Dynamic modulation of detection window in conducting polymer based biosensors.

Here we demonstrate a novel application that employs the ion exchange properties of conducting polymers (CP) to modulate the detection window of a CP based biosensor under electrical stimuli. The detection window can be modulated by electrochemically controlling the degree of swelling of the CP associated with ion transport in and out of the polymer. We show that the modulation in the detection window of a caffeine imprinted polypyrrole biosensor, and by extension other CP based biosensors, can be achieved with this mechanism. Such dynamic modulation in the detection window has great potential for the development of smart biosensors, where the sensitivity of the sensor can be dynamically optimized for a specific test solution.

Protocols for conducting dolphin capture-release health assessment studies

Marine mammals, such as dolphins, can serve as key indicator species in coastal areas by reflecting the effects of natural and anthropogenic stressors. As such they are often considered sentinels of environmental and ecosystem health (Bossart 2006; Wells et al. 2004; Fair and Becker 2000). The bottlenose dolphin is an apex predator and a key component of many estuarine environments in the southeastern United States (Woodward-Clyde Consultants 1994; SCDNR 2005). Health assessments of dolphins are especially critical in areas where populations are depleted, show signs of epidemic disease and/or high mortality and/or where habitat is being altered or impacted by human activities. Recent assessments of environmental conditions in the Indian River Lagoon, Florida (IRL) and the estuarine waters surrounding Charleston, South Carolina (CHS) highlight the need for studies of the health of local bottlenose dolphins. While the condition of southeastern estuaries was rated as fair in the National Coastal Condition Report (U.S. EPA 2001), it was noted that the IRL was characterized by poorer than expected benthic communities, significant sediment toxicity and increased nutrient concentrations. Similarly, portions of the CHS estuary have sediment concentrations of aliphatic aromatic hydrocarbons, select inorganic metals, and some persistent pesticides far in excess of reported bioeffect levels (Hyland et al. 1998). Long-term trends in water quality monitoring and recent scientific research suggest that waste load assimilation, non-point source runoff impacts, contaminated sediments, and toxic pollutants are key issues in the CHS estuary system. Several ‘hot spots’ with high levels of heavy metals and organic compounds have been identified (Van Dolah et al. 2004). High concentrations of anthropogenic trace metals, polychlorinated biphenyls (PCB’s) and pesticides have been found in the sediments of Charleston Harbor, as well as the Ashley and Cooper Rivers (Long et al. 1998). Two superfund sites are located within the CHS estuary and the key contaminants of concern associated with these sites are: polycyclic aromatic hydrocarbons (PAH), lead, chromium, copper, arsenic, zinc and dioxin. Concerns related to the overall health of IRL dolphins and dermatologic disease observed in many dolphins in the area (Bossart et al. 2003) initiated an investigation of potential factors which may have impacted dolphin health. From May-August 2001, 35 bottlenose dolphins died in the IRL during an unusual mortality event (MMC 2003). Many of these dolphins were diagnosed with a variety of skin lesions including proliferative ulcerative dermatitis due to protozoa and fungi, dolphin pox and a vesicular dermatopathy of unknown etiology (Bossart et al. 2003). Multiple species from fish to dolphins in the IRL system have exhibited skin lesions of various known and unknown etiologies (Kane et al. 2000; Bossart et al. 2003; Reif et al. 2006). On-going photo-identification (photo-ID) studies have documented skin diseases in IRL dolphins (Mazzoil et al. 2005). In addition, up to 70% of green sea turtles in the IRL exhibit fibropapillomas, with the highest rates of occurrence being seen in turtles from the southern IRL (Hirama 2001).

几种固氮菌突变种固氮酶的特性及晶体生长

一，缺失nifZ的棕色固氮菌突变种钼铁蛋白的晶体生长的研究进展 在一定的结晶条件下，缺失nifZ的棕色固氮菌突变种钼铁蛋白将从溶液中结晶出深棕色的短斜四棱柱晶体。PEG 8000、MgCl2、NaCl、Tris的浓度及缓冲液的pH对该蛋白的结晶及晶体生长影响的系统研究表明，它们的浓度和pH较低时，不出晶体;当pH高于8.0，随着前三种化合物浓度的逐渐提高，便在一周内出现大量小品体;再提高浓度后，便延长结晶时问但出质好、数少而个大的晶体;然后晶体随浓度的提高而又变小、变多、甚至晶质变差，直至不再出晶体。影响晶体生长的各因子的最适浓度随其它条件的改变而有所不同。当缓冲液的pH为8.2而PEG 8000，MgCl’、NaCI、蛋白质和Tris的浓度分别为1.86%、300 mmol/L、400 mmoUL、4.64g/L、53 mmo/L时，首次发现在一滴悬滴结晶液中只有一颗较大的优质晶体（最大两边线度均为0.16mm）。 二，从分别含Mn和Cr的培养基中生长的固氮菌突变种UW3中纯化的固氮酶的特性和结晶 缺失nifH基因的棕色固氮菌突变种UW3，在有钼环境中不能固氮生长，但能在无钼而含MnS01或Na2Cr01的无氮培养基中固氮生长。分别经超声破碎、加热除去部分杂蛋白、离子交换柱层析和Sephacryl S-200或S-300柱层析的分离纯化，分别得到二种固氮酶组分l蛋白。金属元素测定表明，这两种蛋白除含铁元素外还分别含有锰和铬元素。它们的吸收光谱、CD和AR谱互不完全相同，并都与OP-MoFe蛋白存在较大差异。含Mn固氮酶也能还原C2H2、质子和N2，对它们的还原的比活性都分别约为MoFe蛋白活性的50%。初步结果表明，这一突变种在这两种培养条件下都可能已表达了不同于已发现的三种固氮酶的新固氮酶组分l蛋白-MoFe、VFe和FeFe蛋白，分别为含Mn或Cr的固氮酶组分1蛋白，分别被称为uw3，-MnFe蛋白和UW3-CrFe蛋白。通过对PEG 8000、MgCI2、NaCI和缓冲液的种类和浓度等结晶条件的大量优化组合实验，首次获得uw3-MnFe蛋白和UW3-CrFe蛋白的的晶体。最大晶体为21.4×14.3×2.1μm。

含铬或锰的新型固氮酶的纯化, 特性和结晶—棕色固氮菌突变种UW3中CrFe蛋白和MnFe蛋白的研究

以含MnSO4或Na2CrO4的无钼无氨的修改Burk’s培养基， 培养不能合成含钼固氮酶体系的棕色固氮菌 (Azotobacter vinelandii Lipmann) 突变种UW3， 发现在一定浓度范围内， MnSO4或Na2CrO4的加入有助于促进其生长。 菌体生长和C2H2还原活性曲线测定结果表明， 这种促进作用很可能是通过Mn或Cr取代Mo， 参与组装固氮酶中心原子簇， 从而影响固氮活性而实现的。 利用阴离子交换 (DEAE-52和Q-Sepharose FF) 和凝胶过滤 (Sephacryl S-200) 柱层析从两种菌体中纯化得到固氮酶组分Ⅰ蛋白 (分别命名为MnFe蛋白和CrFe蛋白)， 并对其进行了特性研究。 厌氧天然聚丙烯酰胺凝胶电泳 (PAGE) 和SDS-PAGE结果显示， 两种蛋白均为两种亚基组成的四聚体。 亚基可以与OP MoFe蛋白抗体发生免疫反应， 分子量分别略小于野生种OP MoFe蛋白的α和β亚基。 CrFe蛋白的C2H2还原活性， Ar下放氢活性和固氮活性分别相当于OP MoFe蛋白的36%， 38%和43%， 而MnFe蛋白活性相当于OP MoFe蛋白的50%左右， 并且两种蛋白与OP MoFe蛋白具有相似的固氮电子利用率。 对两种蛋白金属含量的测定证实其中分别含有Mn和Cr， 但仍存在少量Mo污染。 与OP MoFe蛋白相比，这两种蛋白圆二色谱的摩尔椭圆率 ([θ]) 除在450nm较接近外，在可见光区的其它波长处均显著降低。 与DT还原OP MoFe蛋白相似， CrFe蛋白和MnFe蛋白具有g≈4。3、3。7和2。0的特征EPR信号， 但各处信号强度比例不同。 在对污染Mo可能引起的信号进行校正后，CrFe蛋白的三个信号强度分别相当于DT还原OP MoFe蛋白的20%， 0%和10%， 而MnFe蛋白则分别相当于112%， 49%和65%。 上述结果表明， CrFe蛋白和MnFe蛋白与OP MoFe蛋白金属原子簇的主要差异很可能在于FeMco (M=Cr， Mn或Mo)的M种类， 而P-cluster结构和组成均未见大的差异。 利用气相扩散悬滴法对MnFe蛋白和CrFe蛋白结晶条件进行了筛选和初步优化， 确定了以Tris/Hepes， NaCl， MgCl2和PEG 8000为主要变量的沉淀剂体系， 寻找各组分对于晶体生长的最适浓度。 以此为基础探讨了应用气相扩散坐滴法和液-液扩散法对两种蛋白结晶条件的优化。 在一定条件下， 两种蛋白分别通过液-液扩散法获得了优质大单晶。 对从CrFe蛋白和MnFe蛋白制备物中培养出的蛋白质晶体的SDS-PAGE鉴定显示， 晶体由与OP MoFe蛋白相似的两种亚基组成。 通过 “神舟三号” 飞船搭载实验探讨了空间微重力对于厌氧蛋白质结晶的影响， 结果表明， 微重力有助于避免孪晶形成， 并具有长期培养后获得适于进行X-射线衍射分析的优质大单晶的潜在前景。 结合空间科学使固氮酶结构与功能研究得以发展， 这项工作是有意义并且可行的。