一种逆M序列的动态显示方法

根据逆M序列产生原理，实现了计算机系统辨识仿真时逆M序列的产生和动态显示,并通过实例证明了程序的正确性和实用性.     

银染mRNA差异显示方法在致突变实验中的初步应用

为建立在药物致突变研究中应用银染 m RNA差异显示的方法 ,试验提取未经过 /经过环磷酰胺处理的 Balb/c小鼠肝组织的总 RNA ,并以此为模板 ,采用 d T1 2 CG、d T1 2 AG、d T1 2 GG为锚定引物 ,通过反转录、差异显示 PCR反应 ,以 6 %变性聚丙烯酰胺凝胶电泳分离差异条带 ,回收后将其再扩增。结果表明 ,RNA投入量为 3μg、镁离子浓度为 1.5～ 2 .0 mm ol/L、退火温度为 4 0℃时 ,扩增的片段条带清晰、背景低 ,差异条带明显 ,再扩增条带单一。银染 m RNA差异显示技术可成功应用于药物致突变的研究。     

mRNA差异显示技术及其在植物抗寒基因研究中的应用

mRNA差异显示技术自1992年建立以来，成为分子生物学领域的一个研究热点，并在许多领域得到了广泛应用。本文综述了mRNA差异显示技术的基本原理，其存在的问题及近几年该技术的改进、完善与发展。如引物设计、PCR参数优化、假阳性克服、cDNA片段克隆测序及完整基因的筛选。此外，对其在植物抗寒基因研究中的应用作了简要介绍。     

湿地公园宣教设计--标牌与主题展示

明确了与标牌相关的几个概念及相互间的关系,提出了标牌、设计的基本要求与原则,就标牌分类和设计的材料、样式、色彩、内容、位置、文字与符号等元素进行了总结,提出了利用系列标牌进行主题宣教的设计思路。     

mRNA差异显示技术及其在动物遗传育种中的应用

ｍＲＮＡ差异显示技术是近年来国外发展起来的攻克隆新基因的一种新方法，同时已广泛用于人类基因调控和克隆研究。本文论述了这一新技术的原理、发展现状和在动物遗传育种中的应用领域。     

基于硬件加速的真三维显示体素化算法

提出了一种新的体素化算法，利用显示硬件支持二维光栅化算法和新的可编程控制功能，提高了体素化算法的效率。该算法通过逐层处理的方式将三维数据离散成为一系列的切片，利用硬件渲染完成切片的光栅化操作，将最终的光栅化结果组合成为体数据表达。算法利用可编程图形处理单元（GPU）的大规模纹理、动态顶点数据和灵活的纹理数据操作等特性，有效地降低了系统压力，提高了算法效能。实验证明，该算法满足真三维显示技术的要求。     

sch蚕胚胎期温敏性的mRNA差异显示研究

采用mRNA差异显示技术对不同催青处理的伴性赤蚁sch系统进行研究 ,并以普通黑蚁系统夏芳作为对照。实验中分别抽提高温和常温催青处理 36h后的sch蚕卵和夏芳蚕卵的总RNA进行DDRT -PCR分析 ,其产物于变性聚丙烯酰胺凝胶上电泳展示 ,得到大量的差示片段。对高温催青处理后在夏sch蚕卵中特异表达的 2条能稳定重复的带进行了克隆 ,得到了长度分别为 2 73和 199bp的cDNA片段 ,并对其进行了序列分析。Northern杂交证实HAP82 80仅在高温催青处理的夏sch蚕卵中有转录 ,表明其为sch蚕卵经高温催青处理后特异表达的产物     

大豆孢囊线虫4号生理小种侵染大豆根系诱导表达的cDNA分析

大豆孢囊线虫(Heterodera glycines Ichinohe；Soybean Cyst Nematode，SCN)是一种土传的专性内寄生线虫。SCN的二龄幼虫侵入到大豆幼嫩的根组织中，导致大豆根内的细胞变形并与之形成“合胞体”。合胞体在形态上和生理上的变化是SCN直接诱导大豆基因表达的结果。本研究以高抗SCN的灰布支黑豆为材料，用大豆孢囊线虫二龄幼虫直接接种大豆的根系，应用DDRT—PCR技术及RDB(Reversedot—blotting)杂交鉴定，获得6个阳性cDNA克隆，分别是SCN侵染后5天的A32克隆(GenBank登录号为B1173978)；侵染后10天的B12克隆(GenBank登录号为B1173979)、B71克隆(GenBank登录号为B1173980)；侵染后15天的Cll克隆(GenBank登录号为B1173981)、CPl2(GenBank登录号为B1173982)克隆和CP32克隆(GenBank登录号为B1173983)。序列的同源比较表明，6个cDNA均与Shoemaker构建的大豆基因表达库中的cDNA序列有非常高的同源性，证明这些cDNA是大豆基因表达的产物。其中A32克隆的序列与控制拟南芥下胚轴生长的MYB转录因子、营养元素缺失诱导的番茄根的表达文库中的一个cDNA及番茄抗假单胞杆菌表达文库中的一个cDNA有较高的同源性。     

Simple sequence repeats as useful resources to study transcribed genes of cotton

Microsatellites or Simple Sequence Repeats(SSRs) are informative molecular genetic markers in many crop species. SSRs are PCR-based, highly polymorphic, abundant, widely distributed throughout the genome and inherited in a co-dominant manner in most cases. Here we describe the presence of SSRs in cDNAs of cotton. Thirty one SSR primer pairs of 220 (∼14%) tested led to PCR amplification of discrete fragments using cotton leaf cDNA as template. Sequence analysis showed 25% of 24randomly selected cDNA clones amplified with different SSR primer pairs contained repeat motifs. We further showed that sequences from the SSR-containing cDNAs were conserved across G. barbadense and G. hirsutum, revealing the importance of the SSR markers for comparative mapping of transcribed genes. Data mining for plant SSR-ESTs from the publicly available databases identified SSRs motifs in many plant species,including cotton, in a range of 1.1 to4.8% of the submitted ESTs for a given species. This revised version was published online in August 2006 with corrections to the Cover Date.     

New strategies for increasing heterozygosity in crops: Vicia faba mating system as a study case

Our research assesses the feasibility of using artificial selection on pre-mating floral traits to modify the mating system of faba bean (Vicia faba). This analysis considered two synthetic populations, which were derived from different genetic pools and had undergone five years of multiplication. For these populations, we identified floral and inflorescence traits that influence outcrossing per plant and examined the relative importance of these traits in governing yield. Codominant isozyme loci and the mixed-mating model were used to estimate the multilocus female outcrossing rate. A maternal half-sib design was used to evaluate the additive genetic component of floral and inflorescence traits, yield and yield components. Multiple regression was used to assess the effects of floral and inflorescence traits on outcrossing and yield and components of yield. The two populations exhibited mixing mating. Self-fertilization appears to result from the action of pollinating bees, so that its incidence could be modified by selection on floral and inflorescence traits that affect pollination. Floral and inflorescence traits affected individual differences in outcrossing unequally, with most variation being associated with the numbers of displayed flowers and inflorescences. Variation among plants in reward traits and in shape, although statistically significant, had limited and inconsistent influences on individual differences in outcrossing. Yield and its components varied strongly with aspects of floral display and, to a lesser extent, floral design, except for seed weight. Overall, our results imply that both outcrossing and yield could be enhanced by selection for plants that produce more inflorescences, each with relatively few flowers.