迟缓爱德华氏菌(Edwardsiella tarda) LuxS/AI-2群体感应系统研究

从患病牙鲆中分离出迟缓爱德华氏菌株TX1，经报告菌株检测发现TX1有AI-2活性。用梯度PCR和Genome walking的方法克隆了TX1 luxS基因，将luxS基因在大肠杆菌DH5α中表达，证明其具有功能活性。在TX1中，luxS的表达与AI-2的活性基本是一致的，二者均受生长时期和生长条件的调节，即在glucose存在的条件下luxS表达和AI-2活性升高，而在高温条件下luxS表达和AI-2活性降低。glucose对AI-2活性以及luxS表达的影响经过荧光定量PCR，启动子活性检测，AI-2活性检测以及凝胶滞缓等一系列的实验证实是由cAMP-CRP复合物介导的，该复合物可以通过与luxS启动子相互作用而抑制luxS的表达。RNA干扰表明，TX1中luxS表达被干扰以后，对细菌产生了多方面的影响，包括：(1) 降低AI-2水平；(2) 降低细菌的生长能力；(3) 降低Ⅲ型分泌系统相关基因的表达水平以及生物膜的形成能力；(4) 减弱细菌毒力。外源AI-2的添加可以回复Ⅲ型分泌系统相关基因的表达水平以及生物膜的形成，但是并不能修复生长状况，表明LuxS在TX1中具有双重功能，即参与细胞代谢以及群体感应信号传导。基于LuxS/AI-2群体感应系统对细菌毒力的重要性，设计并筛选了一个该系统的阻遏因子5411。Pull-down实验证明5411可以和LuxS特异性结合。研究表明5411在TX1中表达导致细菌毒力显著下降。将5411克隆至牙鲆共生菌FP3中，发现5411可以被分泌到胞外并能被TX1吸收。将表达5411的共生菌导入牙鲆，发现其能够有效阻遏TX1对牙鲆的侵染。 这些结果表明：(1) TX1中AI-2的活性受控于LuxS，而后者则受生长时期和生长条件的调控；(2) luxS的正常表达对于细菌的正常生长和侵染是必需的；(3) LuxS/AI-2群体感应系统调控Ⅲ型分泌系统相关毒力因子的表达；(4) 通过阻遏LuxS/AI-2群体感应系统来抑制病原菌侵染是一种具有潜力的新型病害防控方法。

质子交换膜燃料电池在无缆水下机器人上的应用研究

质子交换膜燃料电池(PEMFC)作为一种新兴的能源,在汽车和航天器上已经获得成功的应用,本文针对水下环境和PEMFC的特点,对PEMFC在无缆水下机器人(UUV)上试验应用的关键技术进行讨论.

一种柔性冲压自动化生产线系统的研制

本文介绍了一种用于大型汽车覆盖件冲压生产的柔性自动化生产线，系统由６台压机、１２台上下料机械手、１台翻转传输装置、４台穿梭传输装置及１台磁力分层装置构成．给出了生产线的主要性能指标、机械手结构简图及单元控制系统框图，简要介绍了系统的工作原理。

叠前时间偏移: 基于波动方程的架构、发展和应用

This dissertation starts from the point that the prestack time migration can been considered as an approximation of the prestack depth migration, giving a wave equation based prestack time migration approach. The new approach includes: analytically getting the travel time and amplitude based on the one way wave equation and the stationary-phase theory, using ‘spread’ imaging method and imaging following the prestack depth migration, updating the velocity model with respect to the flats of the events in CRP gathers. Based on this approach, we present a scheme that can image land seismic data without field static correction. We may determine the correct near surface velocities and stack velocities by picking up the residual correction of the events in the CRP gathers. We may get the rational migration section based on the updated velocities and correct the migration section from a floating datum plane to a universal datum plane. We may adaptively determine the migration aperture according to the dips of the imaging structures. This not only speed up the processing, but may suppress the migration noise produce by the extra aperture. We adopt the deconvolution imaging condition of wave equation migration. It may partially compensate the geometric divergence. In this scheme, we use the table-driven technique which may enhance the computational efficiency. If the subsurface is much more complicated, it may be impossible to distinguish the DTS curve. To solve this problem, we proposed a technique to determine the appropriate range of the DTS curve. We synthesize DTS panel in this range using different velocities and depths, and stack the amplitude around the zero time. Determine the correct velocity and location of the considered grid point by comparing the values.

共反射面元叠加

The seismic survey is the most effective prospecting geophysical method during exploration and development of oil/gas. The structure and the lithology of the geological body become increasingly complex now. So it must assure that the seismic section own upper resolution if we need accurately describe the targets. High signal/noise ratio is the precondition of high-resolution. As one important seismic data processing method, Stacking is an effective means to suppress the records noise. Broadening area of surface stacked is more important to enhance genuine reflection signals and suppressing unwanted energy in the form of coherent and random ambient noise. Common reflection surface stack is a macro-model independent seismic imaging method. Based on the similarity of CRP trace gathers in one coherent zone, CRS stack effectively improves S/N ratio by using more CMP trace gathers to stack. It is regarded as one important method of seismic data processing. Performing CRS stack depends on three attributes. However, the equation of CRS is invalid under condition of great offset. In this thesis, one method based on velocity model in depth domain is put forward. Ray tracing is used to determine the traveltime of CRP in one common reflection surface by the least squares method to regress the equation of CRS. Then we stack in the coherent seismic data set according to the traveltime, and get the zero offset section. In the end of flowchart of implementing CRS stack, one method using the dip angle to enhance the ratio of S/N is used. Application of the method on synthetic examples and field seismic records, the results of this method show an excellent performance of the algorithm both in accuracy and efficiency.