联苯胺激活SOD,而1.5, 2.0mg/mL联苯胺抑制这两种酶的活性;另外,在GSH-Px同工酶谱中呈现出特异性标志酶gsh4.     

Effects of different carbon sources on the removal of ciprofloxacin and pollutants by activated sludge: Mechanism and biodegradation

This research investigated the effects of ciprofloxacin(CIP)(0.5, 5, and 20 mg/L) on SBR systems under different carbon source conditions. Microbial community abundance and structure were determined by quantitative PCR and high-throughput sequencing, respectively.The biodegradation production of CIP and possible degradation mechanism were also studied. Results showed that CIP had adverse effects on the nutrient removal from wastewater.Compared with sodium acetate, glucose could be more effective...     

活性污泥降解四溴双酚A的特性、途径及毒性评估

电子行业典型污染物溴代阻燃剂对环境的污染引起了广泛关注.本文以产量最大、应用最广的典型溴代阻燃剂四溴双酚A(Tetrabromobisphenol A,TBBPA)为研究对象,考察了活性污泥降解四溴双酚A的特性、影响因素、降解途径并进行毒性评估.结果显示:活性污泥能有效降解水体中的TBBPA;在初始接菌量OD_(600)=0.77,TBBPA浓度为2.50 mg·L~(-1),温度为40℃,pH值为6.0时,经6 h反应后降解率可达58.46%,脱溴率达43.80%;在自然水体中活性污泥对TBBPA的降解受到抑制,尤其在腐殖质含量较高时;自然光能促进TBBPA降解,紫外光则抑制其降解活性;利用LC-Q-TOF-MS/MS检测到3种中间产物,推测TBBPA可能通过以下两种路径降解:①TBBPA发生甲基化和脱溴反应,产生甲基化的二溴双酚A,随后发生羟基化反应生成5-[1-(3-溴-4-甲氧基-苯基)-1-甲基-乙基]-2-甲氧基-苯酚;②TBBPA发生羟基化反应生成5-[1-(3-溴-4,5-二羟基-苯基)-1-甲基-乙基]-苯-1,2,3-三醇,随后发生脱溴、羟基化和甲基化反应,生成5-[1-(3-羟基-4,5-二甲氧基-苯基)-1-甲基-乙基]-2-甲氧基-苯-1,3-二醇;最后,利用发光细菌对该降解过程进行毒性评价,结果表明,活性污泥降解TBBPA的过程中其毒性未被完全去除,仍存在一定的环境风险.     

赤泥活化过一硫酸盐降解环丙沙星:性能和机制

为提高赤泥的综合利用及抗生素有机废水的深度处理,以赤泥(red mud,RM)为催化剂、环丙沙星(ciprofloxacin,CIP)为目标污染物,系统研究了RM活化过一硫酸盐(peroxymonosulfate,PMS)降解CIP的效果和机制.结果表明,含有Fe、Al和Ca等金属氧化物,具有较大比表面积(10.96 m²·g^-1)和复杂孔道结构的RM能够有效增强PMS对CIP的降解速率和效果.自由基捕获剂甲醇、叔丁醇和苯酚的抑制实验结果进一步说明,体系产生的SO^-₄·和HO·在RM表面与CIP发生氧化反应.温度、PMS浓度和RM投加量影响CIP的降解.温度升高反应速度加快,反应活化能为5.74 kJ·mol^-1; PMS浓度增加,体系产生更多SO^-₄·和HO·,CIP的降解率升高; RM存在最佳投加量1.0 g·L^-1. HPLC/MS/MS共检测到8种降解产物,CIP分子中的哌嗪环易受活性物质进攻,CIP主要...     

Kinetic analysis and bacterium metabolization of α-pinene by a novel identified Pseudomonas sp. strain

Biodegradation has become a popular alternative remediation technology for its economic and ecological advantages. An aerobic bacterium (strain ZW) capable of degrading αup-pinene was isolated from a biofilter by a selective enrichment. Based on the 16S rRNA gene analysis and physiochemical properties, this strain was identified as Pseudomonas veronii. Under the optimized condition achieved by the response surface methodology (RSM), as well as pH 6.82, temperature 26.3\textcelsius and NaCl concentration 1.36%, almost 100% αup-pinene could be removed within 45 hr. Enzymatic biodegradation by the crude intracellular enzyme could be described well by the Michaelis-Menten model in which the maximum degradation rate V_max and the half-saturation constant K_m were calculated to be 0.431 mmol/(L. min) and 0.169 mmol/L, respectively. Activity assay of catechol suggested that the strain ZW possessed a catechol-1,2-dioxygenase and could decompose benzene-ring through ortho ring cleavage. Based on the identified intermediates by GC/MS, a new metabolic pathway was proposed, in which the final metabolites were some simpler organic and inorganic compounds. The present work demonstrated that the strain ZW would have a great application prospect for the remediation of αup-pinene-contaminated environment.     

一株菲降解菌的特性及相关降解基因的克隆

从石油污染土壤中分离到一株菲降解菌2F5-2.根据该菌株生理生化特征和16S rDNA序列相似性分析,将其初步鉴定为鞘氨醇杆菌属(Sphingobium sp.).该菌株在10 h内对100 mg/L的菲的降解率为100%.降解菲的最适温度为30℃,最适pH为7.对降解途径的初步研究显示,该菌株通过水杨酸途径降解菲.克隆了编码芳香烃双加氧酶α亚基的基因phdA,它与菌株Sphingomonas sp.P2、Sphingobium yanoikuyae B1、Sphingomonas sp.ZP1中phdA的同源性分别为97.9%、98%和100%,表明该基因具有保守性.图6参16