棉花抗黄萎病基因工程研究和防卫反应相关基因的克隆

系统获得性抗性(Systematic acquired resistance, SAR)是植物抵御病原菌侵染的最有效手段，利用基因工程技术导入SAR信号发生过程中的关键基因后，植物的SAR基因表达量提高并且对病原菌侵染的反应速度加快，因此植物的抗病性得以增强，与传统的抗病基因工程技术相比它对病原菌没有专一性，许多学者称之为广谱抗病基因工程，该领域已成为目前抗病基因工程研究的热点和前沿。 NDR1和NPR1基因在植物的SAR发生中起着重要的作用，前者功能定位在ROS(reactive oxygen species)的激活和随后的水杨酸(SA)诱导合成之间，突变株病原菌诱导后SA合成能力降低，SAR发生减弱，目前还没有对该基因进行过量表达分析的报道;后者功能定位在SAR信号转导级联反应之中的SA积累和随后的SAR基因表达之间。该突变株在病原菌侵染时不产生病程相关蛋白(PRs)，表现为感病，而对照抗病;过量表达该基因的转基因拟南芥对多种病原菌的侵染产生抗性，PR1等PRs蛋白的表达量也提高，异源表达该基因的水稻对白叶枯病的抗性也提高。本研究利用RT-PCR方法从拟南芥中克隆了这两种基因，序列分析表明拟南芥Wassilewskija生态型的NDR1基因与Columbia生态型相比，共有7处碱基不同，引起编码氨基酸变化4处，而NPR1基因与报道的Wassilewskija生态型来源的NPR1基因完全相同。 我们构建了35S启动子驱动的NDR1和NPR1基因的植物组成型高效表达载体，利用农杆菌介导法转化烟草，PCR和Southern鉴定外源基因已经整合到植物基因组中。抗病性分析显示过量表达NDR1和NPR1基因的烟草对晚疫病和赤星病的抗性都有明显提高，说明这两个基因的在其它植物中异源表达后，都能提高植物对多种病原菌的抗性。 本论文提出了利用这两个基因来培育抗黄萎病棉花的设想，一方面为解决这个“世纪性”难题积累新的资料，另一方面也为其它作物的抗病基因工程提供新的经验。利用35S启动子驱动的NDR1和NPR1基因的植物组成型表达载体分别对陆地棉品种石远321进行花粉管通道法转化。同时，还探讨了这两个基因在棉花中的共转化实验，希望它们的“协同增效”能进一步提高棉花的抗病性。对其中2001年夏天在南京注射所获得的5,000粒种子在三亚进行100 g/ml卡那霉素筛选，初步鉴定分别获得转NDR1和NPR1基因株系26和24棵，PCR进一步鉴定其中分别有12和7棵为转基因阳性，转基因频率分别为0.50％和0.27％，目前利用营养钵蘸根法对其二代进行抗枯、黄萎病鉴定，结果显示有转基因植株对枯、黄萎病的抗性都明显增强，进一步的鉴定正在进行中。2002年初海南注射分别获得转NDR1和NPR1基因以及共转化种子22,000、10,500和12,500粒种子，2002年夏在中国农科院植保所黄萎菌病圃筛选抗黄萎病单株，并利用100 g/ml卡那霉素初步筛选出了一批抗性植株，每种转基因株系随机挑选5株进行PCR鉴定，结果显示为阳性。进一步的抗黄萎病鉴定和筛选以及分子分析正在进行中。 同时，本文还探讨了病原菌诱导型启动子在广谱抗病基因工程应用的可能性。根据烟草的Pr1-a启动子已知序列设计引物，PCR扩增启动子序列后,构建病原菌诱导型NPR1基因植物表达载体，并对棉花进行转化，获得种子11,500粒，利用同上的筛选方法，获得了一致的结果，目前抗黄萎病鉴定、分子检测以及生物学分析正在进行中。 最后，鉴于抗生素标记在转基因植物的应用引起了许多“安全性”争论的事实，还构建了无筛选标记的表达载体对抗虫棉进行转化，这样在生产上可以直接获得抗虫棉抗黄萎病棉花新材料，也为其它作物抗病基因工程积累经验。 本研究还提出了一种较为有效的提取高质量棉花总RNA的方法，与原来一些棉花RNA纯化方法相比，该方法所用都为常规试剂，易于重复，质量高。并且利用获得的总RNA构建了黄萎菌激发子诱导的cDNA文库，滴度测定为1╳107pfμ/μg，插入片段大小在5 00~2 000 bp范围内。 鉴于NPR1基因研究的重要性，本研究还利用简并引物PCR技术从海岛棉和陆地棉的基因组中都分离到了NPR1基因的同源片段，大小都为208 bp，与拟南芥NPR1基因的相应部分的同源性分别为66％和65％，它们之间的同源性为87％，目前该基因的全长正在分离鉴定中。 多聚半乳糖醛酸酶抑制蛋白(PGIPs)在植物的防御反应中起着重要的作用，通过分析已知20余种pgip基因序列的保守区，设计简并引物，PCR扩增海岛棉（Gossypium barbadense）7124 cDNA文库，得到一条长561 bp的片段，序列测定后分析确认为pgip基因的一部分。根据此序列和棉花病原菌诱导的cDNA文库载体中已知部分设计RACE引物，扩增后，5’和3’RACE分别得到666bp和906 bp的片段。序列分析表明它具有完整的编码框，产物为330 aa的蛋白质。序列分析该蛋白具有10个串联的LRR(leucine-rich repeat)区，与柑桔(Citrus)和枳(Poncirus)的pgip基因的同源性分别为69.2%和68.7%。进一步PCR扩增得到该基因的全长阅读框，并且获得了相应的基因组片段，序列分析发现该基因没有内含子。这是从棉属植物中克隆的第一个pgip基因。

Density, sp3 content and internal layering of DLC films by X-ray reflectivity and electron energy loss spectroscopy

A variety of hydrogenated and non-hydrogenated amorphous carbon thin films have been characterized by means of grazing-incidence X-ray reflectivity (XRR) to give information about their density, thickness, surface roughness and layering. We used XRR to validate the density of ta-C, ta-C:H and a-C:H films derived from the valence plasmon in electron energy loss spectroscopy measurements, up to 3.26 and 2.39 g/cm3 for ta-C and ta-C:H, respectively. By comparing XRR and electron energy loss spectroscopy (EELS) data, we have been able for the first time to fit a common electron effective mass of m*/me = 0.87 for all amorphous carbons and diamond, validating the `quasi-free' electron approach to density from valence plasmon energy. While hydrogenated films are found to be substantially uniform in density across the film, ta-C films grown by the filtered cathodic vacuum arc (FCVA) show a multilayer structure. However, ta-C films grown with an S-bend filter show a high uniformity and only a slight dependence on the substrate bias of both sp3 and layering.

Magnetic field and current distributins in melt-textured YBa 2Cu 3O 7-x with an artificial grain boundary

Using a magneto-optical (MO) technique, magnetic field distributions have been measured in a melt-textured YBa 2Cu 3O 7-x bulk superconductor, joined to form an artificial grain boundary (GB), in an external magnetic field perpendicular to the sample surface. The magnetic field at a weak section of the GB shows different values between the field increasing up to 150mT and decreasing down to 0T after zero-field-cooling. Namely, the magnetic field in increasing field is higher than that in decreasing field, even in the same external field. This result supports a model in which such differences in magnetic field at the weak-link GB give rise to the hysteresis behavior in the field dependence of transport critical current density in polycrystalline samples. The field distributions across a well-joined region of the GB behave similarly to the adjoining bulk material and this result indicates the possibility of creating useful artifacts provided that the strongly coupled sections can be reproduced on a larger scale.

X-ray propagation in carbon nanotubes

The maintenance of the growth of the multibillion-dollar semiconductor industry requires the development of techniques for the fabrication and characterisation of nanoscale devices. Consequently, there is great interest in photolithography techniques such as extreme UV and x-ray. Both of these techniques are extremely expensive and technologically very demanding. In this paper we describe research on the feasibility of exploiting x-ray propagation within carbon nanotubes (CNT's) for the fabrication and characterisation of nanoscale devices. This work discusses the parameters determining the design space available. To demonstrate experimentally the feasibility of x-ray propagation, arrays of carbon nanotubes have been grown on silicon membranes. The latter are required to provide structural support for the CNT's while minimising energy loss. To form a waveguide metal is deposited between the nanotubes to block x-ray transmission in this region at the same time as cladding the CNT's. The major challenge has been to fill the spaces between the CNT's with material of sufficient thickness to block x-ray transmission while maintaining the structural integrity of the CNT's. Various techniques have been employed to fill the gaps between the nanotubes including electroplating, sputtering and evaporation. This work highlights challenges encountered in optimising the process.

Rapid evolution of an X-linked microRNA cluster in primates

MicroRNAs (miRNAs) are a growing class of small RNAs ( about 22 nt) that play crucial regulatory roles in the genome by targeting mRNAs for cleavage or translational repression. Most of the identified miRNAs are highly conserved among species, indicating

Rapid evolution of mammalian X-linked testis microRNAs

Background: MicroRNAs (miRNAs), which are small, non-coding RNAs approximately 21-nucleotides in length, have become a major focus of research in molecular biology. Mammalian miRNAs are proposed to regulate approximately 30% of all protein-coding genes. P

ISOLATION AND PROPERTIES OF A BLOOD-COAGULATION FACTOR-X ACTIVATOR FROM THE VENOM OF KING COBRA (OPHIOPHAGUS HANNAH)

A specific blood coagulation factor X activator was purified from the venom of Ophiophagus hannah by gel filtration and two steps of FPLC Mono-Q column ion-exchange chromatography. It showed a single protein band both in sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and alkaline polyacrylamide gel electrophoresis. The mol. wt was estimated to be 62,000 in non-reducing conditions and 64,500 in reducing conditions by SDS-PAGE. The isoelectric point was found to be pH 5.6. The enzyme had weak amidolytic activities toward CBS 65-25, but it showed no activities on S-2266, S-2302, thrombin substrate S-2238, plasmin substrate S-2251 or factor Xa substrate S-2222. It had no arginine esterase activity toward substrate benzoylarginine ethylester (BAEE). The enzyme activated factor X in vitro and the effect was absolutely Ca2+ dependent, with a Hill coefficient of 6.83. It could not activate prothrombin nor had any effect on fibrinogen and thus appeared to act specifically on factor X. The procoagulant activity of the enzyme was almost completely inhibited by serine protease inhibitors like PMSF, TPCK and soybean trypsin inhibitor; partially inhibited by L-cysteine. Metal chelator EDTA did not inhibit its procoagulant activity. These results suggest that the factor X activator from O. hannah venom is a serine protease.

AN ACTIVATOR OF BLOOD-COAGULATION FACTOR-X FROM THE VENOM OF BUNGARUS-FASCIATUS

A specific activator of blood coagulation factor X was purified from the venom of Bungarus fasciatus by gel filtration and by ion-exchange chromatography on a Mono-Q column (FPLC). It consisted of a single polypeptide chain, with a mel. wt of 70,000 in reducing and non-reducing conditions. The enzyme had an amidolytic activity towards the chromogenic substrates S-2266 and S-2302 but it did not hydrolyse S-2238, S2251 or S-2222, which are specific substrates for thrombin, plasmin and factor Xa, respectively. The enzyme activated factor X in vitro and the effect was Ca2+ dependent with a Hill coefficient of 7.9. As with physiological activators, the venom activator cleaves the heavy chain of factor X, producing the activated factor Xa alpha. The purified factor X activator from B. fasciatus venom did not activate prothrombin, nor did it cleave or clot purified fibrinogen. The amidolytic activity and the factor X activation activity of the factor X activator from B. fasciatus venom were readily inhibited by serine protease inhibitors such as diisopropyl fluorophosphate (DFP), phenylmethanesulfonyl fluoride (PMSF), benzamidine and by soybean trypsin inhibitor but not by EDTA. These observations suggest that the factor X activator from B. fasciatus venom is a serine protease. It therefore differs from those of activators obtained from Vipera russelli and Bothrops atrox venoms, which are metalloproteinases.

Extraction of fibre network architecture by X-ray tomography and prediction of elastic properties using an affine analytical model

This paper proposes a method for extracting reliable architectural characteristics from complex porous structures using micro-computed tomography (μCT) images. The work focuses on a highly porous material composed of a network of fibres bonded together. The segmentation process, allowing separation of the fibres from the remainder of the image, is the most critical step in constructing an accurate representation of the network architecture. Segmentation methods, based on local and global thresholding, were investigated and evaluated by a quantitative comparison of the architectural parameters they yielded, such as the fibre orientation and segment length (sections between joints) distributions and the number of inter-fibre crossings. To improve segmentation accuracy, a deconvolution algorithm was proposed to restore the original images. The efficacy of the proposed method was verified by comparing μCT network architectural characteristics with those obtained using high resolution CT scans (nanoCT). The results indicate that this approach resolves the architecture of these complex networks and produces results approaching the quality of nanoCT scans. The extracted architectural parameters were used in conjunction with an affine analytical model to predict the axial and transverse stiffnesses of the fibre network. Transverse stiffness predictions were compared with experimentally measured values obtained by vibration testing. © 2011 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.