Paint-freeze method to form self-assembled alkanethiol/phospholipid bilayers on gold

A paint-freeze method for preparing self-assembled alkanethiol/phospholipid bilayers on a gold surface has been described (by cyclic voltammetry, a.c impedance, polarized FTIR-ATR) to be well-ordered and packed, stable, solvent-free bilayers. The lipid order parameter was 0.67, calculated from the dichroic ratio, consistent with a well-ordered lipid film in which the methylene groups have segmental flexibility and are disordered to a degree which is typical for a lipid bilayer in the liquid-crystalline phase. Such a supported membrane provides a useful way for studies in biophysics, physiology and electrochemistry.

K+ sensors based on supported alkanethiol/phospholipid bilayers

A novel kind of K+ sensor with valinomycin-incorporated bilayers supported on a gold electrode consisting of self-assembled alkanethiol monolayers (SAMs) and a lipid monolayer has been fabricated successfully. The lipid monolayer is deposited on the alkylated surface of the first alkanethiol monolayer through three different methods, such as the Langmuir-Blodgett (LB) technique, painted method and painted-frozen method. The response of K + sensors produced by a painted or painted-frozen lipid monolayer on an alkanethiol alkylated gold electrode is larger than that by the LB method, which is due to the difference in fluidity of the three kinds of bilayers. Selectivity coefficients KK+, Na+, KK+, Li+, KK+, Ca2+ and KK+, Mg2+ are 10(-4), 10(-4), 2 x 10(-5) and 3 x 10(-5) respectively, and there is no obvious difference among different fabricating methods. A linear response toward the potassium ion was found in the range from 10(-1) M to 10(-5) M with the detection limit of 10(-6) M. The sensor has a slope of 60 mV per decade. Meanwhile, the longevity of the sensor was improved obviously for at least two months at about -10 degrees C. The higher stability shows the possibility to fabricate a practical biosensor.

Interaction of La3+ and cholesterol with dipalmitoylphosphatidylglycerol bilayers by FT-Raman spectroscopy

The interaction of La3+ and cholesterol with the negatively charged phospholipid dipalmitoylphosphatidylglycerol bilayers was studied by Fourier transform-Raman spectroscopy. La3+ was shown to increase interchain order and intermolecular ordering of the lipid lattice, cholesterol exhibited less of an effect, the La3+-DPPG-cholesterol complex was more ordered than cholesterol=DPPG nd less ordered than La3+-DPPG complexes, cholesterol modulates the order/disorder parameters of DPPG bilayers.

2D NMR and FT-Raman spectroscopic studies on the interaction of lanthanide ions and Ln-DTPA with phospholipid bilayers

The interactions of lanthanide ions and the Ln-DTPA (DTPA = diethylenetriaminepentaacetate) complex with di palmitoylphosphatidylcholine (DPPC) and dipalmitoylphosphatidylethanolamine (DPPE) bilayers are studied by 2D NOESY and FT-Raman spectroscopy. Proton NMR spectroscopic results show that lanthanide ions combine with phosphate groups in the polar region of the outer layer of DPPC liposomes, leading to the separation in chemical shift of the proton signal of N(CH3)(3) The conformational change of the O-C-C-N+ backbone from the gauche conformer to the trans one is not found; i.e., the orientation of the polar headgroup is still parallel to the surface of the bilayers. The Ln-DTPA complex at low concentration in a pH 7.4 solution localizes far away from bilayers and thereby has little effect on the structure of bilayers. The FT-Raman spectroscopic results indicate that lanthanide ions affect strongly the fluidity of acyl chains of DPPE bilayers while the Ln-DTPA complex affects it slightly.

The ion selectivity of monensin incorporated phospholipid/alkanethiol bilayers

Monensin was incorporated into phospholipid/alkanethiol bilayers on the gold electrode surface by a new, paint-freeze method to deposit a lipid monolayer on the self-assembled monolayers (SAMs) of alkanethiol. The advantages of this assembly system with a suitable function for investigating the ion selective transfer across the mimetic biomembrane are based on the characteristics of SAMs of alkanethiols and monensin. On the one hand, the SAMs of alkanethiols bring out their efficiency of packing and coverage of the metal substrate and relatively long-term stability; on the other hand, monensin improves the ion selectivity noticeably. The selectivity coefficients K-Na+,K-K+, K-Na+,K-Rb+ and K-Na+,K-Ag+ are 6 x 10(-2), 7.2 x 10(-3) and 30 respectively. However, the selectivity coefficient K-Na+,K-Li+ could not be obtained by a potentiometric method due to the specific interaction between Li+ and phospholipid and the lower degree of complexion between Li+ and monensin. The potential response of this bilayer system to monovalent ions is fairly good. For example, the slope of the response to Na+ is close to 60 mV per decade and its linearity range is from 10(-1) to 10(-5) M with a detection limit of 2 x 10(-6) M, The bilayer is stable for at least two months without changing its properties. This monensin incorporated lipid/alkanethiol bilayer is a good mimetic biomembrane system, which provides great promise for investigating the ion transfer mechanism across the biomembrane and developing a practical biosensor.

NMR and FT-Raman studies on the interaction of lanthanide ions with sphingomyelin bilayers

The interactions of lanthanide ions with sphingomyelin bilayers have been studied by using 2D NOESY spectroscopy and FT-Raman spectroscopy methods. The results indicate that lanthanide ions, as well as divalent calcium, combine mainly to the phosphate group in the polar headgroup and do not change the conformation of O-C-C-N+ backbone in the choline group of sphingomyelin bilayers. The polar headgroup is still extending parallel to the bilayer surface and O-C-C-N+ group is still in its gauche conformer.

A NMR investigation on the interaction of lanthanide complexes with phospholipid bilayers

One and two dimentional NMR methods were used to investigate the interactions of lanthanide complexes (Lncit(2) and Ln-DTPA) with phospholipid bilayers, The results showed that in the phospholipid bilayers dispersion containing citrate ligand at pH 7.4, lanthanide ions would initially combine with citrate ligand and form Lncit, complexes which have little effect on the structure of phospholipid bilayers. Ln-DTPA complex does not affect the bilayers structure either. These results provided important experimental data for evaluating scientifically the toxicities of lanthanide ions when they were introduced into the biological body.

Hybrid Qm/Mm Simulation Of The Hydration Phenomena Of Dipalmitoylphosphatidylcholine Headgroup

The polar headgroup of dipalmitoylphosphatidylcholine (DPPC) molecule both in gas phase and aqueous Solution is investigated by the hybrid quantum mechanical/molecular mechanical (QM/MM) method, in which the polar head of DPPC molecule and the bound water molecules are treated with density functional theory (DFT), while the apolar hydrocarbon chain of DPPC molecule is treated with MM method. It is demonstrated that the hybrid QM/MM method is both accurate and efficient to describe the conformations of DPPC headgroup. Folded structures of headgroup are found in gas phase calculations. In this work, both monohydration and polyhydration phenomena are investigated. In monohydration, different water association sites are studied. Both the hydration energy and the quantum properties of DPPC and water molecules are calculated at the DFT level of theory after geometry optimization. The binding force of monohydration is estimated by using the scan method. In polyhydration, more extended conformations are found and hydration energies in different polyhydration styles are estimated. (C) 2008 Elsevier Inc. All rights reserved.

吡唑啉衍生物有机电致发光器件中激基复合物的发射

以两种吡唑啉衍生物为空穴传输材料(HTM)和BBOT为电子传输材料组成双层器件，获得了相对于组成材料的荧光光谱红移和宽化的电致发光．双层器件和HTM：BBOT等摩尔混蒸薄膜的光致发光及电致发光测量表明，该谱带来自HTM／BBOT界面激基复合物的发射，根据器件的能级图，激基复合物的类型为BBOT的激发态BBOT^

磷脂对光系统II光合放氧的影响及其作用机理的研究

以类囊体膜中唯一的阴离子型磷脂一磷脂酰甘油(PG)为研究对象，应用放氧测定和富立叶红外光谱等实验方法和技术手段，对PG与光系统II (PSII)之间的相互作用进行了研究。 研究表明，PG对PSII的放氧活性产生显著影响，具有明显的浓度效应。在低浓度(2～22 mg PG／mg Chl)时对PSII的放氧活性有明显的促进作用，而在高浓度(24～40 mg PG／mg Chl)下则表现出显著的抑制作用。 PG对PSII放氧活性的影响与其引起蛋白结构的改变密切相关。结果显示，PG的作用导致PSII颗粒中蛋白质二级结构的改变，主要表现为α-螺旋、β-折叠的增加和无规卷曲的减少。 不仅如此，红外光谱的分析还表明，PG还使蛋白酪氨酸残基中的酚基构象及其周围的微极性发生改变，即在红外光谱的1620—1500 cm-1，之间芳香环骨架的伸缩振动带向高频方向变化，其吸收强度也相应增加;在3500～3100 cm. -1间出现新的氢键吸收峰。 PG除能促进PSII的放氧活性以外，还对PSII表现出新的作用，即PG可以使PSII颗粒因缺钙而受抑制的放氧活性得到恢复;外加Ca2+可使PG表现出对缺钙PSII颗粒(dc。PSII)放氧活性的更大促进作用，且随Ca2+浓度的增加，促进作用也越显著。 PG的作用也使dc。PSII蛋白的结构发生了改变，导致蛋白二级结构中a-螺旋、p_折叠结构的增加和转角、无规卷曲成分的减少，即可使PSII颗粒因缺钙而改变的蛋白结构基本得到恢复。PG还能与Ca2+形成离子对似的配合物，而这种配合物的形成可以优化缺钙PSII颗粒的功能如放氧活性等。

缺磷胁迫导致高等植物叶片中磷脂酰甘油（PG）含量降低的机理研究

磷脂酰甘油（PG）是植物类囊体膜中唯一的磷脂，在它的sn-2位上总是连着一个棕榈酸（16：0）或反式十六碳烯酸（16：1 trans）。由于PG的分子结构独特，对它的功能已有了很多研究，目前认为PG在维持类囊体膜的结构与功能方面具有非常重要的作用。缺磷胁迫下，蓝藻、衣藻及拟南芥、大麦等物种中均检测到了PG含量的下降。对这一现象的常见解释是缺磷导致了PG生物合成受阻，从而引起了其含量的降低。但迄今为止尚没有试验证据支持。本研究比较了缺磷对不同叶龄的小麦与烟草叶片中PG含量与PG水解酶的活性的影响，同时对缺磷叶片酶粗提液水解外源PG后的主要产物、几种磷脂酶抑制剂对上述酶反应的影响等进行了研究，以阐明缺磷条件下叶片中PG含量下降的主要原 因。 缺磷小麦第一叶完全展开时，PG含量与PG水解酶活性均与对照相似;而第三叶完全展开时，尽管缺磷第三叶中PG水解酶活性也与对照相似，但其PG含量低于对照。这一结果表明，在小麦叶片完全展开之前，缺磷条件未影响叶片中的PG水解酶活性，第三叶中较低的PG含量应由PG的生物合成受阻引起。并且，由于缺磷植株第一叶完全展开时PG含量未受影响而第三叶中却表现出了轻微降低，可以推测叶片萌发越晚，PG生物合成受到的抑制就会越严重。 为了研究叶片衰老过程中PG含量下降的原因，我们比较了6，10，14与18日龄时缺磷与对照小麦植株第一叶中PG的相对含量与PG水解酶活性。研究发现：6日龄时，刚刚完全展开的缺磷和对照小麦第一叶中无论是PG含量还是PG水解酶活性都较为相似;而随着叶片的逐渐衰老，缺磷植株第一叶中PG含量大幅度下降，同时伴随着PG水解酶活性的急剧上升。18日龄时，缺磷小麦第一叶中的PG含量较对照降低了69.1%，其PG水解酶活性也远高于对照，37ºC下温育30min后，缺磷叶片的酶粗提液使外源PG含量降低了74.16%，而对照中只降低了13.7%。上述结果表明，缺磷条件下，小麦叶片中PG含量降低的程度与PG水解酶活性的强弱密切相关，PG水解加剧是导致老叶中PG含量降低的一个重要原因。 磷脂酶是水解磷脂的主要酶类。目前在植物体中发现的磷脂酶种类主要有磷脂酶D（PLD）、磷脂酶C（PLC）与磷脂酶A（PLA）。通过薄层层析（TLC），我们发现缺磷小麦叶片的酶粗提液水解外源PG后的主要产物是磷脂酸（PA）、二脂酰甘油（DAG）与游离脂肪酸（FFA）。将n-丁醇加入到缺磷小麦叶片的体外酶反应体系中后，观察到PA、DAG与FFA的生成量均表现出一定程度的降低。由于n-丁醇是PA经PLD途径生成的抑制剂，因此，上述结果表明PLD参与了缺磷条件下小麦叶片中PG的水解。硫酸新霉素是PLC的非特异性抑制剂，低浓度的硫酸新霉素（100μM 和 200μM ）加入到缺磷小麦叶片的体外酶反应体系后，三种产物的生成受到了严重抑制，表明PLC也与缺磷叶片中PG的降解密切相关。 为了进一步分析缺磷导致PG含量降低的原因，我们以烟草为试验材料，检测了缺磷胁迫对烟草嫩叶和老叶中的PG含量、PG水解酶活性、与PG降解相关的酶的种类及PLC、PLDα、PLDβ与PAT-1基因在mRNA上表达水平的的影响。结果表明，缺磷烟草叶片中PG含量的降低由PG生物合成受阻与PG降解加剧共同导致，PLC和PLD活性与烟草叶片中PG的降解有关。缺磷植株老叶中PG水解酶活性及PLC、PLDα、PLDβ基因在mRNA水平上的表达量均高于对照，表明在磷胁迫条件下，老叶中PG水解酶活性可能受到转录水平上的调节， PLC、PLDα、PLDβ转录活性的增强导致了PLC、PLD活性加强，从而引起PG降解的加剧，最终导致了PG含量的降低。与PLC、PLDα和PLDβ不同，缺磷胁迫对patatin蛋白（表现PLA2活性）的编码基因PAT-1在转录水平上的表达无影响，TLC分析PG的水解产物也未检测到溶血磷脂酰甘油（LPG）的生成。由此可见，PLA活性可能与缺磷条件下PG的降解无关。

蓝藻磷脂磷酸酶基因的缺失对光合作用的影响

磷脂酰甘油(phosphatidylglycerol, PG)是类囊体膜(也叫光合膜)中唯一的一种磷脂。在蓝藻中，PG的合成途径为：磷脂酸(phosphatidic acid, PA)胞嘧啶双磷酸-二酰基甘油 (cytidine diphosphate diacylglycerol, CDP-DAG) 磷酸磷脂酰甘油 (phosphatidylglycerol phosphate, PGP)PG。其中最后一步反应是由PGP去磷酸化而生成PG，催化该反应的是PGP磷酸酶。然而迄今为止，PGP磷酸酶还没有在蓝藻和高等植物中得到克隆和鉴定。本工作在鱼腥藻Anabaena sp. PCC7120中通过将一个可能编码PGP磷酸酶的基因(alr1715)进行突变，获得缺失PG的突变体。与野生型相比，该突变体PG的含量降低了30%左右。突变后的蓝藻藻丝发黄、生长缓慢，叶绿素含量降低。整体细胞的光合作用活性、光系统II(photosystem II，PSII)的放氧活性以及PSII反应中心的光能转化效率显著下降，传递给PSII的激发能减少。

磷脂酰甘油对光系统I的调控作用

磷脂酰甘油(PG)是光系统I(PSI)中唯一的磷脂，也是PSI重要的组成部分。在本工作中，我们通过改变PSI中PG的含量(体外重组至PG脂质体或专一性磷脂酶降解)，研究了PG对PSI的调控作用。主要结果如下： 1. 外加PG导致PSI色素的结合状态和激子相互作用发生改变。吸收光谱中，Chl a特征峰蓝移且吸收降低。低温荧光光谱中，680nm处的峰逐渐明显，F730-735 /F680的比值下降，LHCI-730激发峰蓝移。可视CD光谱中Chl a、Chl b蓝移，它们的相互作用增强;类胡萝卜素分子发生红移。 2. PSI的重组引起了PSI蛋白质结构的改变，即蛋白的α-螺旋结构增加而无序结构含量减少。同时，PSI蛋白质内部的色氨酸残基处于更极性的环境。 3. PG对PSI的电子传递的影响具有浓度效应。低浓度时可以促进PSI的电子传递活性，而在相对较高浓度时抑制PSI的电子传递。 4. PLA2的处理导致PSI中PG的缺失，抑制了PSI反应中心P700的暗还原反应，即延长了其还原所用的时间。P700的暗还原反应存在快相和慢相两相反应。PG的缺失降低了这两相反应的反应速率，抑制了电子从质体蓝素(PC)到P700+的传递。

Fracture Properties of LPCVD Silicon Nitride and Thermally Grown Silicon Oxide Thin Films From the Load-Deflection of Long Si3N4 and SiO2/Si3N4 Diaphragms

The bulge test is successfully extended to the determination of the fracture properties of silicon nitride and oxide thin films. This is achieved by using long diaphragms made of silicon nitride single layers and oxide/nitride bilayers, and applying comprehensive mechanical model that describes the mechanical response of the diaphragms under uniform differential pressure. The model is valid for thin films with arbitrary z-dependent plane-strain modulus and prestress, where z denotes the coordinate perpendicular to the diaphragm. It takes into account the bending rigidity and stretching stiffness of the layered materials and the compliance of the supporting edges. This enables the accurate computation of the load-deflection response and stress distribution throughout the composite diaphragm as a function of the load, in particular at the critical pressure leading to the fracture of the diaphragms. The method is applied to diaphragms made of single layers of 300-nm-thick silicon nitride deposited by low-pressure chemical vapor deposition and composite diaphragms of silicon nitride grown on top of thermal silicon oxide films produced by wet thermal oxidation at 950 degrees C and 1050 degrees C with target thicknesses of 500, 750, and 1000 mn. All films characterized have an amorphous structure. Plane-strain moduli E-ps and prestress levels sigma(0) of 304.8 +/- 12.2 GPa and 1132.3 +/- 34.4 MPa, respectively, are extracted for Si3N4, whereas E-ps = 49.1 +/- 7.4 GPa and sigma(0) = -258.6 +/- 23.1 MPa are obtained for SiO2 films. The fracture data are analyzed using the standardized form of the Weibull distribution. The Si3N4 films present relatively high values of maximum stress at fracture and Weibull moduli, i.e., sigma(max) = 7.89 +/- 0.23 GPa and m = 50.0 +/- 3.6, respectively, when compared to the thermal oxides (sigma(max) = 0.89 +/- 0.07 GPa and m = 12.1 +/- 0.5 for 507-nm-thick 950 degrees C layers). A marginal decrease of sigma(max) with thickness is observed for SiO2, with no significant differences between the films grown at 950 degrees C and 1050 degrees C. Weibull moduli of oxide thin films are found to lie between 4.5 +/- 1.2 and 19.8 +/- 4.2, depending on the oxidation temperature and film thickness.

Interlayer segregation in magnetic multilayers and its influence on exchange coupling

Experimental results show that the exchange coupling field (H-ex) of NiFe/FeMn for Ta/NiFe/FeMn/Ta multilayers is higher than that for spin-valve multilayers Ta/NiFe/Cu/NiFe/FeMn/Ta. X-ray photoelectron spectroscopy shows that Cu atoms segregate to the NiFe/FeMn interface for Ta/NiFe/Cu/NiFe/FeMn/Ta multilayers. While studying Ta/X(X=Bi,Pb,Ag,In)/NiFe/FeMn multilayers, we also find that X atoms segregate to the NiFe/FeMn interface, which results in a decrease of the H-ex. However, a small amount of Bi, Pb, etc. deposited between Cu and pinned NiFe layer for Ta/NiFe/Cu/NiFe/FeMn/Ta multilayers can increase H-ex. (C) 2003 American Institute of Physics.