根系土中重金属元素分布特征及在农作物中的迁移

以上海市金山区为对象,分析了农用地土壤重金属元素的形态分布特征,以及元素的有效态（水溶态、离子交换态）与全量、有机质、pH等的相关性;根据重金属元素在稻米、蔬菜等不同农作物中的含量,分析了其迁移及生物有效性。结果表明：不同元素的形态组成差异较大;Pb、Zn、Ni元素的有效态与环境因素（pH、有机质）关系密切;土壤中重金属元素Cd最为活跃且易发生迁移,在多种农作物中有较为明显的富集;稻米中重金属元素的富集程度相对较小。研究成果可为土壤污染治理、种植结构调整、土地合理利用提供有益借鉴。     

米曲霉两步活化法对黄芩苷的生物转化及转化产物的纯化与鉴定

利用米曲霉把黄芩苷转化为黄芩素。转化条件为:液体发酵,pH6,30℃,利用综合马铃薯培养基与玉米芯培养基两步发酵。菌种采用两步活化法,将经综合马铃薯培养基培养48 h的米曲霉加入至玉米芯培养基培养48 h后,再加入底物黄芩苷继续培养3 d。玉米芯发酵液加甲醇混匀后过滤,通过高效液相色谱检测,结果表明米曲霉已经将黄芩苷转化为黄芩素,转化率为40.72%。同时用乙醚萃取法从玉米芯发酵液中萃取到黄色固体提取物,经过高效液相色谱与标准品对照鉴定,该提取物为黄芩素。     

北极Ny-Ålesund地区真菌多样性分析及龙胆苦苷转化菌株的筛选

采用多种培养基对北极高纬地区（土壤及海洋沉积物）真菌进行分离纯化,共得真菌65株。通过分析菌株的18S rDNA序列研究了它们的系统发育多样性,18S rDNA序列分析表明,65株真菌分属25个属,其中数量上位居第一的是青霉属（Penicillium）,有菌株20株,其次为丛赤壳属（Nectria）和节枝孢属（Articulospora）,各有菌株6株。同时对这65株真菌开展转化龙胆苦苷阳性菌株的筛选。以β-葡萄糖苷酶作为筛选转化菌株的标志酶于65株真菌中筛选到阳性菌株28株,其中产酶能力强的9株菌作为转化实验的备选菌株,以龙胆苦苷为底物进行转化,将转化粗提物进行TLC及HPLC分析,最终确定将C-5作为转化龙胆苦苷的菌株。根据菌株形态特征和核酸序列分析结果,初步鉴定菌株C-5为青霉属真菌。暂定名为Penicillium sp.C-5。     

米曲霉两步活化法对黄芩苷的生物转化及转化产物的纯化与鉴定

利用米曲霉把黄芩苷转化为黄芩素。转化条件为：液体发酵，pH6，30℃，利用综合马铃薯培养基与玉米芯培养基两步发酵。菌种采用两步活化法，将经综合马铃薯培养基培养48h的米曲霉加入至玉米芯培养基培养48h后，再加入底物黄芩苷继续培养3d。玉米芯发酵液加甲醇混匀后过滤，通过高效液相色谱检测，结果表明米曲霉已经将黄芩苷转化为黄芩素，转化率为40．72％。同时用乙醚萃取法从玉米芯发酵液中萃取到黄色固体提取物，经过高效液相色谱与标准品对照鉴定，该提取物为黄芩素。     

Effects of benzo(a)pyrene exposure on the antioxidant enzyme activity of scallop <Emphasis Type="Italic">Chlamys farreri</Emphasis>

Scallop Chlamys farreri was exposed to different concentrations of benzo(a)pyrene (BaP) (0.5 μg/L, 1.0 μg/L, 10.0 μg/L and 50.0 μg/L) for 30 days in seawater. The 7-ethoxyresorufin O-deethylase (EROD) activity was significantly induced, and increased with the increasing BaP concentration. The glutathione-S-transferase (GST), superoxide dismutase (SOD), catalase (CAT), Glutathione peroxidase (GPx) activities increased in short time at low concentration of BaP, and was significantly depressed at high concentrations. Scallop gill was more sensitive to BaP than the digestive gland, and the digestive gland was the main tissue to deal with oxyradicals. The contents of malondialdehyde (MDA) increased with the exposure time and there was a positive correlation (concentration-effect) between the MDA content and the concentration of BaP. The biomarkers determined in this experiment had important roles in detoxification, and showed great potential as biomarkers for oxidative stress. Controlled laboratory experiments designed to simulate field exposure scenarios are particularly useful in ascertaining biomarkers suitable for use with complex contaminant mixtures in the marine environment. Supported by the Technology Development Program of Shandong (No. 2008GG1005010) and the Program of Introducing Talents of Discipline of Universities (111 Project, No. B08049)     

Kinetics of hepatic phase I and II biotransformation reactions in eight finfish species

Hepatic microsomes and cytosols of channel catfish (Ictalurus punctatus), rainbow trout (Oncorhynchus mykiss), Atlantic salmon (Salmo salar), red tilapia (Oreochromis sp.), largemouth bass (Micropterus salmoides), striped bass (Morone saxatilis), hybrid striped bass (M. saxatilis × M. crysops), and bluegill (Lepomis macrochuris) (n = 8) were used to study the kinetics of phase I (ECOD, EROD, PROD, BROD) and phase II (UDP-glucuronosyltransferase (UDPGT)-, sulfotransferase (ST)- and glutathione-s-transferase (GST)-mediated) reactions. The best catalytic efficiency for ECOD and GST activities was performed by channel catfish, Atlantic salmon, rainbow trout and tilapia. The highest EROD catalytic efficiency was for Atlantic salmon. None of the species had either PROD or BROD activities. Rainbow trout had very similar UDPGT catalytic efficiency to tilapia, channel catfish, Atlantic salmon, largemouth bass and bluegill. Sulfotransferase conjugation had no significant differences among the species. In summary, tilapia, channel catfish, Atlantic salmon and rainbow trout had the best biotransforming capabilities; striped bass, hybrid striped bass and bluegill were low metabolizers and largemouth bass shared some capabilities with both groups.     

Effects of benzo（a）pyrene exposure on the antioxidant enzyme activity of scallop Chlamysfarreri

Scallop Chlamys farreri was exposed to different concentrations of benzo(a)pyrene (BaP) (0.5 μg/L, 1.0 μg/L, 10.0 μg/L and 50.0 μg/L) for 30 days in seawater. The 7-ethoxyresorufin O-deethylase (EROD) activity was significantly induced, and increased with the increasing BaP concentration. The glutathione-S-transferase (GST), superoxide dismutase (SOD), catalase (CAT), Glutathione peroxidase (GPx) activities increased in short time at low concentration of BaP, and was significantly depressed at high concentr...     

Groundwater pollution containing ammonium,iron and manganese in a riverbank filtration system: Effects of dynamic geochemical conditions and microbial responses

Bench-scale experiments were conducted to investigate the effect of hydraulic loadings and influent concentration on the migration and biotransformation behaviour of three groundwater pollutants: ammonium (NH₄⁺), iron (Fe²⁺) and manganese (Mn²⁺). Columns packed with aquifer media collected from a riverbank filtration (RBF) site in Harbin City, NE China were introduced synthetic groundwater (SGW) or real groundwater (RGW) were at two different constant flow rates and initial contaminant concentrations to determine the impact of system conditions on the fate of the target pollutants biotransformation. The results showed that the biotransformation rate of Fe²⁺ Mn²⁺ and NH₄⁺ decreased by 8%, 39% and 15% under high flow rate (50 L d⁻¹) compared to low flow rate (25 L d⁻¹), which was consistent with the residence-time effect. While the biotransformation rate of Fe²⁺ Mn²⁺ and NH₄⁺ decreased by 7%, 14% and 9% under high influent concentration comparing with original groundwater. The 16S rRNA analysis of the aquifer media at different depths after experiments completion demonstrated that the relative abundance of major functional microbes iron-oxidizing bacteria and manganese-oxidizing bacteria under higher flow rate and higher influent concentration decreased 13%, 14% and 25%, 24%, respectively, whereas the ammonium-oxidizing bacteria and nitrite-oxidizing bacteria exhibited minimal change, compared to the lower flow rate. Above all results indicated that both high flow rate and high concentration inhibit the biotransformation of NH₄⁺, Fe²⁺ and Mn²⁺. The biotransformation of Fe²⁺ and Mn²⁺ occurs primarily in the 0–40 cm and 20–60 cm depth intervals, respectively, whereas the NH₄⁺ biotransformation appears to occur relatively uniformly throughout the whole 110 cm column. The biotransformation kinetics of NH₄⁺ in RGW and SGW, Mn²⁺ in RGW at different depths accords with the first order kinetics model, while Fe²⁺ in RGW and SGW, Mn²⁺ in SGW presented more complicated biotransformation process. The results should improve understanding of the transport and fate of common groundwater pollutants in RBF and other groundwater recharge environments.     

动物化学防御系统的组成及作用机制

化学防御系统是生物抵御环境中化学胁迫和维持内环境稳态的重要机制,由长期进化出的一系列基因家族、蛋白和相关反应通路组成。该系统的核心组分包括:(1)受体和配体激活转录因子,其负责感知有毒化合物;(2)生物转化酶,其通过氧化、还原和结合反应使有毒物质的毒性降低,增加亲水性,使化合物更易排出;(3)外排转运蛋白,其负责将外源物质或生物转化产生的代谢物排出细胞;(4)抗氧化酶,其作用是保护细胞免受外部和内部产生的活性氧或自由基的伤害。本综述对动物化学防御系统的组成及作用机制进行概述,为研究海洋无脊椎动物的化学防御系统提供参考。     

麻痹性贝毒在毛蚶体内的转化过程研究

麻痹性贝毒能够在贝类体内累积,威胁海产品消费者健康。在以往调查中,多次在毛蚶(Scapharca subcrenata)体内发现高含量的麻痹性贝毒,但对于毛蚶体内麻痹性贝毒的转化过程及其食品安全风险还缺乏认识。通过室内模拟实验,选择太平洋亚历山大藻(Alexandrium pacificum)和链状裸甲藻(Gymnodinium catenatum)作为产毒藻种,研究了两种有毒藻种所产麻痹性贝毒在毛蚶体内的转化过程。结果表明,毛蚶体内主要出现了三种麻痹性贝毒转化过程,一是R1位羟基的还原反应,二是N-磺酰氨甲酰基类毒素R4位磺酸基团的水解反应,三是含羟基苯甲酸(hydroxybenzoate)基团的链状裸甲藻毒素在R4位的水解反应。毛蚶体内麻痹性贝毒的生物转化过程复杂,对毛蚶毒性的影响具有一定的不确定性,未来仍需要进一步深化毛蚶体内毒素累积、代谢、转化过程的研究,同时加强对毛蚶体内毒素含量的全面监测,防范毛蚶可能导致的麻痹性贝毒中毒风险。