Direct detection of Yersinia pestis from the infected animal specimens by a fiber optic biosensor

The FOB-3, anew type fiber optic biosensor, is designed to rapidly detect a variety of biological agents or analytes with better stability, sensitivity and specificity. In order to detect Y. Pestis, a sandwich immunoassay was developed by using the purified antibody against antigen FI immobilized on polystyrene probes as the capture antibody and the monoclonal antibody-Cy5 conjugate as the detector. After a series of optimization for the stability, sensitivity and specificity of the FOB-3, 50-1000 ng/ml of antigen FI and 6 x 10(1)-6 x 10(7) CFU/ml Y. pestis could be detected constantly in about 20 min, and Y pestis could be detected specifically from Y. pseudotuberculosis, Y. enterocolitica, B. anthracis and E. coli. Then, 39 blind samples, including 27 tissues of mice infected with Y pestis and 12 tissues of healthy mice as negative control, were detected with the FOB-3. 92.6% infected tissues were identified from the tissues of healthy mice and the tissues containing more than 100 CFU/ml bacteria could be detected by the biosensor. The results demonstrated the feasibility of the FOB-3 as an effective method to detect Y. pestis rapidly and directly from the infected animal specimens with the advantage of portability, simple-operation as well as high sensitivity and specificity. (c) 2006 Elsevier B.V. All rights reserved.

小麦春化相关基因的克隆及其功能分析

一． 小麦相关基因ver203F cDNA全序列克隆与功能分析 　　根据本实验室通过差异筛选技术克隆到的与春化相关的基因cDNA verc203的序列，设计PCR 5’端PCR引物，利用RACE（rapid amplification of cDNA ends）克隆策略，得到春化相关基因ver203基因的同源基因ver203F cDNA的3’端序列，长度为1,197bp。Northern分析表明ver203F全长约为1.5 kb，且其表达具有春化处理的特异性。根据3’RACE克隆的ver203F 3 ’端核苷酸序列设计了3’端PCR引物，利用5’RACE克隆到该基因的5’端片段，经DNASIS核酸分析软件分析将5’45RACE和3’RACE DNA序列拼接合并，得到ver203F全长cDNA，从TdT加尾5’末端到poly A全长为1,561 bp，5’端起始密码子ATG上游非编码区－1～－192共了192bp，终止密码子TGA到poly A的非编码区有253bp，cDNA编码区全长1,119 bp，推测编码373氨基酸残基。国际基因序列数据库检索表明该基因序列（GenBank/EMBL/DDBJ：AB012013）与大麦茉莉酸诱导基因有部分同源性。因上推测该基因在调控开花过程中可能参与茉莉酸介导的信号传导途径，ver203F作用的发挥可能需要其它蛋白的参与，或ver203F本身就是一个受体蛋白。 　　为了研究ver203F基因的功能，将通过3’RACE克隆到的ver203F 3’端序到分别构建正义和反义植物表达载体，通过花粉管通道法、农杆菌介导的叶圆片法以及农杆菌介导的真空转化法分别转化小麦、烟草和拟南芥菜。获得转基因植株后，PCR、DNA Dob Blot、Southern Blot分析以及GUS活性检测证明外源基因已整合到转基因植株中，并得到表达。在获得的小麦、烟草和拟南芥菜转基因植株中，它们开花时间都相应地推迟，表明正常植物体内该基因在控制营养生长向生殖生长的转变中起作用。ver203F可以影响小麦和拟南茶菜花序的发育，首先无论正义还是反义都使得花序的发育受到抑制，在小麦中表现为顶部小穗退化，在拟南芥菜中表现为顶花。其次在转化正义基因的转基因拟南芥菜中，观察到产生的顶花为对称的两朵或以对称的两朵顶花基部为生长点长出丛生花，这种对称花的麦型小麦小穗中小花的表型相类似，说明ver203F基因可能在小麦小花的发育过程中也起着重要作用。 二． 春化相关基因ver17在开花过程中功能的分析 以春化处理冬小麦（京冬1号）幼苗cDNA为材料，通过减法杂交与差异筛选得到春化相关cDNA克隆verc17。为了研究该基因的功能，以包含CaMV 35S启动子的pBI221为载体，将ver17cDNA片段分别从两个方向插入pBI221的BamH I－Sma I, Xba I－BamH I间，构建正义和反义表达质粒：p17S和p17X，通过花粉管通道法转化小麦。对T0和T1两代转基因小麦的观察发现，在转化反义基因p17X的转基因小麦首先表现为抽穗推迟，其次穗的顶部和基部小穗严重退化，另外还发现转化反义基因的小麦败育现象严重（主要是花粉败育），因此推测ver17基困能可具有以下几方面的特点：a．春化诱导型表达;b．促进植物开花;c．促进穗顶端和基部花的发育，减少其退化;d．影响雄蕊的发育。

杜鹃花属(Rhododendron)种间亲缘关系及小枝异速生长分析

杜鹃花属(Rhododendron)植物种间有着丰富的遗传变异，表型变异并不能完全或真实地反映遗传变异，需要利用信息大分子(DNA)的变化来评价其亲缘关系及系统发育。当年生小枝作为一个独立的构件单元，是植物体上最有活力的部分之一，具有重要的生态学意义。本文以杜鹃为材料，首先全面分析了杜鹃花属种间亲缘关系和小枝功能性状间的关系(异速生长)，然后对小枝水平功能属性间的关系进行系统独立比较分析研究，同时验证小枝异速生长关系。 选取23种杜鹃花属植物为材料，利用ISSR分子标记手段对其种间的亲缘关系进行研究和评价，结果发现：1) ISSR位点变异丰富。通过10条ISSR随机引物对供试的混合DNA样品进行分析，共检测到207个标记，其中多态性标记为197个，多态百分率为95.17%，种间表现出丰富的遗传多样性;2) 对ISSR产物进行统计分析的聚类分析结果同传统分类的结果基本一致。说明，ISSR分子标记技术在构建系统发育树方面具有较高的成熟性和可靠性。 本研究还对42种杜鹃花属植物小枝的功能属性进行了异速生长分析，结果发现：1)小枝大小对叶片生物量分配比率的影响不显著，SMA斜率为1.040 (95%的置信区间(CI)=0.998～1.085);但是，小枝越大，叶柄生物量分配比例越高(SMA斜率为1.245，显著大于1.0，呈显著的异速生长关系);2)小枝越小，单叶面积越小(支持Corner法则)，单位质量小枝所支持的叶面积越大，即具有较小枝条和较小叶片的物种可能具有较高的叶面积支持效率。结果有助于更好地理解亲缘关系十分接近的杜鹃花属植物，在不同生境条件下叶片大小的差异，以及在胁迫生境条件下小叶物种更为常见的原因。 此外，本文利用系统独立比较方法结合传统种间比较方法对23种杜鹃植物小枝进行异速生长分析，其中这23种杜鹃是前两方面研究的共有材料。系统独立比较分析分别依据ISSR得出的系统关系和中国植物志提供的系统关系构建两种系统树。结果表明：1)系统独立比较与种间比较分析得出的相关性结果一致;2)两种系统树所得的独立比较分析结果基本一致，相关性均达到极显著水平，即这两种方法作为构建系统树的依据是一致的。

山羊mtDNA 多态性及其起源分化研究

　本文用14 种识别6 碱基的限制性内切酶Apa Ⅰ、BamH Ⅰ、Bgl Ⅰ、Bgl Ⅱ、Dra Ⅰ、 EcoR Ⅰ、EcoR Ⅴ、Kpn Ⅰ、Pvu Ⅱ、Pst Ⅰ、Sac Ⅰ、Sal Ⅰ、Sma Ⅰ和Xho Ⅰ研究了来自我国12 个省 和自治区共计18 个地方山羊品种218 个个体mtDNA 的RFL P ,并运用Nei 氏公式计算了各限制 性类型间的遗传距离P 和群体遗传多态度π值。结果表明,在研究的所有个体中共检测到41 个 酶切位点,18 种限制性态型,其中BamH Ⅰ、Bgl Ⅱ、Dra Ⅰ、EcoR Ⅰ和Sal Ⅰ共5 种酶表现出多态。 18 种限制性态型可归结为6 种基因单倍型,单倍型Ⅰ(BamH Ⅰ2B、Bgl Ⅱ2A、Dra Ⅰ2A、EcoR Ⅰ2A 和Sal Ⅰ2A) 和单倍型Ⅱ(BamH Ⅰ2B、Bgl Ⅱ2A、Dra Ⅰ2A、EcoR Ⅰ2A 和Sal Ⅰ2B) 为两种基本单倍 型,研究结果提示我国地方山羊品种起源于两种不同的母系祖先。各限制性类型间的平均遗传距 离为0100436 ,整个群体的平均遗传多态度π值为010487 % ,表明我国地方山羊品种mtDNA 遗传 多样性比较贫乏,分化程度较低。

浙江地方猪种线粒体DNA多态及遗传多样性研究

用ApaⅠ、AvaⅠ、BamHⅠ、BclⅠ、BglⅠ、BglⅡ、ClaⅠ、DraⅠ、Eco RI、Eco RV、HaeⅡ、HincⅡ、HindⅢ、HpaⅠ、KpnⅠ、PstⅠ、PvuⅠ、PvuⅡ、SacⅠ、SalⅠ、ScaⅠ、SmaⅠ、StuⅠ、XbaⅠ和XhoⅠ等25种识别6个碱基对的限制性内切酶分析了浙江地方品种猪、浙江野猪等30个个体的线粒体DNA,共检出30种限制性态型(morph),可归结成3种单倍型,其中BamHⅠ-B、BclⅠ-B、DraⅠ-B和XbaⅠ-C为首次发现;各单倍型间平均遗传距离(p)为0.005,群体的平均多态度(#pi#)为0.0008,均处于遗传多样性贫乏范围。

云南保种山羊线粒体DNA限制性酶切研究

　采用碱变性法,提取来自云南省不同地区4个保种山羊的13个个体的线粒体DNA(mtDNA),并用ApaⅠ,AvaⅠ,BamHⅠ,BclⅠ,BcIⅠ，BglⅡ,ClaⅠ,DraⅠ, EcoRⅠ,EcoRⅤ,HaeⅠ,HindⅢ,KpnⅠ,PstⅠ,PvuⅡ,SacⅠ,SalⅠ,SmaⅠ,StuⅠ和XhoⅠ等20种限制性内切酶进行酶切分析。结果发现它们的线粒体DNA的分子量大 小约为15.8Kb；不同限制性内切酶的酶切位点分别为：DraⅠ有7个酶切位点，AvaⅢ有6个酶切位点，EcoRⅤ和StuⅠ共有5个酶切位点，HindⅡ和HaeⅡ有4个酶 切位点，BamHⅠ,BglⅡ,PstⅠ和PvuⅡ有3个酶切位点，ApaⅠ，ClaⅠ有两个酶切位点，其余有1个酶切位点。各保种山羊间未发现变异，说明云南的4个保种山 羊极可能来自于共同的母性祖先。

云南龙陵黄山羊线粒体DNA限制性酶切分析

采用碱性变性法提取来自于龙陵县不同地区的18只黄山羊个体的线粒体DNA(mtDNA),并用Apa I、Ava I、BamH I、Bcl I、Bgl I、Bgl II、Cla I、Dra I、EcoR I、EcoR V、Hae I、Hind III、Kpn I、Pst I、Pvu II、Sac I、Sal I、Sma I、Stu I和Xba I等20种限制性内切酶进行酶切分析。 结果发现龙陵黄山羊线粒体DNA的分子量大小约为15.8Kb;不同酶的酶切位点分别为:Dra I有7个酶切位点,Ava II有6个酶切位点,EcoR V和Stu I共有5个酶切位点,Hind III和Hea II有4个酶切位点,BamH I、Bgl II、Pst I和Pvu II有3个酶切位点,Apa I、Cla I有2个酶切位点,其余有1个酶切位点。

A microelectrode drive for long term recording of neurons in freely moving and chaired monkeys

An electrode drive is described for recordings of neurons in freely moving and chaired monkeys during the performance of behavioural tasks. The electrode drives are implanted for periods of up to 6 months, and can advance up to 42 electrodes using 14 independent drive mechanisms. The drive samples 288 points within a 12 mm x 12 min region, with 15 min of electrode travel. Major advantages are that recordings are made in freely moving monkeys, and these recordings can be compared with those in chaired experiments; waveforms of single neurons are stable, enabling prolonged recordings of the same neurons across periods of days; recordings can be made throughout the brain, including the dorsolateral prefrontal cortex and hippocampus; the drive accommodates both sharp microelectrodes and fine wire assemblies such as tetrodes. (C) 2003 Elsevier Science B.V; All rights reserved.

Analysis of steric mass-action model for protein adsorption equilibrium onto porous anion-exchange adsorbent

The ion-exchange equilibrium of bovine serum albumin (BSA) to an anion exchanger, DEAE Spherodex M, has been studied by batch adsorption experiments at pH values ranging from 5.26 to 7.6 and ionic strengths from 10 to 117.1 mmol/l. Using the unadjustable adsorption equilibrium parameters obtained from batch experiments, the applicability of the steric mass-action (SMA) model was analyzed for describing protein ion-exchange equilibrium in different buffer systems. The parametric sensitivity analysis was performed by perturbing each of the model parameters, while holding the rest constant. The simulation results showed that, at high salt concentrations or low pHs close to the isoelectric point of the protein, the precision of the model prediction decreased. Parametric sensitivity analysis showed that the characteristic charge and protein steric factor had the largest effects on ion-exchange equilibrium, while the effect of equilibrium constant was about 70%-95% smaller than those of characteristic charge and steric factor under all conditions investigated. The SMA model with the relationship between the adjusted characteristic charge and the salt concentration can well predict the protein adsorption isotherms in a wide pH range from 5.84 to 7.6. It is considered that the SMA model could be further improved by taking into account the effect of salt concentration on the intermolecular interactions of proteins. (c) 2006 Elsevier Ltd. All rights reserved.

Quantum Confinement Effects and Electronic Properties of SnO2 Quantum Wires and Dots

On the basis of the density functional theory (DFT) within local density approximations (LDA) approach, we calculate the band gaps for different size SnO2 quantum wire (QWs) and quantum dots (QDs). A model is proposed to passivate the surface atoms of SnO2 QWs and QDs. We find that the band gap increases between QWs and bulk evolve as Delta E-g(wire) = 1.74/d(1.20) as the effective diameter d decreases, while being Delta E-g(dot) = 2.84/d(1.26) for the QDs. Though the similar to d(1.2) scale is significantly different from similar to d(2) of the effective mass result, the ratio of band gap increases between SnO2 QWs and QDs is 0.609, very close to the effective mass prediction. We also confirm, although the LDS calculations underestimate the band gap, that they give the trend of band gap shift as much as that obtained by the hybrid functional (PBE0) with a rational mixing of 25% Fock exchange and 75% of the conventional Perdew-Burke-Ernzerhof (PBE) exchange functional for the SnO2 QWs and QDs. The relative deviation of the LDA calculated band gap difference Lambda E-g compared with the corresponding PBE0 results is only within 5%. Additionally, it is found the states of valence band maximum (VBM) and conduction band minimum (CBM) of SnO2 QWs or QDs have a mostly p- and s-like envelope function symmetry, respectively, from both LDA and PBE0 calculations.

Electrically controllable RKKY interaction in semiconductor quantum wires

We demonstrate in theory that it is possible to all-electrically manipulate the RKKY interaction in a quasi-one-dimensional electron gas embedded in a semiconductor heterostructure, in the presence of Rashba and Dresselhaus spin-orbit interaction. In an undoped semiconductor quantum wire where intermediate excitations are gapped, the interaction becomes the short-ranged Bloembergen-Rowland superexchange interaction. Owing to the interplay of different types of spin-orbit interaction, the interaction can be controlled to realize various spin models, e.g., isotropic and anisotropic Heisenberg-like models, Ising-like models with additional Dzyaloshinsky-Moriya terms, by tuning the external electric field and designing the crystallographic directions. Such controllable interaction forms a basis for quantum computing with localized spins and quantum matters in spin lattices.

Interference in transport through double barriers in interacting quantum wires

We investigate interference effects of the backscattering current through a double-barrier structure in an interacting quantum wire attached to noninteracting leads. Depending on the interaction strength and the location of the barriers, the backscattering current exhibits different oscillation and scaling characteristics with the applied voltage in the strong and weak interaction cases. However, in both cases, the oscillation behaviors of the backscattering current are mainly determined by the quantum mechanical interference due to the existence of the double barriers.

Direct detection of the relative strength of Rashba and Dresselhaus spin-orbit interaction: Utilizing the SU(2) symmetry

We propose a simple method to detect the relative strength of Rashba and Dresselhaus spin-orbit interactions in quantum wells (QWs) without relying on the directional-dependent physical quantities. This method utilizes the two different critical gate voltages that leading to the remarkable signals of SU(2) symmetry, which happens to reflect the intrinsic-structure-inversion asymmetry of the QW. We support our proposal by the numerical calculation of in-plane relaxation times based on the self-consistent eight-band Kane model. We find that the two different critical gate voltages leading to the maximum spin-relaxation times [one effect of the SU(2) symmetry] can simply determine the ratio of the coefficients of Rashba and Dresselhaus terms. Our proposal can also be generalized to extract the relative strengths of the spin-orbit interactions in quantum-wire and quantum-dot structures.

Fabrication of a Low-Loss SSC Using High-Dose Electron Beam Lithography Exposure With Negative PMMA Resist

A silicon-on-insulator optical fiber-to-waveguide spot-size converter (SSC) using Poly-MethylMethAcrylate (PMMA) is presented for integrated optical circuits. Unlike the conventional use of PMMA as a positive resist, it has been successfully used as a negative resist with high-dose electron exposure for the fabrication of ultrafine silicon wire waveguides. Additionally, this process is able to reduce the side-wall roughness, and substantially depresses the unwanted propagation loss. Exploiting this technology, the authors demonstrated that the SSC can improve coupling efficiency by as much as over 2.5 dB per coupling facet, compared with that of SSC fabricated with PMMA as a positive resist with the same dimension.

Electronic structure and optical gain of wurtzite ZnO nanowires

The electronic structure and optical gain of wurtzite ZnO nanowires are investigated in the framework of effective-mass envelope-function theory. We found that as the elliptical aspect ratio e increases to be larger than a critical value, the hole ground states may change from optically dark to optically bright. The optical gain of ZnO nanowires increases as the hole density increases. For elliptical wire with large e, the y-polarized mode gain can be several thousand cm(-1), while the x-poiarized mode gain may be 26 times smaller than the former, so they can be used as ultraviolet linearly polarized lasers. (C) 2008 American Institute of Physics.