Chemical characteristics of aerosol particles (PM2.5) at a site of Horqin Sand-land in northeast China

Introduction Soil dust derived from the w ind erosion process in arid and sem i-arid region is an im portant factor on the clim ate forcing(Tegen etal., 1996; Sokolik and Toon, 1996). D esert regions in East A sia w ere considered as the m ajor sources fo…     

低剂量镉诱导细胞氧化损伤的机理研究

镉是一种有毒重金属,能诱导酿酒酵母的氧化损伤.为了研究低剂量镉诱导细胞氧化损伤的作用,通过有葡萄糖和无葡萄糖的酵母培养基,用浓度2 μmol/L和10 μmol/L的CdCl2染毒酿酒酵母10 h后,统计酿酒酵母细胞的存活率,并用HPLC-EC法测定酿酒酵母线粒体DNA中8-OH-dG/105dG比值.结果表明:无葡萄糖条件下,10μmol/L的CdCl2染毒时酿酒酵母对Cd2 的耐受性比有葡萄糖时明显高(P＜0.01),而且线粒体DNA氧化损伤程度也明显低(P＜0 01);但2 μmol/L的CdCl2染毒时,酿酒酵母对Cd2 的耐受性和线粒体DNA氧化损伤程度与有葡萄糖条件下相比差异不显著(P＞0.05).因此,本文认为低浓度Cr主要对酿酒酵母细胞质中蛋白造成氧化损伤,浓度升高时则对线粒体DNA也产生氧化损伤.     

Anaerobic phenanthrene biodegradation with four kinds of electron acceptors enriched from the same mixed inoculum and exploration of metabolic pathways

Anaerobic phenanthrene biodegradation enriched process was described in detail. The enriched bacterial communities were characterized under four redox conditions. The enriched archaeal communities were stated under high percentage conditions. Relatively intact pathways of anaerobic phenanthrene biodegradation were proposed. Polycyclic aromatic hydrocarbons (PAHs) are widespread and persistent contaminants worldwide, especially in environments devoid of molecular oxygen. For lack of molecular oxygen, researchers enhanced anaerobic zones PAHs biodegradation by adding sulfate, bicarbonate, nitrate, and iron. However, microbial community reports of them were limited, and information of metabolites was poor except two-ring PAH, naphthalene. Here, we reported on four phenanthrene-degrading enrichment cultures with sulfate, bicarbonate, nitrate, and iron as electron acceptors from the same initial inoculum. The high-to-low order of the anaerobic phenanthrene biodegradation rate was the nitrate-reducing conditions>sulfate-reducing conditions>methanogenic conditions>iron-reducing conditions. The dominant bacteria populations were Desulfobacteraceae, Anaerolinaceae, and Thermodesulfobiaceae under sulfate-reducing conditions; Moraxellaceae, Clostridiaceae, and Comamonadaceae under methanogenic conditions; Rhodobacteraceae, Planococcaceae, and Xanthomonadaceae under nitrate-reducing conditions; and Geobacteraceae, Carnobacteriaceae, and Anaerolinaceae under iron-reducing conditions, respectively. Principal component analysis (PCA) indicated that bacteria populations of longtime enriched cultures with four electron acceptors all obtained significant changes from original inoculum, and bacterial communities were similar under nitrate-reducing and iron-reducing conditions. Archaea accounted for a high percentage under iron-reducing and methanogenic conditions, and Methanosarcinaceae and Methanobacteriaceae, as well as Methanobacteriaceae, were the dominant archaea populations under iron-reducing and methanogenic conditions. The key steps of phenanthrene biodegradation under four reducing conditions were carboxylation, further ring system reduction, and ring cleavage.     

细胞凋亡的线粒体途径调控

细胞凋亡是近年来研究的一个热点问题，涉及到细胞内许多复杂的生化过程．线粒体是真核生物能量和代谢的中心，也是细胞凋亡信号传导途径中起关键调节作用的细胞器，对细胞凋亡的线粒体途径调控机制进行研究具有重要意义．本文综述了细胞凋亡过程中线粒体途径的信号传导及其调控机制、线粒体对细胞凋亡信号的反应、细胞凋亡过程中线粒体功能丧失几方面的研究进展．图1参43     

Alcaligenes sp.YF11菌对杀灭菊酯的降解机理

测定了降解菌Alcaligenessp.YF11对不同浓度杀灭菊酯的降解及其降解途径。在纯培养系统中,Alcaligenessp.YF11对100mg／L的杀灭菊酯的降解符合零级动力学特征,其降解速率为2．1mg／L·h;50mg／L的杀灭菊酯在24h的降解率为87.5％;10mg／L的杀灭菊酯10h的降解率为71．0％。Alcaligenesso．YF11对杀灭菊酯的降解为矿化作用。     

白腐菌对芳香族化合物的降解途径

白腐菌 (Whiterotfungi)是目前所发现的对芳香族化合物有很强降解能力的一类微生物。本文探讨了降解芳香族化合物的白腐菌种及其代谢化合物的主要类型 ,分析了对不同化合物的不同代谢途径 ,同时展望了其应用前景     

Antifungal and anti-aflatoxigenic activity of Heliopsis longipes roots and affinin/spilanthol against Aspergillus parasiticus by downregulating the expression of alfD and aflR genes of the aflatoxins biosynthetic pathway

Abstract

In the present study, ethanolic extract from Heliopsis longipes roots and affinin/spilanthol against Aspergillus parasiticus growth and aflatoxins production were studied in relation to the expression of aflD and aflR, two key genes of aflatoxins biosynthetic pathway. Phytochemical analysis of the ethanolic extract by GC-EIMS identified affinin/spilanthol (7.84?±?0.27?mg g^?1) as the most abundant compounds in H. longipes roots. The antifungal and anti-aflatoxigenic assays showed that affinin/spilanthol at 300?µg mL^?1 produced the higher inhibition of radial growth (95%), as well as, the higher aflatoxins production inhibition (61%) in comparison to H. longipes roots (87% and 48%, respectively). qRT-PCR revealed that the expression of aflD and aflR genes showed a higher downregulation in affinin/spilanthol at 300?µg mL^?1. The expression ratio of alfD was suppressed by affinin/spilanthol in 79% and aflR in 84%, while, a lower expression ratio suppressed by H. longipes was obtained, alfD (55%) and aflR (59%). Affinin/spilanthol possesses higher antifungal and anti-aflatoxigenic activity against A. parasiticus rather than H. longipes roots, and this anti-aflaxotigenic activity occurring via downregulation of the aflD and aflR genes. Thus, H. longipes roots and affinin/spilanthol can be considered potent antifungal agents against aflatoxigenic fungus, especially, affinin/spilanthol.     

DIDP通过线粒体-Caspase途径诱导昆明小鼠肝脏损伤的研究

为探究DIDP（Di-iso-decyl phthalate,邻苯二甲酸二异癸酯）对肝脏的影响及其可能的分子机制,以昆明小鼠为研究对象,选用Res（resveratrol,白藜芦醇）为抗氧化剂,分别设置对照组,0.15、1.5、15、150 mg/（kg·d）DIDP组,Res组,150 mg/（kg·d）DIDP+Res组,灌胃染毒9 d后,对小鼠肝脏切片进行HE染色观察,并检测ROS（reactive oxygen,活性氧）、GSH（glutathione,谷胱甘肽）、MDA（malondialdehyde,丙二醛）、Cyt-C（cytochromec,细胞色素C）、Caspase-3和血清中的ALT（alanine aminotransferase,丙氨酸氨基转移酶）含量.结果表明:与对照组相比,15、150 mg/（kg·d）DIDP组小鼠血清中ALT含量极显著上升（P < 0.01）;HE染色结果显示,15、150 mg/（kg·d）DIDP组小鼠出现肝细胞水肿、肝索紊乱、肝窦以及肝中央静脉扩张等现象;15、150 mg/（kg·d）DIDP组小鼠肝脏ROS含量显著上升（P < 0.05）,GSH含量显著下降（P < 0.05）,150 mg/（kg·d）DIDP组小鼠肝脏MDA含量极显著上升（P < 0.01）;1.5、15、150 mg/（kg·d）DIDP组小鼠肝脏中c（Cyt-C）极显著上升（P < 0.01）;15、150 mg/（kg·d）DIDP组小鼠肝脏中Caspase-3表达量极显著上升（P < 0.01）.DIDP染毒剂量的增加对肝脏的各种损伤程度呈上升趋势,Res可减轻上述DIDP对肝脏造成的各种损伤.研究显示,15、150 mg/（kg·d）DIDP可诱导肝脏组织氧化应激水平上升,进而造成线粒体损伤,导致细胞凋亡,造成肝功能受损,因此,线粒体-Caspase途径可能是DIDP诱导肝脏损伤的潜在机制之一.      

流域氮素主要输出途径及变化特征

流域农业面源输出氮素是湖泊流域水体中氮的主要来源之一,对水环境安全造成了极大威胁.不同流域间地形、水文、植被覆盖等因子的差异及气象条件的变化,造成氮的输出途径具有流域异质性及时间变化特征.本研究以高原湖泊典型流域——凤羽河流域为例,基于2011-06~2013-05期间径流水量、水质高频监测数据,应用基流分割的方法,通过分析流域产流与氮素输出途径的季节性变化,探讨了流域氮素输出的主要途径及变化特征.结果表明,基流是高原湖泊流域水量输出的主要形式和总氮输出的主要途径;基流输出水量及总氮负荷分别占流域总输出水量的80. 0%和流域总氮输负荷的71. 1%;降雨显著增加了流域水量和总氮负荷的输出量,同时改变了总氮的输出途径;降雨导致地表径流量增加,进而使流域输出水量和总氮输出负荷中地表径流途径的比重升高;当地表径流占流域输出水量的比重约达40%以上时,流域总氮输出的主要途径由基流转变为地表径流;监测周期内,地表径流输出的总氮负荷占流域总输出负荷的比重最高达65. 6%.     

Fe2+和零价铁活化过一硫酸盐降解酸性橙7

采用环境友好的Fe~(2+)和零价铁(ZVI)作活化剂,活化过一硫酸盐(PMS)来降解水中酸性橙7(AO7).结果表明,在Fe~(2+)-PMS体系中,AO7的降解效果不佳,但通过添加适量的络合剂,AO7的去除率会大幅提高.ZVI在PMS存在下被腐蚀,并能够缓慢、持续不断地释放Fe~(2+).ZVI-PMS体系可以在比较宽泛的pH范围(3～9)有效、快速地降解AO7,并且在酸性条件下降解速率较快.淬灭实验结果显示,硫酸根自由基(SO_4~(·-))对AO7的降解起主要作用.除了Cl~-和高浓度(50 mmol·L~(-1))的NO_3~-能够促进AO7的降解外,其他水中共存的阴离子对AO7在ZVI-PMS体系中的降解具有抑制作用,而腐殖酸(HA)则无明显影响.AO7在超纯水中的去除率高于其他实际水体,但反应90 min后,污水厂出水过滤水和胶体浓缩液中的AO7去除率也可高达98.6%和87.6%,说明ZVI-PMS可能可以有效地去除含有较高DOC含量的污水中的AO7.利用GC-MS检测到辐照后溶液中有3种中间产物,推测主要是通过AO7偶氮键断键后的中间产物进一步氧化形成.此外,TOC在一定程度上降低,说明部分AO7被矿化.