Expanding the repertoire of DNA-mediated signaling in DNA repair

DNA damage is extremely detrimental to the cell and must be repaired to protect the genome. DNA is capable of conducting charge through the overlapping π-orbitals of stacked bases; this phenomenon is extremely sensitive to the integrity of the π-stack, as perturbations attenuate DNA charge transport (CT). Based on the E. coli base excision repair (BER) proteins EndoIII and MutY, it has recently been proposed that redox-active proteins containing metal clusters can utilize DNA CT to signal one another to locate sites of DNA damage.

To expand our repertoire of proteins that utilize DNA-mediated signaling, we measured the DNA-bound redox potential of the nucleotide excision repair (NER) helicase XPD from Sulfolobus acidocaldarius. A midpoint potential of 82 mV versus NHE was observed, resembling that of the previously reported BER proteins. The redox signal increases in intensity with ATP hydrolysis in only the WT protein and mutants that maintain ATPase activity and not for ATPase-deficient mutants. The signal increase correlates directly with ATP activity, suggesting that DNA-mediated signaling may play a general role in protein signaling. Several mutations in human XPD that lead to XP-related diseases have been identified; using SaXPD, we explored how these mutations, which are conserved in the thermophile, affect protein electrochemistry.

To further understand the electrochemical signaling of XPD, we studied the yeast S. cerevisiae Rad3 protein. ScRad3 mutants were incubated on a DNA-modified electrode and exhibited a similar redox potential to SaXPD. We developed a haploid strain of S. cerevisiae that allowed for easy manipulation of Rad3. In a survival assay, the ATPase- and helicase-deficient mutants show little survival, while the two disease-related mutants exhibit survival similar to WT. When both a WT and G47R (ATPase/helicase deficient) strain were challenged with different DNA damaging agents, both exhibited comparable survival in the presence of hydroxyurea, while with methyl methanesulfonate and camptothecin, the G47R strain exhibits a significant change in growth, suggesting that Rad3 is involved in repairing damage beyond traditional NER substrates. Together, these data expand our understanding of redox-active proteins at the interface of DNA repair.

固氮酶钼铁蛋白金属原子簇的拆卸与组装的研究

将棕色固氮菌(Azotobacter vinelandii)固氮酶钼铁蛋白与邻菲罗啉和O2或邻非罗啉和尿素保温并经Sephadex G-25柱层析，可分别得到部分或高度缺失P—cluster和FcMoco的“不全蛋白”。其中，部分缺失金属原子簇的蛋白与含V、Mn、Cr的重组液重组后，所得相应的重组蛋白的底物还原活性及吸收光谱和圆二色(CD))谱虽均得到明显恢复，但与还原钼铁蛋白[MoFe (R)]相比又不尽相同：与含V重组液重组的蛋白的底物还原特性与VFe蛋白相似，波谱特性与MoFe (R)有所不同;分别与含Mn和Cr重组液重组的蛋白的底物还原特性与MoFe(R)相似，而波谱特性却与MoFe(R)有较大差异。高度缺失金属原子簇的蛋白分别与含Mo、Mn、Cr重组液重组后，所得相应的重组蛋白的乙炔还原活性虽都有明显的恢复，但与MoFe(R)相比仍相差较大;当与含钼重组液重组后，它的吸收光谱、可见CD谱及天然电泳图谱均可得到明显恢复，而紫外CD谱却与其乙炔还原活性一样，只能得到部分恢复。 根据上述实验结果，我们提出：(1)钼铁蛋白的金属原子簇与其构象密切相关;(2)部分或高度缺失金属原子簇的蛋白与重组液重组的机理——“零件组装”的基本内容;(3)钼原子在FeMoco中的可被取代性及不处于中心位置;(4)还原M oFe蛋白中Fe原子的价态不尽相同。

缺失nifZ的棕色固氮菌突变株DJ194的钼铁蛋白研究—纯化、结晶及金属簇的组成与分布

从棕色固氮菌DJ194菌株得到的固氮酶粗提液经DEAE－52、Sephacryl S－200及Q－Sepharose等柱厌氧层析，分离纯化得到nifZ基因缺失的固氮酶MoFe蛋白（ΔnifZ Av1）制备物。通过天然电泳和SDS变性电泳发现早期纯化所得的ΔnifZ Av1制备物中残存相当比例的三个主要污染蛋白：属于热激蛋白60家族（Hsp 60 family）成员的分子伴侣GroEL、糖酵解过程的一个多功能酶——6-磷酸葡萄糖异构酶（6-Phosphate Glucose Isomerase，PGI）及棕色固氮菌细菌铁蛋白（Bacterioferritin，Bfr）。初步鉴定表明，它们分别为由约55kD亚基组成的14聚合体，62kD亚基组成的10聚体和20kD亚基组成的24聚体。首次发现PGI有如此高的聚合体。虽然GroEL和PGI在天然电泳中的迁移率小于ΔnifZ Av1蛋白，但它们的亚基在SDS变性电泳中与ΔnifZ Av1亚基具有相似的迁移率，互相重叠，从而使变性电泳比天然电泳显出更高的ΔnifZ Av1纯度;而细菌铁蛋白虽然不会在变性电泳中污染ΔnifZ Av1，但往往会在ΔnifZ Av1制备物的结晶中优先或较多地结晶出来,从而给它的晶体生长和解析研究带来干扰（Zhao等，2004）。 通过Sephacryl S－200柱洗脱峰收集精度的调整及Q－Sepharose柱的NaCl浓度梯度洗脱，得到了纯度大于90%的ΔnifZ Av1制备物。它的厌氧天然电泳及其免疫印渍（Western blotting），以及SDS-变性凝胶电泳显出，ΔnifZ Av1的电泳迁移率、分子量和亚基组成等均与野生种钼铁蛋白（OP Av1）相似，表明nifZ基因缺失并未改变ΔnifZ Av1的α2β2四聚体构成。ΔnifZ Av1的Mo含量、EPR信号（g≈4.3, 3.65和2.01）和520-660 nm附近的圆二色摩尔消光系数（Δε）也都与OP Av1较相似，从而表明ΔnifZ Av1含有与OP Av1数量相当的具有3/2自旋态的还原FeMoco。然而，ΔnifZ Av1的Fe含量和对底物（C2H2、H+和N2）的还原活性都较低, 分别约为OP Av1的74%和46-50%;而反映P-cluster状况的450nm附近的Δε也明显低于OP Av1。此外，与OP Av1相同的ΔnifZ Av1在g≈2.01的EPR信号却与推测含由双[4Fe-4S]簇组成的P-cluster前体的His-tagged ΔnifZ Av1（Hu等，2004）的信号明显不同。这就表明，ΔnifZ Av1与OP Av1的差别不在于FeMoco的结构、含量和氧还状态，也不在于P-cluster的结构和氧还状态，而仅在于ΔnifZ Av1中P-cluster数目的减少（约一半）。据此推测出与国外提出的His-tagged ΔnifZ Av1模型不同的ΔnifZ Av1(DJ194)的如下结构模型。一个αβ亚基对含有一个FeMoco和一个P-cluster，而另一个αβ亚基对只含FeMoco，其P-cluster区域则是空的。由于nifZ基因的缺失只造成了钼铁蛋白中两个P-cluster中的一个不能组装，因此推测P-cluster的组装可能不是受单一基因产物的影响。根据Lee等（1998）对nifZ产物（NifZ）和nifW产物（NifW）可以形成[NifWx-NifZy]多聚体，并可能是通过同一途径来影响固氮酶的合成的研究，提出NifZ的如下的可能作用机理。[NifWx-NifZy]多聚体影响与P-cluster合成相关的金属簇(如[4Fe-4S])的进入和P-cluster的最终合成，而其中的一个αβ对上的P-cluster的形成可能较多的受到NifZ的影响;nifZ的某些突变或缺失虽然不影响[NifWx-NifZy]多聚体的形成，但对于更依赖于NifZ的那个αβ对上的P-cluster的合成可能会产生不同的影响。 对这一高纯度的ΔnifZ Av1制备物结晶的研究表明，使用Tris缓冲系统的25%PEG 6K/MgCl2晶体培养液可以在较短的晶体培养时间内得到较大的晶体;在一定条件下，pH为7.5和8.3的培养液对出晶数和晶体大小的影响不明显;PEG 6K的浓度与MgCl2的浓度对出晶大小的影响有一定的相关性，即较低的PEG浓度在较低的MgCl2浓度下和较高的PEG浓度搭配较高的MgCl2浓度较易长出较大的晶体。虽然ΔnifZ Av1制备物的纯度达到90%以上，并且在染铁实验中表明其基本不含细菌铁蛋白，但我们在对得到的晶体进行电泳鉴定中仍然发现了一种与以前报导的砖红色晶体不同的深棕红色的细菌铁蛋白晶体，之所以颜色不同可能和所含的铁元素的氧化状态有关。不过在所鉴定的5支结晶管中只在一个管内发现了与固氮酶晶体同时存在的这种细菌铁蛋白晶体，说明通过蛋白纯度的提高减少细菌铁蛋白的含量以及晶体培养条件的优化，细菌铁蛋白晶体形成的几率就可大大降低。

Al2O3 : Cr3+ nanotubes synthesized via homogenization precipitation followed by heat treatment

Cr3+-doped NH4Al(OH)(2)CO3 nanotubes, templated by surfactant assemblies, were successfully synthesized via the homogenization precipitation method, and various crystallographic phase Al2O3:Cr3+ nanotubes were also obtained by postannealing at different temperatures. The characteristic R-1, R-2 doublet line transitions of ruby can be observed in the high crystalline alpha-Al2O3 nanotubes calcined at temperatures higher than 1200 degrees C. The results also indicate that the formation mechanism of the tubular nanostructures should result from the self-rolling action of layered compound NH4Al(OH)(2)CO3 under the assistance of the surfactant soft-template. The convenient synthetic procedure, excellent reproducibility, clean reactions, high yield, and fine quality of products in this work make the present route attractive and significant. Aluminum oxide nanotubes with high specific surface area could be used as fabricating nanosized optical devices doped with different elements and stable catalyst supports of metal clusters.

PHOTOEMISSION-STUDY OF THE INTERFACIAL FORMATION PROCESS AND REACTIONS BETWEEN AL AND HYDROGENATED AMORPHOUS SI

Using photoemission spectroscopy and Auger electron spectroscopy, the interfacial formation process and the reactions between Al and hydrogenated amorphous Si are probed, and annealing behaviors of the Al/a-Si:H system are investigated as well. It is found that a three-dimensional growth of Al metal clusters which includes reacted Al and non-reacted metal Al occurs at the initial Al deposition time, reacted Al and Si alloyed layers exist in the Al/a-Si:H interface, and non-reacted Al makes layer-by-layer growth forming a metal Al layer on the sample surface. The interfacial reactions and element interdiffusion of Al/a-Si:H are promoted under the vacuum annealing.

TIME-DEPENDENT DENSITY FUNCTIONAL STUDY OF MULTIELECTRON TRANSFER IN Cq+-Na-4 COLLISIONS

The process of multielectron transfer from a Na-4 cluster induced by highly charged C6+, C4+, C2+ and C+ ions is studied using the method of time-dependent density functional theory within the local density approximation combined with the use of pseudopotential. The evolution of dipole moment changes and emitted electrons in Na-4 isobtained and the time-dependent probabilities with various charges are deduced. It is shown that the Na-4 cluster is strongly ionized by C6+ and that the number of emitted electrons per atom of Na-4 is larger than that of Na-2 under the same condition. One can find that the detailed information of the emitted electrons from Na-4 is different from the same from Na-2, which is possibly related to the difference in structure between the two clusters.

Polyethylene glycol-stabilized platinum nanoparticles: The efficient and recyclable catalysts for selective hydrogenation of o-chloronitrobenzene to o-chloroaniline

In the present work, platinum nanoparticles were prepared by in situ reduction with polyethylene glycols (PEGs). The catalytic performance of Pt nanoparticles immobilized in PEGs (Pt-PEGs) is discussed for the hydrogenation of o-chloronitrobenzene (o-CNB). A high selectivity to o-chloroaniline (o-CAN) of about 99.7% was obtained with the Pt-PEGs catalysts at the complete conversion of o-CNB, which is much higher than that (83.4%) obtained over the conventional catalyst of Pt/C. The Pt nanoparticies could be immobilized in PEGs stably and recycled for four times with the same activity and selectivity. It presents a promising performance in the hydrogenation and its wide application in catalytic reactions is expected.

Thermal annealing of Au nanorod self-assembled nanostructured materials: Morphology and optical properties

Three-dimensional Au nanorod and An nanoparticle nanostructured materials were prepared by layer-by-layer self-assembly. The plasmonic properties of the An nanorod and An nanoparticle self-assembled nanostructured materials (abbreviated as AuNR and AuNP SANMs) are tunable by the controlled self-assenibly process. The effect of thermal annealing at 180 and 500 degrees C to the morphologies, plasmonic properties and surface-enhanced Raman scattering (SERS) responses of these SANMs were investigated. According to the experimental results, these properties correlate with the structure of the SANMs.

Investigation of electrochemical charging behaviors of "naked" gold nanoparticles ensembles in aqueous media

Gold nanopartides were Immobilized onto the electrode surface by simple self-assembly technique. Interestingly, the ensembles of these nanopartides exhibit quantized charging behaviors in aqueous solution. Possible mechanism for such behaviors was proposed.

Synthesis and characterization of a new double-cubane Mo-Fe-S cluster compound, [NEt(4)](3)[Mo2Fe6S8(mu-OMe)(3)(SPh)(3)Cl-3]

The new double-cubane cluster compound [NEt(4)](3)[Mo2Fe6S8(mu-OMe)(3)(SPh)(3)Cl-3] is synthesized from (NH4)(2)MoS4, FeCl3, Fe powder, S powder, NaSPh and NEt(4)Br in MeOH-DMF, its crystal structure is determined by X-ray crystallography, and results of XPS indicate a valence state of +4 for Mo.

On the reasons for stepwise changes in the tunnelling current across nanogaps

The role of the crystalline orientation of the STM tip in the generation of metal clusters is studied by atom dynamics simulations. When a (111) facet is facing the surface, the process is accompanied by a perturbation of the surface stronger than that observed for more open tip structures. This implies a technological application: the possibility of orienting a nanocrystallite deposited on a tip according to the changes observed in the force on the tip.

An in situ spatially resolved analytical technique to simultaneously probe gas phase reactions and temperature within the packed bed of a plug flow reactor

This paper reports the detailed description and validation of a fully automated, computer controlled analytical method to spatially probe the gas composition and thermal characteristics in packed bed systems. As an exemplar, we have examined a heterogeneously catalysed gas phase reaction within the bed of a powdered oxide supported metal catalyst. The design of the gas sampling and the temperature recording systems are disclosed. A stationary capillary with holes drilled in its wall and a moveable reactor coupled with a mass spectrometer are used to enable sampling and analysis. This method has been designed to limit the invasiveness of the probe on the reactor by using the smallest combination of thermocouple and capillary which can be employed practically. An 80 mu m (O.D.) thermocouple has been inserted in a 250 mu m (O.D.) capillary. The thermocouple is aligned with the sampling holes to enable both the gas composition and temperature profiles to be simultaneously measured at equivalent spatially resolved positions. This analysis technique has been validated by studying CO oxidation over a 1% Pt/Al2O3 catalyst and the spatial resolution profiles of chemical species concentrations and temperature as a function of the axial position within the catalyst bed are reported.

Determining adsorbate configuration on alumina surfaces with 13C nuclear magnetic resonance relaxation time analysis

Relative strengths of surface interaction for individual carbon atoms in acyclic and cyclic hydrocarbons adsorbed on alumina surfaces are determined using chemically resolved 13C nuclear magnetic resonance (NMR) T1 relaxation times. The ratio of relaxation times for the adsorbed atoms T1,ads to the bulk liquid relaxation time T1,bulk provides an indication of the mobility of the atom. Hence a low T1,ads/T1,bulk ratio indicates a stronger surface interaction. The carbon atoms associated with unsaturated bonds in the molecules are seen to exhibit a larger reduction in T1 on adsorption relative to the aliphatic carbons, consistent with adsorption occurring through the carbon-carbon multiple bonds. The relaxation data are interpreted in terms of proximity of individual carbon atoms to the alumina surface and adsorption conformations are inferred. Furthermore, variations of interaction strength and molecular configuration have been explored as a function of adsorbate coverage, temperature, surface pre-treatment, and in the presence of co-adsorbates. This relaxation time analysis is appropriate for studying the behaviour of hydrocarbons adsorbed on a wide range of catalyst support and supported-metal catalyst surfaces, and offers the potential to explore such systems under realistic operating conditions when multiple chemical components are present at the surface.