8 resultados para Injeção de gás
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
利用X射线光电子能谱(XPS)深度剖析方法对气体源分子束外延(GS-MBE)生长的GaP/Si异质结构进行了详细的分析。其结果表明
Resumo:
GaP/Si is a promoting heterostructure for Si-based optoelectronic devices since lattice constants of GaP and Si are so closed that they can match with each other. GaP was successfully grow on (100) Si subtracts by Gas-Source Molecular Bean Epitaxy (GS-MBE) in the study. The GaP/Si heterostructure was characterized by X-ray double crystal diffraction, Anger electron spectrograph, X-ray photonic spectrograph and photoluminescence (PL) measurements. The results showed that the epitaxial GaP layers are single crystalline, in which a parallel to and a (perpendicular to)are 0.54322 and 0.54625 nm, respectively. The peaks in PL spectra of GaP epitaxial layer grown on Si are 650, 627 and 640 nm, respectively. The study demonstrated that GaP/Si is a kind of lattice matched heterostructures and will be a promoting materials for future integrated photonics.
Resumo:
应用花粉管通道技术将新疆大赖草总DNA导入小麦,用高重序列分析方法,已为大赖草总DNA转入小麦提供了初步的分子证据。在转 化后代中选育出稳定遗传的大穗变异株系,分析表明,这些转化株中蛋白质含量明显增高(13%-17%)。对基因供体新疆大赖草、受 体春麦761、转化株的高分子量谷蛋白亚基(HMW-GS)进行了SDS-PAGE分析,发现这些转化株中HMW-GS发生了很大变化,并在此基础 上,用来自小麦基因组的四对特异引物,以PCR方法扩增供体、受体以及转化株的1Ax、1Bx、1Dx及1Ay、1By、1Dy型HMW-GS全基因 ,比较他们扩增产物的差异,结果表明,受体与转化株在HMW-GS基因1Ax、1Bx位点上的扩增产物差异不大,在HMW-GS基因位点1Dx 和y型基因上的扩增产物有较大差异,说明了受体在基因位点1Dx、1Ay、1By和1Dy上可能发生了多位点插入,可能由于这些基因位 点上的插入引起了转化株的高分子量谷蛋白亚基(HMW-GS)的变化,这就再一次为大赖草总DNA导入提供了直接的分子证据。虽然大 赖草总DNA导入提高了小麦蛋白质的含量,改变了HMW-GS的组成,部分改变了品质评分,但我们感到这些转化株在品质改良方面仍 有很大余地,如何更好地利用新疆大赖草蛋白质的优良特性及避免总DNA导入给转化株带来的不良性状,一个大赖草HMW-GS基因正 被分离及克隆,并准备将其利用于未来的品质育种当中。Total DNA of Leymus racemosus had been transformed into wheat through pollen tube pathway. Analysis of the repeated gene sequence had provided an elementary proof. Some variant cultivars with big ear were screened from their offsprings, and their protein content increased greatly from 13% (receptor)to 17%(transformed). The result from SDS-PAGE analysis of high-molecular-weight glutenin subunits(HMW- GS) respectively in donor(Xinjiang Leymus racemosus), receptor(spring wheat cultivar 761)and transformed wheats, showed the HMW-GS composition changed in the transformed plants. On the basis of the research, Four special pairs primers from wheat(T.aestivum L.) genome were used to amplify complete coding regions of HMW-GS genes on 1Ax、1Bx 、1Dx and 1Ay、1By、1Dy loci of donor、receptor and the big ear transformed cultivars. By comparing amplified PCR products. Faint differences were found among receptor and transformed cultivar's 1Ax、1Bx PCR amplifed products and apparent differences on those of 1Dx、y-typePCR product. We gueseed that there may be some DNA inserts in 1Dx 、1By、1Dy loci resulted in the changes of the HMW-GS among transformed cultivars. This provides second direct molecular witness to the exogenous DNA introduction. Even though the transformed plants have higher protein content, changed HMW-GS composition, partially improved process quality, there still leave much work to improve quality. In order to make full use of the excellent property of Leymus racemosus protein and avoid the disadvantages introducced by total DNA transformation, a HMW-GS gene of Leymus racemosus was being isolated and cloned.
Resumo:
对CIMMYT的99份硬粒小麦-节节麦人工合成种(简称合成种)的HMW-GS组成分析发现,Glu-B1和Glu-D1位点的变异类型比普通小麦丰富,分别有9种和12种亚基类型;筛选出含有比5+10亚基更优质的1.5+10和5+12亚基的合成种分别有8份和1份;含有优质亚基1.5+10的合成种与普通小麦杂交结实正常;对2个合成种与2个普通小麦品种的8个止反交组合F1种子电泳发现,优质亚基1.5+10在F1代能正常表达,双亲所有亚基任F1代都得到表达,表现共显性遗传。本研究为优质亚基1.5+10和5+12转育到普通小麦中奠定了基础。
Resumo:
为了给青海高原春小麦改良提供资料,分析了于海育成和国内外引进的125个春小麦品种(系)的HMW-GS等位基因变异,并测定了其中58个品种(系)在青海高原环境下的面团流变学特性。结果表明:(1)参试春小麦品种(系)的HMW-GS存在广泛的变异,Glu-A1位点出现3个等位基因,Glu-B1位点出现5个等位基因,Glu-D1位点出现4个等位基因;共出现了22种HMW-GS组合形式,其中1,7+8,2+12和N,7+8,2+12组合类型出现频率最高,并发现了个别罕见的变异类型,如2+10,10。(2)亚基组合类型对沉淀值、形成时间、稳定时间、评价值等品质性状影响较大,对籽粒蛋白质含量、出粉率和面粉吸水率的影响不显著。试验还表明,HMW-GS组成与面粉的筋力有密切关系。
Resumo:
关于小麦体细胞无性系变异前人已做了大量的研究,观察到了形态学、细胞学和生化特性变异.对醇溶蛋白和谷蛋白变异的分析,获得了基因突变的证据,但不知突变基因的位点.本研究的目的在于分析体细胞无性系的高分子量谷蛋白亚基(high-molecular-weightglutenin subunits,HMW-GS)的变化,获取特定基因(Glu-l)突变的证据,并研究HMW-GS变异体农艺性状和产量性状的表现.