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31.
微生物全细胞传感器在重金属生物可利用度监测中的研究进展 总被引:2,自引:1,他引:1
传统的物理化学方法主要用于测定环境重金属的总量,微生物全细胞传感器可以对土壤及水体环境的重金属生物可利用度进行监测.此外,微生物全细胞传感器还具有操作简单、快速、经济的特点,适用于污染事件的应急监测.微生物全细胞传感器的生物学元件主要由MerR、ArsR、RS等家族的金属调控蛋白和gfp、lux、luc等报告基因组成.调控蛋白、报告基因与微生物全细胞传感器的灵敏度、特异性和监测特点有关.受pH、金属螯合物及检测条件等因素的影响,不同的环境条件下的重金属生物可利用度是不同的.增加重金属在微生物细胞内的累积,进行调控蛋白的分子生物学改造,优化检测条件是提高传感器灵敏度、特异性和准确性的可行方案.实现污染物的原位和在线监测是微生物全细胞传感器的主要发展方向. 相似文献
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采用差速离心法和逐步提取法,分析Cd超积累植物小飞扬草根、茎、叶中Cd的亚细胞分布和化学形态.培养液中Cd浓度5mg/L和10 mg/L条件下,在小飞扬草根、茎、叶中,细胞壁和细胞膜是Cd主要的结合场所,含量分别占总量的47.1%~49.0%、39.7%~41.4%、42.9%~56.2%,其次是胞液组分,含量分别占37.5%~41.4%、28.2%~40.7%、35.2%~46.8%,细胞器组分中Cd含量较少.Cd在小飞扬草根、茎、叶中均以氯化钠提取态为主,含量分别占70.5%~84.8%、72.4%~83.0%、50.0%~74.8%.根部各提取态含量依次为CNaCl>CHAC>CEtOH>CHCl>CW>CR,茎、叶中各提取态含量依次为CNaCl>CHCI>CHAC>CEtOH>CW>CR.在小飞扬草中,Cd与细胞壁和细胞膜中的果胶酸和蛋白质等物质结合固定,而进入细胞的Cd大部分与有机酸络合而隔离于液泡内,这可能是小飞扬草忍耐并超积累Cd的机制. 相似文献
34.
采用差速离心法和逐步提取法,分析Cd超积累植物小飞扬草根、茎、叶中Cd的亚细胞分布和化学形态。培养液中Cd浓度5mg/L和10mg/L条件下,在小飞扬草根、茎、叶中,细胞壁和细胞膜是Cd主要的结合场所,含量分别占总量的47.1%~49.0%、39.7%~41.4%、42.9%~56.2%,其次是胞液组分,含量分别占37.5%~41.4%、28.2%~40.7%、35.2%~46.8%,细胞器组分中Cd含量较少。Cd在小飞扬草根、茎、叶中均以氯化钠提取态为主,含量分别占70.5%~84.8%、72.4%~83.0%、50.0%~74.8%。根部各提取态含量依次为CNaCl>CHAC>CEtOH>CHCl>CW>CR,茎、叶中各提取态含量依次为CNaCl>CHCl>CHAC>CEtOH>CW>CR。在小飞扬草中,Cd与细胞壁和细胞膜中的果胶酸和蛋白质等物质结合固定,而进入细胞的Cd大部分与有机酸络合而隔离于液泡内,这可能是小飞扬草忍耐并超积累Cd的机制。 相似文献
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37.
Competition of three bloom-forming marine phytoplankton (diatom Skeletonema costatum, and dinoflagellates Prorocentrum
minimum and Alexandrium tamarense) was studied through a series of multispecies cultures with di erent nitrate (NaNO3) and
phosphate (NaH2PO4) levels and excess silicate to interpret red tide algae succession. S. costatum outgrew the other two dinoflagellates
in nitrate and phosphate replete cultures with 10 mol/L Na2SiO3. Under nitrate limited (8.82 mol/L NaNO3) conditions, the growth
of S. costatum was also dominant when phosphate concentrations were from 3.6 to 108 mol/L. Cell density of the two dinoflagellates
only increased slightly, to less than 400 and 600 cells/mL, respectively. Cell density of S. costatum decreased with time before day
12, and then increased to 4000 cells/mL (1.5 mg/L dry biomass) at NaNO3 concentrations between 88.2 and 882 mol/L with limited
phosphate (0.36 mol/L NaH2PO4) levels. In addition, P. minimum grew well with a maximal cell density of 1690–2100 cells/mL
(0.5–0.6 mg/L dry biomass). Although S. costatum initially grew fast, its cell density decreased quickly with time later in the growth
phase and the two dinoflagellates were dominant under the nitrate-limited and high nitrate conditions with limited phosphate. These
results indicated that the diatom was a poor competitor compared to the two dinoflagellates under limited phosphate; however, it grew
well under limited nitrate when growth of the dinoflagellates was near detection limits. 相似文献
38.
The toxicity of naphthalene to a freshwater microalga, Chlorella pyrenoidosa, and the subsequent recovery of algae from the damage
were investigated under two nutrient conditions, either enriched with nitrogen (N) and phosphorus (P), or starved of N and P. Results
showed that C. pyrenoidosa was more sensitive to naphthalene under N,P-enriched condition, and the inhibitory rate generally increased
at first and then decreased gradually with the evaporation of naphthalene under both nutrient conditions. Enriched N, P reduced the
inhibitory rate at initial naphthalene concentration of 5 and 10 mg/L, but enhanced it at 100 mg/L, at which more severe ultrastructure
damages were found than those under N,P-starved condition. Observed damages included partly or totally disappearance of nucleolus,
nuclear, and plasma membranes. According to the chlorophyll content and cell density measurements, C. pyrenoidosa could recover
from naphthalene damage with initial concentrations 6 50 mg/L in 7 days under both nutrient conditions, while they could not recover
if the initial concentration of naphthalene was at 100 mg/L. Under the N,P-starved condition, the inability of C. pyrenoidosa to recover
from the naphthalene damage was consistent with the results of high inhibitory rate, low value of specific growth rate (SGR, 0.05
day??1), and the severe destruction of cell structure. However, under the N,P-enriched conditions, the observed lower inhibitory rate,
higher value of SGR (0.55 day??1), and the intact cell structure of most cells suggested that algae could potentially recover from the
naphthalene damage. 相似文献
39.
从太原市焦化厂废水活性污泥中分离、筛选出一株苯酚降解细菌,经生理生化反应和16S rRNA鉴定,该菌株为Diaphorobacter属细菌,命名为PD-07.代谢机制研究表明,苯酚可诱导该菌合成邻苯二酚2,3-加氧酶降解苯酚.为了提高该菌株对苯酚的降解率,以海藻酸钙为材料,对该菌株进行包埋固定化研究.首先采用Plackett–Burman实验设计筛选出影响固定化菌株苯酚降解率的关键因素,然后采用最陡爬坡实验逼近最大苯酚降解率响应区域.最后用Box–Behnken实验设计及响应面回归分析,应用二次方程对实验数据进行拟合得,拟合曲线与实验实测值相关性良好,最佳条件为海藻酸钠浓度3.83%(m/V)、CaCl20.3mol/L、菌胶比1:26.73、固定化时间2h、摇床转速180r/min、培养温度30℃、初始pH值7.2、液固比4.86:1,在此条件下苯酚降解率可达96.89%. 相似文献
40.
Plastics such as polyvinyl chlorides (PVC) are widely used in many indoor constructed environments; however, their unbound chemicals, such as di-(2-ethylhexyl) phthalates (DEHP), can leach into the surrounding environment. This study focused on DEHP's effect on the central nervous system by determining the precise DEHP content in mice brain tissue after exposure to the chemical, to evaluate the specific exposure range. Primary neuronal-astrocyte co-culture systems were used as in vitro models for chemical hazard identification of DEHP. Oxidative stress was hypothesized as a probable mechanism involved, and therefore the total reactive oxygen species (ROS) concentration was determined as a biomarker of oxidative stress. In addition, NeuriteTracer, a neurite tracing plugin with ImageJ, was used to develop an assay for neurotoxicity to provide quantitative measurements of neurological parameters, such as neuronal number, neuron count and neurite length, all of which could indicate neurotoxic effects. The results showed that with 1 nmol/L DEHP exposure, there was a significant increase in ROS concentrations, indicating that the neuronal-astrocyte cultures were injured due to exposure to DEHP. In response, astrocyte proliferation (gliosis) was initiated, serving as a mechanism to maintain a homeostatic environment for neurons and protect neurons from toxic chemicals. There is a need to assess the cumulative effects of DEHP in animals to evaluate the possible uotake and effects on the human neuronal system from exoosure to DEHP in the indoor environment. 相似文献